The Department of Biosciences and Nutrition
Transcription
The Department of Biosciences and Nutrition
The Department of Biosciences and Nutrition Scientific Report 2010-2012 Contents Introduction 7 Roger Strömberg: Nucleic acids and peptides in biotechnology and therapy27 Research groups Staffan Strömblad: Cell biology of cancer 28 Thomas Bürglin: Studying how cell specialization is regulated 8 Peter Swoboda: From the basic biology of cilia to ciliopathy disease states in humans29 Karin Dahlman-Wright: ESR - estrogen signaling research group 9 Jussi Taipale: Systems biology group30 Mauro D'Amato: Molecular genetics of gastrointestinal disease10 Rune Toftgård: Hedgehog signalling, tissue stem cells and cancer development31 Carsten Daub: Clinical transcriptomics11 Eckardt Treuter: Epigenomic control of metaflammation by nuclear receptor-coregulator pathways32 Karl Ekwall: Epigenetics, chromatin remodeling and cancer12 Agneta Yngve: Public health nutrition33 Maria Eriksson: Searching for genetic mechanisms that affect aging13 Core facilities Henrik Garoff: Activation of HIV-1 and murine leukemia virus 14 Bioinformatics and expression analysis, BEA 34 Jan-Åke Gustafsson: Nuclear receptors in health and disease 15 Center for high resolution electron microscopy, EM 35 Hans Hebert: Cryo electron microscopy of membrane proteins and biomolecular assemblies16 The live cell imaging unit, LCI 36 Luca Jovine: Structural studies of egg-sperm interaction and human hedgehog signaling proteins17 Karolinska high throughput center, KHTC 37 Maria Kasper: Stem cell dynamics in skin - from homeostasis to cancer18 Examples of high impact publications 38 Juha Kere: Molecular genetics and biology of complex diseases19 Dissertations 2010-201240 Marie Löf: Early-life factors important for childhood obesity: observational and interventional studies Undergraduate teaching 20 42 Lennart Möller: Analytical toxicology and clinical applications21 Networks 44 Lennart Nilsson: Simulating the behavior of proteins and nucleic acids22 Awards 45 Sam Okret: Effects of glucocorticoids and estrogens on cells and functions of the immune systems23 The department in brief 46 Joseph Rafter: Host - microbe intearctions24 Organization 48 Michael Sjöström: Childhood factors and cardiovascular health 25 Contact 49 Dan Segerbäck: Monitoring human exposure to ultraviolet radiation26 4 5 Introduction Welcome to the Department of Biosciences and Nutrition (BioNut) at the Karolinska Institutet Campus Huddinge. In your hands you hold our Scientific Report for the last three years, 2010-2012. The front page is illustrating the most critical asset of our department, the people, past and present, who all contributed and contribute to make the department what it is: An academic environment where the international dimension and diversity, with students and researchers from all over the globe, enrich the scientific, educational and social environment. Our vision is to conduct biomedical research at the international research front that attracts world-class individuals, coupled to a quality-assured academic education, and to be an attractive partner for the health care system, the industrial sector and leading research centers. The strategy aims to provide a high quality and comprehensive unit for preclinical medical research and related education at the KI Campus Huddinge with multifaceted and productive collaborations with Karolinska University Hospital and the Royal Institute of Technology (KTH), among others. With a translational ambition, our goal is to provide a consolidated bench component of a bed to bench translation with close multiple and diverse collaborations with clinical colleagues. The core activities of our department are conducted within the context of approximately 25 research groups, the activities and achievements of which are described on the following pages. These groups represent a broad repertoire of basic science, however, some themes are apparent such as genomics in a broad perspective, structural biology and nutrition. From a therapeutic area perspective, cancer and metabolic disease are areas approached by many groups. Educational activities are mainly in areas of biomedicine and nutrition, well aligned with the research focuses of the department. The department also houses four core facilities three of which, the Bioinformatics and Expression Analysis, BEA, the Center for High Resolution Electron Microscopy, EM and the Karolinska High Throughput Center, KHTC , have a nationwide ambition. The activities of our core facilities are well in line with the scientific focuses of our department. Importantly, our core activities rely on the professional assistance of our support functions, including functions for laboratory service, human resources, economy, research support and IT. Looking back at the last three years, every day was a scientific and educational experience. Rather than addressing any specific achievement, I leave for you the reader, to choose your own highlights from what is provided on the following pages. Looking into the future, I am sure it will be just as unexpected, exciting and challenging as the past. We, the people that constitutes the Department of Biosciences and Nutrition, with the competences and experiences that we represent, are now ready to step into the future to continue to address prioritized biomedical problems and improve human health. Finally, I like to thank Marie Franzén and Camilla Wernersson, their hard work, organizational skills and creativity have been instrumental to complete this scientific report. Karin Dahlman Wright 7 Studying how cell specialization is regulated Tomas Bürglin +46 8 585 837 33 thomas.burglin@ki.se ki.se/bionut/burglin Selected publications Tammimies, K., Vitezic, M., Matsson, H., Le Guyader, S., Bürglin, T.R., Öhman, T., Strömblad, S., Daub, C.O., Nyman, T.A., Kere, J., and Tapia-Páez, I. Molecular networks of DYX1C1 gene show connection to neuronal migration genes and cyoskeletal proteins. Biol. Psychiatry, 73(6):583-90. Bürglin, T.R. (2011) Homeodomain subtypes and functional diversity. Subcell. Biochem. 52:95-122. Ohkura, K., Bürglin T.R. (2011) Dye-filling of the amphid sheath glia: implications for the functional relationship between sensory neurons and glia in Caenorhabditis elegans. Biochem Biophys Res Commun. 406:188-193. Caenorhabditis elegans has several genes related to the signaling molecule Hedgehog, a key molecule in carcinogenesis. We showed that the hedgehog-related gene wrt-6 is expressed in the amphid and phasmid socket cells of sensory neurons, and found that wrt-6 mutants are lipid dye-filling defective, and have reduced dauer formation, which is induced by lipid-type pheromones. We conclude that WRT-6 is required for transporting large lipophilic molecules to sensory cilia. Hedgehog-related genes in development We are interested in how cell types are specified during development. Using our 4D imaging system, Endrov, we analyzed the promoter region of the homeodomain transcription factor ceh-5. During embryogenesis, ceh-5 is asymmetrically expressed in two bilaterally symmetric groups of cells. We have shown that an E-box motif about 70 bp upstream of the ceh-5 ATG is required for this expression, and we have identified several basic helix-loop-helix transcription factors that are involved (HLH-2, CND-1 and NGN-1). Our current model suggests that two different types of heterodimeric complexes are formed by HLH-2/CND-1 and HLH-2/NGN-1, respectively, to achieve the asymmetric expression. Tracking transcription factors during development using a new imaging framework The Endrov imaging framework (www. endrov.net) has been further developed. Its key strengths are handling of large (> 100 Gb) N-dimensional data (e.g., multi-channel, multiposition, multi-spectral), making it suitable for a wide array of tasks, e.g., 3D time-lapse recordings, systems microscopy, lineaging and 4D modeling of the data. ESR – estrogen signaling research group The overall goal is the development of novel therapeutic strategies targeting estrogen signaling in metabolic disease, particularly type 2 diabetes (T2D) and breast cancer. There is substantial evidence for the involvement of estrogen signaling and estrogen receptors (ERs) in T2D combined with a great unmet medical need for this disease. Estrogen signaling promotes breast cancer growth and ER antagonists represent first line therapy for ER positive breast cancer. However, all tumors do not respond to this therapy and additionally many tumors eventually acquire ER antagonist resistance supporting a need to develop novel therapeutic strategies. ERα knock-out (KO) mice are obese and display insulin resistance; however, the target tissues responsible for these effects remain elusive. Tissue-selective KO animals are well posed to address this issue and we have generated mice with ERα KO in hepatocytes, adipocytes and pancreatic β-cells. These studies revealed that hepatocyte-selective ERα ablation does not recapitulate the T2D phenotype. We are exploring several avenues to modulate estrogen signaling in breast cancer cells. We have demonstrated that members of a family of E3 ubiquitin ligases can modulate ERα levels and cell proliferation and suggest that these proteins could constitute novel drug targets. The extensive cross talk between estrogen signaling and AP-1 signaling that we have described indicates a potential of modulators of AP-1 family in management of breast cancer. Xue-Franzén, Y., Johnsson, A., Brodin, D., Henriksson, J., Bürglin, T.R., Wright, A.P. , (2010) Genome-wide characterisation of the Gcn5 histone acetyltransferase in budding yeast during stress adaptation reveals evolutionarily conserved and diverged roles. BMC Genomics 11:200. Selected publications Gustafsson Sheppard, N., Heldring, N. and Dahlman-Wright, K. (2012) Estrogen receptoralpha, RBCK1 and Protein Kinase C beta1 cooperate to regulate Estrogen Receptor-alpha gene expression. J Mol Endocrinol. 49(3):277-87. Dahlman-Wright, K., Qiao Y., Jonsson, P., Gustafsson, J-A., Williams, C. and Zhao, C. (2012) Interplay between AP-1 and estrogen receptor in regulating gene expression and proliferation networks in breast cancer cells. Carcinogenesis 33(9):1684-91. Gustafsson N, Zhao C, Gustafsson JA and Dahlman-Wright K. (2010) RBCK1 drives breast cancer cell proliferation by promoting transcription of estrogen receptor α and cyclin B1. Cancer Research 70(3):1265-74. Zhao, C., Gao, H., Liu, Y., Papoutsi, Z., Jaffrey, S., Gustafsson J.-Å. and Dahlman-Wright K. (2010) Genome-wide mapping of estrogen receptorbeta-binding regions reveals extensive cross-talk with transcription factor activator protein-1. Cancer Research 70(12):5174-83. Tong, Y.G., Bürglin, T.R. (2010) Conditions for dye-filling of sensory neurons in Caenorhabditis elegans. J Neurosci Methods 188:58-61. Moutsatsou P., Papoutsi Z., Kassi E., Heldring N., Zhao C., Tsiapara A., Melliou E., Chrousos GP., Chinou I., Karshikoff A., Nilsson L. and Dahlman-Wright K. (2010) Fatty acids derived from royal jelly are modulators of estrogen receptor functions. PLoS ONE 5(12):e 15594. Group members Johan Dethlefsen Umesh Gangishetti Yong-Guang Tong Johan Henriksson Kiyotaka Ohkura Lois Tang Model of the C. elegans embryo at the 24-cell stage, lineaged, reconstructed, and modeled using our open-source software and imaging framework Endrov. Gut blast cells (stem cells) are colored green, predominatly muscle precursors are yellow and blue, and predominantly ectodermal and neuronal precursors are shades of red and purple. The germ line is descendant from P3’. 8 Karin Dahlman Wright +46 8 524 810 89 +46 707 266 541 karin.dahlmanwright@ki.se ki.se/bionut/karindahlmanwright The group is approaching the molecular mechanism of estrogen signaling in metabolic disease and breast cancer combining phenotypic and functional genomics data with the ultimate goal to derive novel to identify novel diagnostic criteria and drug targets. Group members Gábor Borbely Karin Dahlman-Wright Hui Gao Nina Gustafsson Sheppard Lars-Arne Haldosén Malin Hedengran-Faulds Min Jia Amirhossein Kharman Biz Milica Putnik Yichun Qiao Indranil Sinha Li Xu Chunyan Zhao Jian Zhu 9 Mauro D'Amato +46 8 524 810 46 +46 704 355 514 mauro.damato@ki.se ki.se/bionut/damato Selected publications Jostins L, et al. (2012) Host-microbe interactions have shaped the genetic architecture of inflammatory bowel disease. Nature 491:119-24. Rivas MA, et al. (2011) Deep resequencing of GWAS loci identifies independent rare variants associated with inflammatory bowel disease. Nat Genet 43:1066-73. Zucchelli M, et al. (2011) Association of TNFSF15 polymorphism with susceptibility to irritable bowel syndrome. Gut 60:1671-7 Anderson CA, et al. (2011) Meta-analysis identifies 31 additional ulcerative colitis risk loci, increasing the number of confirmed associations to 49. Nat Genet 43:246-52. Molecular genetics of gastrointestinal disease Clinical transcriptomics The elucidation of the genetic mechanisms leading to gastrointestinal disease represents our main scientific interest. We focus primarily on inflammatory bowel disease (IBD) and irritable bowel syndrome (IBS). These are incurable conditions affecting respectively 1% and 15% of the general population, and great is therefore the need to translate genetic findings into novel therapeutic strategies. We strive to identify risk genes and their causative variants by applying genetic, bioinformatic and functional genomic approaches. High-throughput technologies developed in the recent years hold great potential for the application to medical questions, however the complexity especially in data handling and analysis aspects, poses a major challenge for taking advantage of their fullest potential in the medical and clinical context. Inflammatory bowel disease (IBD) Crohn’s disease (CD) and ulcerative colitis (UC), the 2 major forms of IBD, show a strong genetic component, and we have contributed recent breakthrough discoveries within the frame of large international consortia. While 163 IBD risk loci have been already discovered, our current challenge is to exploit this information for the identification of novel diagnostic and/ or therapeutic targets, and for the delineation of genotype-based strategies to personalized medicine (www.ibdgenetics.org). Irritable bowel syndrome (IBS) A heritable component of IBS is suspected, though few IBS risk genes have been proposed, which must be seen as non validated hits rather than true predisposing factors. One important exception may be TNFSF15, which we first described in IBS and has now been confirmed in several independent studies. We are expanding the breadth of our research in IBS by undertaking whole-genome analyses on large cohorts from several research groups around the world (www.bellygenes.org). Functional dysregulation in diseases Our interests focus on the understanding of the molecular basis of diseases through translational research, specifically, but not exclusively, related to inflammation. The key aspects of our work include genome-wide gene expression analysis from human patient samples employing technologies such as RNA-Seq, Cap Analysis of Gene Expression (CAGE) or small RNA sequencing. Our analysis goes beyond differentially expressed genes and identifies a variety of candidate elements responsible for the observed expression differences in the disease patients and the associated clinical phenotypes. Application of sequencing technology to the transcriptome previously has been utilized to uncover a range of regulatory elements and mechanisms, including regulation through transcription factors (TFs), nearby but distinct alternative promoters resulting in the same protein but employing different sets of regulatory TFs, expression of anti-sense RNA to modulate the sense-RNA and the regulatory role of expressed repeat elements and miRNAs. Subsequent functional validation studies confirm the suggested regulatory relationships. 10 Selected publications Arner E, Mejhert N, Kulyté A, Balwierz PJ, Pachkov M, Cormont M, Lorente-Cebrián S, Ehrlund A, Laurencikiene J, Hedén P, DahlmanWright K, Tanti JF, Hayashizaki Y, Rydén M, Dahlman I, van Nimwegen E, Daub CO, Arner P. (2012) Adipose tissue microRNAs as regulators of CCL2 production in human obesity. Diabetes 61(8):1986-93. Vitezic M, Lassmann T, Forrest AR, Suzuki M, Tomaru Y, Kawai J, Carninci P, Suzuki H, Hayashizaki Y, Daub CO. (2010) Building promoter aware transcriptional regulatory networks using siRNA perturbation and deepCAGE. Nucleic Acids Res. 38(22):8141-8. Burroughs AM, Ando Y, de Hoon MJ, Tomaru Y, Nishibu T, Ukekawa R, Funakoshi T, Kurokawa T, Suzuki H, Hayashizaki Y, Daub CO. (2010) A comprehensive survey of 3' animal miRNA modification events and a possible role for 3' adenylation in modulating miRNA targeting effectiveness. Genome Res. (10):1398-410. Artwork by Bang Wong, Broad Institute. Franke A, et al. (2010) Genome-wide meta-analysis increases to 71 the number of confirmed Crohn’s disease susceptibility loci. Nat Genet 42:1118-25. Group members Ghazaleh Assadi Francesca Bresso Lina Cordeddu Elisabeth Dungner Ling Li Evangelia Papadaki Carsten Daub +46 8 524 812 24 +46 722 506 890 carsten.daub@ki.se ki.se/bionut/daub Group members Olga Hrydziuszko Amitha Raman Nancy Yu Frequent discussions in the group as well as with the clinical collaborators are essential components of the research process. 11 Karl Ekwall +46 8 524 810 39 karl.ekwall@ki.se ki.se/bionut/ekwall Selected publications Pointner J, Persson J, Prasad P, Norman-Axelsson U, Strålfors A, Khorosjutina O, Krietenstein N, Svensson JP, Ekwall K, Korber P. (2012) CHD1 remodelers regulate nucleosomes spacing in vitro and align nuclosomal arrays over gene coding regions in S. pombe. EMBO J. 31:43884403. Epigenetics, chromatin remodeling and cancer Searching for genetic mechanisms that affect aging Epigenetics is the study of heritable changes for example chromosomal states, which are not associated with changes in the DNA sequence. The Ekwall group is taking a holistic approach towards understanding epigenetic regulation, unravelling mechanisms at work both in centromeres and gene regulation. The group is using a variety of approaches including genome-wide 'epigenomics', cell biology and biochemistry to address important questions about epigenetic regulatory mechanisms such as histone modification, nucleosome remodel- Genetic mechanisms that affect physiological aging are of high interest to society, yet not well understood. The Eriksson research group uses the Hutchinson-Gilford progeria syndrome, or progeria, as a model for their studies on aging. Most cases of progeria are caused by mutations in the LMNA gene. Children affected by progeria are normal at birth but during their first years of life they start developing multiple symptoms of premature aging - including loss of subcutaneous fat, and hair, reduced bone mineral density and osteoporosis. Most children die in their early teens from complications of cardio-vascular disease, atherosclerosis. ling and histone variant function. Translational medicine aspects of this research are exploited mainly in the cancer and cell differentiation areas (epigenetic programming). The group also recently initiated projects on chromatin and DNA repair. Currently there are four main projects in focus; Centromere function and gene regulation; Chromatin remodeling factors and nuclear organization; Dissecting the epigenome in normal human blood cells and in Acute Myeloid Leukemia (AML); and DNA damage and chromatin. Steglich B, Filion G, van Steensel B, Ekwall K. (2012) The inner nuclear membrane proteins Man1 and Ima1 link to two different types of chromatin at the nuclear periphery in S. pombe. Nucleus 3(1):77-87. Models of premature aging The LMNA gene codes for the A-type lamins which are major proteins of the nuclear lamina. The lamina plays significant roles in replication, transcription, cell division, and chromatin organization. The Eriksson research group use tissue-specific transgenic mice with expression Sadeghi L, Bonilla C, Strålfors A, Ekwall K, Svensson JP. (2011) "Podbat: A Novel Genomic Tool Reveals Swr1-independent H2A.Z Incorporation at Gene Coding Sequences Through Epigenetic Meta Analysis". PLoS Comput Biol. 7(8): e1002163. of the most common progeria mutation in skin, aorta, and bone to form models for common diseases with aging. Recent published results from the group showed premature senescence, increased inflammation, early reduction in the pool of adult stem cells and impaired wound healing as a consequence from the expression of the progeria mutation in postnatal epidermis. Expression of the progeria mutation in the bone results in a severe phenotype characterized by loss of osteocytes, increased inflammation, and impaired bone mineralization. Further analysis showed DNA damage and impaired wnt signaling. In addition, the phenotype shows similarities to reported bone abnormalities in aging mice, including distorted organization, and a hypo-cellular bone marrow with prominent white adipocytes. Ongoing studies include the analysis of RNA splicing and intra-individual somatic genetic variation acquired during aging. 12 Michelle Rönnerblad Laia Sadeghi Lee Siggens Agata Smialowska Babett Steglich Annelie Strålfors Peter Svensson Schmidt E, Nilsson O, Koskela A, Tuukkanen J, Ohlsson C, Rozell B, Eriksson M. (2012) Expression of the Hutchinson-Gilford progeria mutation during osteoblast development results in loss of osteocytes, irregular mineralization, and poor biomechanical properties. J Biol Chem. 287(40):33512-22. Rodriguez S, Eriksson M. (2011) Low and High Expressing Alleles of the LMNA Gene: Implications for Laminopathy Disease Development. PLoS ONE, (9):e25472. Schmidt E, Eriksson M. A (2011) previously functional tetracycline-regulated transactivator fails to target gene expression to the bone. BMC Res Notes. 2011;4:282. Rodriguez S, Eriksson M. (2010) Evidence for the involvement of lamins in aging. Curr Aging Sci. 2010;3:81-89. Illustration by Andreas Olofsson Group members Carolina Bonilla Wenbo Dong Olga Khorosjutina Andreas Lennartsson Victoria Menéndez Benito Ulrika Norman-Axelsson Jenna Persson Punit Prasad Selected publications Rosengardten Y, McKenna T, Grochová D, Eriksson M. (2011) Stem cell depletion in Hutchinson-Gilford progeria syndrome. Aging Cell 10(6):1011-20. Strålfors A., J. Walfridsson, H. Bhuiyan, and K. Ekwall. (2011) ‘The FUN30 Chromatin Remodeler, Fft3, Insulates Centromeric and Subtelomeric Chromatin Domains from Euchromatin’ PLoS Genetics 7(3): e1001334. Choi ES, Stralfors A, Castillo AG, Durand-Dubief M, Ekwall K, Allshire RC. (2011) "Identification of non-coding transcripts from within CENP-A chromatin at fission yeast centromeres." J Biol Chem. 286(26):23600-7. Maria Eriksson +46 8 524 810 48 maria.eriksson.2@ki.se ki.se/bionut/eriksson Part of a chromosome with the DNA double helix organized into a more compact structure by formation of nucleosomes (round spheres). Each nucleosomes contains histone proteins and 146 base-pairs of DNA. Immunofluorescence with antibodies for the tight junction protein Occludin antibody in green, human lamin A/C in pink and DRAQ5 in blue. Dorsal skin sections were taken from a postnatal day 5 progeriod animal. Although the tight junction layer is functional in the progeriod animals as in the wild-type, the larger exposure area of nucleated cells outside of the tight junction layer, due to epidermal hyperplasia, causes a greater rate of dehydration in progeriod compared to wild-type animals. Group members Jean-Ha Baek Tomás McKenna Hasina Nasser Sofia Rodriguez Ylva Rosengardten Eva Schmidt Charlotte Strandgren Nikenza Viceconte 13 Henrik Garoff +46 8 524 810 32 henrik.garoff@ki.se ki.se/bionut/garoff Selected publications Löving R., Wu S-R., Sjöberg M., Lindqvist B. and H. Garoff. (2012) Maturation cleavage of the retrovirus spike precursor splays the transmembrane subunits to prime it for receptor triggering. Proc. Natl. Acad. Sci. USA. 109:7735-7740. Löving R., Kronqvist M., Sjöberg M. and H. Garoff. (2011) Cooperative cleavage of the Rpeptide in the Env trimer of the Moloney murine leukemia virus facilitates its maturation for fusion competence. J. Virol. 85:3262-3269. Activation of HIV-1 and murine leukemia virus for cell entry Nuclear receptors in health and disease Retroviruses like HIV-1 and murine leukemia virus (MLV) enter into cells trough fusion of the viral membrane with the cell membrane. This process is mediated by the viral spike proteins. We like to know how the spike proteins are activated for membrane fusion and how neutralizing antibodies (Abs) are able to inhibit spike activation. In our studies Ab-bound or unliganded spikes of HIV-1 and MLV are triggered by receptor binding or other conditions to convert into structural intermediates of the activation pathway. The spikes are then solubilized with mild detergents and isolated for structural analyses using biochemical methods and cryo-electron microscopy. Nuclear receptors (NRs) are ligand-activated transcription factors that encompass receptors for steroid hormones as well as receptors acting as sensors of metabolic compounds such as oxysterols and fatty acids. NRs can control intermediary metabolism as well as cellular proliferation and there is a growing appreciation that NRs could be more widely used as targets for treatment of various diseases. We focus our research on the estrogen receptors (ERs) and the liver X receptors (LXRs). Subtypes of these receptors, α and β, are encoded by different genes and ERβ and LXRβ were discovered in our group. Recently we showed how the newly made MLV spike matures stepwise in the infected cell into a form that is primed for receptor induced activation. Using HIV-1 we have isolated and characterized spikes in their native and activated intermediate form and elucidated how two broadly neutralizing Abs inhibit the activation. The results explain how the individual protomers of the trimeric spike coordinate their activation. Furthermore, the study also suggests novel ways to produce stabile native spikes to be used as a HIV-1 vaccine. Tissue specific NR knock-outs Crucial for our research are mouse models with specific deletions of the receptors and we have Sjöberg M, Lindqvist B. and H. Garoff. (2011) The activation of the alphavirus spike is suppressed by bound E3. J. Virol. 85:5644-5650. Wu S.-R., Löving R., Lindqvist B., Hebert H., Koeck P. B. J., Sjöberg M. and H. Garoff. (2010) Single-particle cryoelectron microscopy analysis reveals the HIV-1 spike as a tripod structure. Proc. Natl. Acad. Sci. USA 107:1884418849. shown that the subtypes often have distinct and sometimes even opposite roles. The role of ERs is specifically addressed in relation to breast, prostate and colon cancer and a concept of yin and yang has emerged; ERβ having anti-proliferative pro-differentiative effects. An anti-proliferative effect of LXRβ in colon has also been demonstrated. Our recent studies suggest that diseases of the CNS like Parkinson´s disease and ALS may involve a component of aberrant LXRβ signaling. LXRβ is indicated to play a protective role also in the prevention of bone diseases. We have now generated floxed ERα, ERβ, LXRα and LXRβ mice that will be used to knock out the receptors in selected tissues by using the Cre/LoxP system in order to further advance our understanding of these receptors. Jan-Åke Gustafsson +46 8 524 811 46 +1 713 409 6743 jan-ake.gustafsson@ki.se ki.se/bionut/gustafsson Selected publications Suzuki H, Barros RP, Sugiyama N, Krishnan V, Yaden BC, Kim HJ, Warner M, Gustafsson JA. (2012) Gustafsson, Involvement of estrogen receptor beta in maintenance of serotonergic neurons of the dorsal raphe. Mol. Psychiatry, Epub ahead of print. Dai Y.-B., Tan X.-J., Wu W.-F., Warner M. and Gustafsson J.-Å. (2012) MPTP hypersensitivity in Liver X Receptor beta knockout mice and neuroprotection of WT mice by Liver X Receptor agonist. Proc. Natl. Acad. Sci. 107:1311213117. Tan XJ, Dai YB, Wu WF, Kim HJ, Barros RP, Richardson TI, Yaden BC, Warner M, McKinzie DL, Krishnan V, Gustafsson JÅ. (2012) Reduction of dendritic spines and elevation of GABAergic signaling in the brains of mice treated with an estrogen receptor beta ligand. Proc. Natl. Acad. Sci. USA 109:1708-1712. Nilsson S, Koehler KF, Gustafsson JÅ. (2011) Development of subtype-selective oestrogen receptor based therapeutics. Nat. Rev. Drug Develop. 10:778-792. Thomas C, Gustafsson JÅ. (2011) The different roles of ER subtypes in cancer biology and therapy. Nature Reviews Cancer 11:597-608. Group members Maria Ekström Kejun Li Birgitta Lindqvist Robin Löving Kimmo Rantalainen Mathilda Sjöberg Michael Wallin Shang-Rung Wu 14 Group members Maturation and activation of the MLV spike. The spike is made as a precursor trimer, which matures by two cleavages. First furin cleaves the receptor binding SU subunit from the transmembrane TM with fusion activity and then, in newly made virus, the viral protease cleaves a peptide, the R-peptide, from the endodomain of TM. 3-D structures at 18 Å resolution are shown for the MLV spike in its precursor, mature and activated intermediate forms in side and top views. The protomeric unit of the trimer forms upper, middle and lower protrusions, where the upper represents the receptor binding domain (RBD) of SU, the middle the C-terminal domain of SU and the lower the TM subunit. It is shown how the lower TM protrusions are spread out by the maturation cleavage and how the spike activation opens a hole in the spike roof through relocation of the RBDs. This supports a model where the TM subunits must be released in order to refold into fusion active forms that can reach the target membrane through a hole in the spike roof. Christina AnderssonThulin Per Antonson Amena Archer Maria Bondesson Chiara Gabbi Lars-Arne Haldosén Karin Edvardsson Treska Hassan Patricia Humire José Inzunza Tomas Jakobsson Anna Klopot Marion Korach-André Karolina Lindberg Agneta Mode Yoko Omoto Kirsten Remen Knut Steffensen Lise-Lotte Vedin Margaret Warner AnneMarie Witte 15 Hans Hebert +46 8 524 810 93 hans.hebert@ki.se ki.se/bionut/hebert Selected publications Gustafsson JK, Ermund A, Ambort D, Johansson ME, Nilsson HE, Thorell K, Hebert H, Sjövall H, Hansson GC. (2012) Bicarbonate and functional CFTR channel are required for proper mucin secretion and link cystic fibrosis with its mucus phenotype. J Exp Med. 209:1263-72. Ambort D, Johansson ME, Gustafsson JK, Nilsson HE, Ermund A, Johansson BR, Koeck PJ, Hebert H, Hansson GC. (2012) Calcium and pH-dependent packing and release of the gelforming MUC2 mucin. Proc Natl Acad Sci U S A. 109:5645-50. Brismar TB, Grishenkov D, Gustafsson B, Härmark J, Barrefelt A, Kothapalli SV, Margheritelli S, Oddo L, Caidahl K, Hebert H, Paradossi G. (2012) Magnetite nanoparticles can be coupled to microbubbles to support multimodal imaging. Biomacromolecules. 13:1390-1399. Cryo electron microscopy of membrane proteins and biomolecular assemblies Structural studies of eggsperm interaction and human hedgehog signaling proteins Mucins are large glycoproteins that coat the surface of cells in the respiratory, digestive, and urogenital tracts. The first insights into the packing and secretion of intestinal MUC2 in molecular terms have now been obtained. Purified MUC2-N protein was analyzed by electron microscopy and image processing, suggesting how MUC2-N is packed in granulae of goblet cells. Dysregulation of the normal >1000fold expansion upon release could explain the extreme viscosity of the produced mucus seen in cystic fibrosis. Species-restricted recognition between egg and sperm at fertilization is one of the most crucial steps of development. However, despite decades of investigation, the molecular mechanism of this essential process remains unknown. Our group uses mammalian cell expression to overproduce in recombinant form the highly posttranslationally modified molecules that are involved in gamete interaction, for both biochemical and X-ray diffraction studies. During the last few years, we determined crystallographic structures of ZP3, a major glycoprotein component of the specialized extracellular coat of the egg that first contacts sperm at conception. This gave insights into the evolution of egg coat architecture from invertebrates to human, and suggested that a glycan conserved from birds to mammals plays an important role A refined atomic model of microsomal glutathione transferase 1 in a lipid bilayer environment has been determined using electron crystallography. It is shown that glutathione binds in a different conformation as compared to other proteins from the same superfamily. Information unique to the methodological approach shows interactions between lipids and protein. Furthermore, we have determined conformational changes occurring as a result of second substrate binding giving further insight into the catalytic mechanism. Key residues determining species differences in inhibitor binding of microsomal prostaglandin E synthase-1 have been identified. Structural studies of a putative potassium channel suggest a new arrangement the soluble domains regulating the conductance of K+-ions in these types of channels. The properties of polymer microbubbles, intended to be used for multimodal medical imaging, have been studied by electron microscopy both with regard to ultrastructure and distribution in different organs. in sperm binding. Ongoing projects aim at characterizing complexes between gamete recognition proteins, with possible future application to the understanding of human infertility and the design of targeted non-hormonal contraceptives. In parallel with our work on fertilization, we have a long term collaboration on human hedgehog signaling proteins with the group of Prof. Rune Toftgård. Recently we determined the structure of full-length tumor suppressor SUFU, a key regulator of the pathway in mammals. This led to the identification of a large regulatory region of the protein, whose interaction with the Gli family of transcription factors is currently being addressed. 16 Sutton, K. A., Jungnickel, M. K., Jovine, L. and Florman, H. M. (2012) Evolution of the voltage sensor domain of the voltage-sensitive phosphoinositide phosphatase VSP/TPTE suggests a role as a protein channel in eutherian mammals. Mol. Biol. Evol. 29:2147-2155. Jovine, L. (2011) X-ray of fertilization. Mol. Reprod. Dev. 78:1. Monné M, Jovine L. (2011) A structural view of egg coat architecture and function in fertilization Biol Reprod. 85:661-669. Swanson WJ, Aagaard JE, Vacquier VD, Monné M, Sadat Al Hosseini H, Jovine L. (2011) The molecular basis of sex: linking yeast to human Mol Biol Evol. 28:1963-1966. Group members Marcel Bokhove Amy Cherry Elisa Dioguardi Ling Han Kaoru Nishimura Hamed Sadat Al Hosseini Takako Saito Cheng, K., Ivanova, N., Scheres, S.H.W., Pavlov, M.Y., Carazo, J.M., Hebert, H., Ehrenberg, M. and Lindahl, M. (2010) tmRNA-SmpB complex mimics native aminoacyl-tRNAs in the A site of stalled ribosomes. J Struct Biol. 169:342-348. Martin Lindahl Harriet Nilsson Pasi Purhonen Rampradeep Samiappan Lin Zhu Selected publications Han L, Monné M, Okumura H, Schwend T, Cherry AL, Flot D, Matsuda T, Jovine L. (2010) Insights into egg coat assembly and egg-sperm interaction from the X-ray structure of fulllength ZP3. Cell 143:404-415. Pawelzik, S., Narasimha, R.U., Spahiu, L., Jegerschöld, C., Stenberg, P., Hebert, H., Morgenstern, R. and Jakobsson, P-J. (2010) Identification of key residues determining species differences in inhibitor binding of microsomal prostaglandin e synthase-1. J Biol Chem. 285:29254-61. Group members Kimberley Cheng Johan Härmark Caroline Jegerschöld Philip Koeck Qie Kuang Ramki Kumar Luca Jovine +46 701 497 014 luca.jovine@ki.se ki.se/bionut/jovine The membrane-bound detoxification enzyme microsomal glutathione transferase 1. The electron diffraction pattern was recorded from a two-dimensional crystal of the protein. The inset shows the corresponding 3D map at 3.5 Å resolution as reconstructed from a large number of such patterns obtained from a distribution of projection directions. The viewing direction is perpendicular to the plane of the membrane. Each triangular structure corresponds to one trimer of the protein having twelve transmembrane alpha helices. Crystal of ZP3, the conserved vertebrate egg coat protein that first binds sperm at the beginning of fertilization. 17 Maria Kasper +46 8 524 811 67 maria.kasper@ki.se ki.se/bionut/kasper Selected publications Kasper M, Jaks V, Hohl D and Toftgård R. (2012) Basal Cell Carcinoma – molecular biology and potential new therapies. J Clin Invest. 122(2):455-63. Sonkoly E, Lovén J, Xu N, Meisgen F, Wei T, Brodin P, Jaks V, Kasper M, Shimokawa T, Harada M, Heilborn J, Hedblad MA, Hippe A, Grandér D, Homey B, Zaphiropoulos P, Arsenian-Henriksson M, Ståhle1 M, Pivarcsi A. (2012) MicroRNA-203 Functions as a Tumor Suppressor in Basal Cell Carcinoma. Oncogenesis.1:e3. Kasper M, Jaks V, Are A, Bergström Å, Schwäger A, Barker N and Toftgård R. (2011) Wounding enhances epidermal tumorigenesis by recruiting hair follicle keratinocytes. Proc Natl Acad Sci USA. 108(10):4099-104. Stem cell dynamics in skin - from homeostasis to cancer Molecular genetics and biology of complex diseases Skin is an excellent tool to study the onset of cancer since the epidermis of the skin is one of the best-studied stem cell systems and cancer is believed to arise from deregulated stem cell populations. Epidermal stem cells are located in distinct niches of the hair follicle and the interfollicular epidermis and their respective progeny are restricted to defined areas. However, injuries like acute wounds disturb the balance of homeostasis and allow stem cell progeny to repopulate new areas. Cancer also disturbs - or needs a disturbed - homeostasis, thus it is not surprising that wound healing and cancer are closely related processes. Our group’s research focuses on the discovery of gene effects in complex human phenotypes, functional annotation of genes and characterization of gene networks in selected diseases. Three major projects involve the epigenetics and genetics of asthma and allergies (EpiGene project; Reinius & al. 2012, see selected publications), gene networks in dyslexia (Massinen & al. 2011, Tammimies & al. 2012), and human embryonal development from oocyte to implantation (unpublished). In addition, we have been characterizing the population structure of Sweden and Finland (Salmela & al. 2011). By using a wide range of techniques we are addressing three different, yet tightly linked key questions: 1. What is the cellular diversity of stem cells in epidermal homeostasis? 2. What roles do distinct stem cell niches and wound repair play in tumorigenesis? 3. What is (are) the molecular fingerprint(s) of newly transformed cancer-initiating cells? In summary, our aim is to unravel stem cell diversity and plasticity in adult tissue, and to reveal how wound repair and stem cell reprogramming influence the development of non-melanoma skin cancer, the most common cancer worldwide. We hope to find very basic mechanisms governing cancer initiation with potential for generalization to many types of cancer. Our group is interdisciplinary and includes members with solid background in genetics, biochemistry, molecular and cellular biology, biostatistics, bioinformatics, and model systems (mouse and zebrafish). We work in tight collaboration with clinical specialists and epidemiologists as well as leading experts on special methodologies, such as single-cell transcriptomics and brain imaging, and are involved in international consortia. We use modern genomics tools such as high-throughput sequencing for discovering gene variants and for gene expression profiling (RNAseq). We have tight collaboration with University of Helsinki where Prof. Kere visits part-time based on a specific contract. This group structure provides an excellent training environment for both post- and predoctoral scientists. Selected publications Tammimies K, et al. (2012) The molecular networks of the DYX1C1 gene show connection to neuronal migration genes and cytoskeletal proteins. Biol Psychiatry epub ahead of print. Reinius LE, et al. (2012) Differential DNA methylation in purified human blood cells: implications for cell lineage and studies on disease susceptibility. PLoS ONE. 7:e41361. Salmela E, et al. (2011) Swedish population substructure revealed by genome-wide single nucleotide polymorphism data. PLoS ONE 6:e16747. Massinen S, et al. (2011) Increased expression of the dyslexia candidate gene DCDC2 affects length and signaling of primary cilia in neurons. PLoS ONE 6:e20580. Snippert HJ, Haegebarth A, Kasper M, Jaks V, van Es JH, Barker N, van de Wetering M, van den Born M, Begthel H, Vries RG, Stange DE, Toftgård R, Clevers H. (2010) Lgr6 marks stem cells in the hair follicle that generate all cell lineages of the skin. Science 327(5971):1385-9. Anedda F, et al. (2011) Multiple polymorphisms affect expression and function of the Neuropeptide S Receptor (NPSR1). PLoS ONE 6:e29523. Jaks V, Kasper M and Toftgård R. (2010) The Hair Follicle – a Stem Cell Zoo. Exp Cell Res. 316(8):1422-8. Clonal expansion of individual Lgr5+ hair follicle stem cells marked by the expression of distinct fluorescent proteins. The stem cells were marked in the resting phase (telogen) and their progeny captured during the active growing phase (anagen) of the hair cycle. Group members Gayathri Chandrasekar Pauliina Damdidopoulou Elisabet Einarsdottir Ingegerd Fransson Dario Greco Hong Jiao Tiina M. Järvinen Shintaro Katayama Kaarel Krjutškov Elo Madissoon Hans Matsson Christina Orsmark-Pietras Helena Persson Illustration: Reinius & al. 2012. Group members Alexandra Are Anja Füllgrabe Simon Joost 18 Juha Kere +46 8 524 810 57 juha.kere@ki.se ki.se/bionut/kere Hanna Peterson Myriam Peyrard Lovisa E. Reinius Gustaf Rosin Tiina Skoog Cilla Söderhäll Kristiina Tammimies Isabel Tapia Paez Ettore Tiraboschi Virpi Töhönen Liselotte Vesterlund Jingwen Wang Differences in DNA methylation between different white blood cell types are large and have implications for whole-blood methylation analyses. Methylation profiles (as assayed by the Illumina 450K methylation arrays) from six donors cluster in principal component analysis by cell type rather than individual variation. 19 Marie Löf +46 8 524 810 95 +46 734 426 417 marie.lof@ki.se ki.se/bionut/lof Selected publications Lagerros YT, Sandin S, Bexelius C, Litton JE, Löf M. (2012) Estimating physical activity using a cell phone questionnaire sent by means of short message service (SMS): a randomized population-based study. Eur J Epidemiol. 27(7):561-6. Eriksson, Henriksson H, Löf M, Hannestad U, Forsum E. (2012) Body composition development during early childhood and energy expenditure in response to physical activity in 1.5-year-old children. Am J Clin Nutr. 96:567–73. Early-life factors important for childhood obesity: observational and interventional Analytical toxicology and clinical applications According to WHO, childhood obesity is one of the most serious public health challenges of the 21st century. The mechanisms underlying overweight and obesity in young children are largely unknown, but factors early in life, maybe already in utero may be important. In her research Marie studies early-life factors that may be important for the establishment of high body fatness. She is especially interested in interactions between physical activity and body fatness during the first years of life. She also develops and evaluates preventive strategies to counteract the development of overweight and obesity during early childhood. Her research involves observational as well as intervention studies. Nano-structures The research is directed towards human cells and clinical applications. In the Stockholm Particle Group network (KI, KTH, SU) the focus is on nano-structures towards drug delivery or as general exposure of ultrafine particles. Another area of Marie’s research concerns development and evaluation of methodology important for nutritional assessments. This work includes methodology to assess intake of foods and energy, physical activity and body composition. Recently this interest has primarily focused on the possibilities of using telecommunication technologies, such as mobile phones, to improve dietary and physical activity assessments in different populations. Part of this work involves the development and validation of a mobile phone questionnaire to assess physical activity levels appropriate for large-scale studies (see publications 1 and 2). Bexelius C, Sandin S, Trolle Lagerros Y, Litton JE, Löf M. (2011) Estimation of physical activity levels using cell phone questionnaires: a comparison with accelerometry for evaluation of between-subject and within-subject variations. J Med Internet Res. 13:e70. Löf M. (2011) Physical activity pattern and activity energy expenditure in healthy pregnant and non-pregnant Swedish women. Eur J Clin Nutr. 65:1295-301. A unique artificial lung is constructed were nano-structures can be generated and transported in a way that a mono-layer of human lung cells will be exposed. The mechanisms, interaction with DNA (lesions) and oxidation (ageing) of DNA are then investigated in vitro under relevant human conditions. Antioxidants Other components that can damage DNA are antioxidants, for instance vitamins, that easily can shift to act as oxidants. Vitamins A and C can at physiological levels oxidize DNA. This effect can be increased if “minerals” are present. Minerals are often metals that can catalyze oxidative processes. Interestingly, the scientific literature report negative effects (increase of cancer and mortality) of vitamin supplementations in western populations. The best way to take vitamins and antioxidants is to eat fruit and vegetables, then it is impossible to over dose. Further, the artificial antioxidants like vitamin E is one component. In fruit and vegetables there is a mixture of eight varieties of vitamin E. That difference make a difference. Clinical studies Several diseases have oxidative processes as a key issue and therefore the in vitro data can be applied to animal studies and/or clinical situations. Clinical studies are performed to investigate interactions, optimization of clinical treatments and reduction of oxidative symptoms. Drug developments are ongoing regarding transplantation, prostate disease and inflammatory diseases. Further, clinical studies are investigated by the Comet Assay (50-100 cells are enough) and are applied to kidney disease, environmetal exposure and other relevant clinical situations. Eriksson B, Löf M, Forsum E. (2010) Body composition in full-term healthy infants measured with air displacement plethysmography at 1 and 12 weeks of age. Acta Paediatr. 99: 563-8. Selected publications Cronholm P, Midander K, Karlsson H, Elihn K, Odnewall Wallinder I, Möller L (2011) Effect of sonication and serum proteins on copper release from copper nanoparticles and the toxicity towards lung epithelial cells. Nanotoxicology, 5, 269-281. Ersson C, Odar-Cederlöf I, Fehrman-Ekholm I, Möller L. (2012) The effects of hemodialysis treatment on the level of DNA strand breaks and oxidative DNA lesions measured by the comet assay. Hemodialysis International, Epub ahead of print. Shi J, Hedberg Y, Lundin M, Odnevall Wallinder I, Karlsson HL, Möller L. (2012) Hemolytic properties of synthetic nano- and porous silica particles: The effect of surface properties and the protection by the plasma corona. Acta Biomaterialia 8:3478–3490. Bergström T, Ersson C, Bergman J and Möller L. (2012) Vitamins at physiological levels cause oxidation to the DNA nucleoside deoxyguanosine and to DNA—alone or in synergism with metals. Mutagenesis 27(4):511–517. Elihn K, Cronholm P, Karlsson HL, Midander K, Odnevall Wallinder I and Möller L. (2012) Cellular Dose of Partly Soluble Cu Particle Aerosols at the Air–Liquid Interface Using an In Vitro Lung Cell Exposure System. Journal of Aerosol Medicine and Pulmunary Drug Delivery, epub ahead of print. Group members Eva Flinke Carlsson Hanna Henriksson Pontus Henriksson Caroline Törnqvist Measurement of body fatness using the pediatric option for BodPod. 20 Lennart Möller +46 8 524 810 75 lennart.moller@ki.se ki.se/bionut/moller A nano-particle cluster (red) that has moved all the way into the nucleus (blue) of a cell where it hits DNA (oxidation, aging of DNA, or DNA strand breaks). There are only a few papers in the literature that have been able to visualize nano-structures reaching the cell nucleus. Group members Pontus Cronholm Karine Ehlin Clara Ersson Johanna Kain Hanna Karlsson Siiri Lavatola Staffan Larsson Ylva Rodhe Jingwen Shi Therese Woodhill Hanna Zandén Rickard Åsgård 21 Simulating the behavior of proteins and nucleic acids Lennart Nilsson +46 8 524 810 99 lennart.nilsson@ki.se ki.se/bionut/nilsson Selected publications Allnér O, Nilsson L, Villa A. (2012) Magnesium Ion–Water Coordination and Exchange in Biomolecular Simulations. Journal of Chemical Theory and Computation. Foloppe N, Vlamis-Gardikas A, Nilsson L. (2012) The -Cys-X1-X2-Cys-Motif of Reduced Glutaredoxins Adopts a Consensus Structure That Explains the Low pKa of Its Catalytic Cysteine. Biochemistry 51(41):8189-8207. Ito M, Johansson J, Strömberg R, Nilsson L. (2011) Unfolding of the Amyloid-Peptide Central Helix: Mechanistic Insights from Molecular Dynamics Simulations. PLoS ONE 6(3):e17587. Molecular dynamics simulations of the tRNA anticodon and mRNA codon, inside the ribosome 30S subunit, show that the common tRNA modifications cmo5U34 and m6A37 in tRNAVal, which allow all four nucleotides to be successfully read at the wobble position in a codon, may work through two mechanisms: The further reach of the cmo5U34 modification allows an alternative conformation to be formed for the noncognate base pairs, and increased contacts between tRNA, mRNA, and the ribosome. One intricate issue that requires much attention is the corretct handling, and placement of Mg2+ ions. Polymerization of the amyloid β-peptide (Ab) requires the helical structure of Ab to unfold. The effects of two ligands, which were designed to bind to and stabilize the helix, on unfolding of the Ab central helix were investigated by MD simulations.We quantitatively showed that both ligands increase the stability of the Ab helix, which correlates well with previous experiments for these ligands. The dissociation mechanism of thioredoxin (Trx) mixed disulfide complexes is unknown We studied mixed disulfide dissociation in arsenate reductase using theoretical reactivity analysis, molecular dynamics simulations, and biochemical complex formation experiments with Cys-mutants. This lead to a universal thiol/disulfide exchange reaction mechanism that results in reduced substrate and oxidized Trx. Denning EJ, Priyakumar UD, Nilsson L, Mackerell AD. (2011) Impact of 2'-hydroxyl sampling on the conformational properties of RNA: Update of the CHARMM all-atom additive force field for RNA. Journal of Computational Chemistry 32(9):1929-1943. Effects of glucocorticoids and estrogens on cells and functions of the immune system Hormonal effects on the immune system are more or less well known. An example of the former is the anti-inflammatory activity of glucocorticoids (GCs), although still not all molecular details have been elucidated. A less known topic is the role and regulation of the de novo synthesis of GCs locally in the thymus, were it seems to have a paracrine role regulating thymocyte homeostasis and T cell development. Less established is also the effect of estrogens on cells of the immune system and particularly on tumors originating from lymphoid cells. The research projects of the group aim to elucidate molecular mechanisms that are involved in regulating physiological GC and estrogen effects on the immune system. Two main areas are studied: 1. Role and regulation of GCs locally produced in the thymus for T cell development and function. We and others have demonstrated a de novo synthesis of GCs in several extra-adrenal tissues including the thymus, intestinal epithelium and the skin were the local synthesis seems to play an important role for cell development or local defense (1). We are particularly inte- Allnér O, Nilsson L. (2011) Nucleotide modifications and tRNA anticodon–mRNA codon interactions on the ribosome. RNA 17:2177-2188. rested in the role and regulation of GCs locally produced in the thymus for T cell development and function (2,3). Furthermore, we are interested in signaling pathways and cross-talk mechanisms involved in the anti-inflammatory action of GCs. A main mechanism for the antiinflammatory action of GCs is the cross-talk between GC signaling and the NF-κB signaling pathway. We perform studies to further understand the mechanisms in this cross-talk (4). 2. Understanding the antiproliferative and tumor inhibiting effects of estrogen receptor β (ERβ) agonists on malignancies of lymphoid origin. Lymphomas are generally not considered as endocrine related diseases. However, epidemiological data clearly demonstrate a gender difference in incidence and prognosis and a possible impact of estrogens. We have demonstrated that several murine or human lymphomas do express ERβ and are highly sensitive to ERβ agonists that cause an inhibition of tumor growth in vivo (see figure and ref. 5). Using various techniques (xenograph and cell experiments, gene expression studies) we are studying the molecular mechanism responsible for this tumor inhibiting effect by ERβ agonists. Group members Olof Allnér Mauricio Esguerra Mikael Gillner Katarina Hart Mika Ito Alok Juneja Andrey Karshikoff Grzegorz Raszewski Alessandra Villa You Xu Selected publications Chen, Y., Qiao, S, Tuckerman, J., Okret, S. and Jondal M. (2012) Thymus-derived glucocorticoids mediate androgen effects on thymocyte homeostasis FASEB J. 24:5043-5051. Moors, M., Bose, R., Johansson-Haque, K., Tofiqhi, R., Okret, S. and Ceccatelli, S. (2012) Dickkopf 1 mediates glucocorticoid-induced changes in human neural progenitor cells proliferation and differentiation. Toxic. Sci. 125, 488-495. Yakimchuk K, Nandakumar KS, Chen L, Holmdahl R, Okret S and Jondal M. (2012) Keratinocyte growth factor (KGF) delays the onset of collagen-induced arthritis. Autoimmunity, 45, 510-515. Yakimchuk, K., Iravani, M., Sharif Hasni, M., Rhönnstad, P., Nilsson, S., Jondal, M. and Okret, S. (2011) Effect of ligand-activated estrogen receptor on lymphoma growth in vitro and in vivo. Leukemia 25:1103-1110. Group members Jiyu Guan Anna Ingemarsdotter Krishan Johansson Haque Elanchelian Palanichamy Mohammad Sharif Hasni Konstantin Yakimchuk Consensus structure of the -Cys-X1-X2-Cys- active site motif in glutaredoxins. 22 Sam Okret +46 8 524 810 69 sam.okret@ki.se ki.se/bionut/okret Immunocompromised mice were injected with human lymphoma cells and treated with subcutaneous injections of the ERβ agonist DPN. 23 Joseph Rafter +46 8 524 83 545 +46 762 133 690 joseph.rafter@ki.se ki.se/bionut/rafter Selected publications Al-Asmakh M, Anuar F, Zadjali F, Rafter J, Pettersson S. (2012) Gut microbial communities modulating brain development and function. Gut Microbes 3: 366-73. L. Renee Ruhaak, J. Felth, PC. Karlsson, J. Rafter, R. Verpoorte, L. Bohlin. (2011) Evaluation of the cyclooxygenase inhibiting effects of six major cannabinoids isolated from Cannabis sativa. Biol. Pharm. Bull. 34: 774-778. L. Aronsson, Y. Huang, P. Parini, M. Korach-Andre, J-Å. Gustafsson, S. Pettersson, V. Arulampalam, J. (2010) Rafter, Decreased Fat Storage by Lactobacillus Paracasei is Associated with Increased Levels of Angiopoietin-Like 4 Protein (ANGPTL4). PLoS ONE 5:e13087. Host – microbe interactions Childhood factors and cardiovascular health The human gut is colonized by billions of commensal microbes, which constitute a complex and diverse community collectively known as the gut microbiota. These microbes communicate with each other and the host (both locally and systemically) through mechanisms not fully understood. The microbiota exert positive physiological and nutritional effects, and alterations in its composition are associated with human conditions such as inflammatory bowel disease, colon cancer and metabolic diseases. Recently, it is becoming obvious that the microbiota are also involved in the maintenance of a ‘good health’. The goal of the unit for Preventive Nutrition is to contribute to the design of more successful programs for prevention of cardiovascular disease. One of the interests of our work is to develop biomarkers that can assess this latter effect. We are also interested in identifying mole- cular targets in host tissues, relevant to the above conditions, which are regulated by the microbiota. Examples of such targets to date include nuclear receptors involved in inflammation and metabolism and fasting-induced adipose factor (FIAF), a lipoprotein lipase inhibitor, important in fat storage regulation. Therapeutic strategies must then be considered, where modifications in the gut microbiota may be introduced via pharmacological or dietary changes, in order to restore “normal” intestinal flora and human wellbeing. Thus, a major focus of our work is attempting to modify identified/ relevant gut-regulated targets through modifying the diet with e.g. probiotic bacteria. The objectives are: • To deliver basic data on key early childhood lifestyle and circumstantial factors, the importance of physical activity and fitness and gender differences. • To analyze whether lifestyle factors at childhood and adolescence predict later cardiovascular risk. • To study associations of changes in lifestyle factors with changes in later cardiovascular disease. • To determine whether the associations between genetic variations and cardiovascular disease phenotypes are modified by changes in lifestyle, i.e. gene-lifestyle interactions. Rabot S, Rafter J, Rijkers GT, Watzl B, Antoine JM. (2010) Guidance for substantiating the evidence for beneficial effects of probiotics: impact of probiotics on digestive system metabolism. J Nutr. 140: 677S-89S. During 2010 and 2012 we first focused on the cross-sectional associations between lifestyle factors and cardiovascular disease factors in young people and then on longitudinal associations between lifestyle in childhood and adolescence and future cardiovascular disease risk. Life-style gene interactions and intergenerational epigenetically indicated inheritances were also reported. We used our own large scale cross-sectional, longitudinal and pedigree epidemiological data. Early fitness is associated with low adolescent overweight and change in fitness still more so. Insulin sensitivity at childhood predicts total and central adiposity gain in adolescence. An active lifestyle attenuates the effect of low birth weight on adolescent insulin resistance, leptin levels, obesity and interacts with the obesity related FTO gene. Availability of food in sensitive childhood periods influences descendants´ cardiovascular health. The findings should foster prevention programs that start early in the atherosclerosis process. • To study intergenerational responses to early life nutrition indicative of nonsequential inheritance. Rijkers GT, Bengmark S, Enck P, Haller D, Herz U, Kalliomaki M, Kudo S, Lenoir-Wijnkoop I, Mercenier A, Myllyluoma E, Rabot S, Rafter J, Szajewska H, Watzl B, Wells J, Wolvers D, Antoine JM. (2010) Guidance for substantiating the evidence for beneficial effects of probiotics: current status and recommendations for future research. J Nutr. 140: 671S-6S. Selected publications Ortega FB,Ruiz JR, Hurtig-Wennlöf A, Meirhaeghe A, González-Gross M, Moreno L, Molnar D, Kafatos A, Gottrand F, Widhalm K, Labayen I, Sjöström M (2011) Physical activity attenuates the effect of low birth weight on insulin resistance in adolescents Findings from two observational studies. Diabetes 60: 2295-2299. Labayen I, Ruiz JR, Ortega FB, Loit HM, Harro J, Villa I, Veidebaum T, Sjostrom M (2012) Exclusive breastfeeding duration and cardiorespiratory fitness in children and adolescents. Am J Clin Nutr. 95: 498-505. Ortega FB, Silventoinen K, Tynelius P, Rasmussen F. (2012) Muscular strength in male adolescents and premature deathCohort study of one million participants. BMJ. 04.345:e7279. Nilsson TK, Yngve A, Böttiger AK, HurtigWennlöf A, Sjöström M. (2011) High folate intake is related to better academic achievement in Swedish adolescents. Pediatrics;128: 358365. Group members Lars Olov Bygren Charlotte Goodrose-Flores Lena Hallström Gunnar Kaati Lydia Kwak Idia Labayen Pekka Oja Fransisco Ortega Nico Rizzo Jonatan Ruiz Ruiz Petter Tinghög Group members Rossana D'Arienzo Gut microbiota influence host physiology through local and systemic effects. 24 Michael Sjöström +46 8 524 810 43 michael.sjostrom@ki.se ki.se/bionut/sjostrom An illustration of the independent data in the studies of transgenerational responses to availability of food, that have indicated that epigenetic intergenerational inheritance might influence cardiovascular health. 25 Dan Segerbäck +46 8 585 837 79 dan.segerback@ki.se ki.se/bionut/segerback Selected publications Pedersen M, et al. (2012) Head Circumference, and Prenatal Exposure to Acrylamide from Maternal Diet: The European Prospective Mother-Child Study (NewGeneris). Environ Health Perspect. 120:1739-45. Liljendahl TS, Kotova N, Segerbäck D. (2012) Quantification of ultraviolet radiationinduced DNA damage in the urine of Swedish adults and children following exposure to sunlight. Biomarkers. 17:634-41. Singh R, Gromadzinska J, Mistry Y, Cordell R, Juren T, Segerbäck D, Farmer PB. (2012) Detection of acetaldehyde derived N(2)ethyl-2'-deoxyguanosine in human leukocyte DNA following alcohol consumption. Mutat Res. 737:8-11. Kotova N, Jurén T, Myöhänen K, Cornelius M, Abramsson-Zetterberg L, Backman J, Menzel U, Rydberg P, Kronberg L, Vähäkangas K, Segerbäck D. (2011) ³²P-HPLC analysis of N1-(2-carboxy-2-hydroxyethyl) deoxyadenosine: a DNA adduct of the acrylamide-derived epoxide glycidamide. Toxicol Lett. 207:18-24. Monitoring human exposure to ultraviolet radiation Nucleic acids and peptides in biotechnology and therapy The work on UV has been focused on the analysis of thymidine dimer (T=T) in urine within the EU project ICEPURE. Quantification of T=T in urine samples collected before and after various outdoor activities showed that high levels were formed when spending one week at the island Tenerife, but not when skiing during one week in the Alps (limited skin exposure during such activities). In another setting people were experimentally exposed to full body UV radiation and skin biopsies and urine samples collected at different time points after exposure. The analyses of T=T showed that there was a correlation between T=T in the urine and in the skin and that morning urine samples well reflected T=T levels in 24 h urine samples. In other UV-related projects we have shown that there was no difference in urinary Oligonucleotide Based Artificial Nucleases and PNAzymes. Artificial enzymes are developed, including PNAzymes that are world leading artificial ribonucleases and the first truly artificial RNA restriction enzymes. These tailor-made RNases, are usable tools for molecular biology and is currently developed further to obtain a cleavage rate that may allow use in therapy. T=T levels between children and adults after spending 1-2 days on a beach in summer time Stockholm and that the amount of T=T was correlated to the UV dose. We also demonstrated that very high levels of T=T can be detected in lifeguards working on a beach in southern Sweden and that some kind of steady-state level is reached after longer exposures. For the work on chemical exposures within the EU projects ECNIS and NewGeneris we have participated in the analysis of DNA adducts of acetaldehyde in people drinking alcohol and in a large human study in which it was showed that high levels of hemoglobin adducts of acrylamide in fetal blood was associated with a reduced birth weight. Stabilised, Cell Penetrating and Target Seeking Oligonucleotides for Enhanced Therapy. A novel approach based on a synthetic 2,2,7-trimethylguanosine Cap (m3G-Cap) NLS and oligonucleotides (ONs) with an incorporated m3G-Cap gave enhanced splice correction. Modified m3G-CAP’s that are more resistant to degradation is now pursued. Another development is cell penetrating oligonucleotides (CPO) that are taken up spontaneously and also are highly resistant towards enzymatic degradation, which suggest high potential for use in ON therapy. Further developments includes designed nano-constructs that contain elements of recognition (ON), tissue targeting (e.g. homing peptides), cell permeation elements (CPO etc) and nuclear delivery signals. Helix Stabilisers that Inhibit Aβ-Peptide Aggregation – A New Concept for Potential Treatment/Prevention of Alzheimers Disease. We have developed ligands that stabilise the Aβ peptide in the native helical conformation. These prevent Aβ induced reduction in hippocampal γ-oscillations (that is connected to cognition and learning and reduced in patients with AD) and oral administration of ligands increase longevity and decrease locomotor dysfunction in a Drosophila model of AD. As the approach holds promise for treatment of AD we are developing improved ligands. Treatment of infections through substances that induce our own defense against microbes. Another goal is treatment of infections, in particular by multiresistant bacteria, through induction of body-own antimicrobial peptides. Developed inducers give increased levels of antimicrobial peptides both in the intestine and respiratory tract. Treated animals get complete recovery from shigellosis and a clinical trial for treatment of TB has been initiated. Roger Strömberg +46 8 585 810 24 roger.stromberg@ki.se ki.se/bionut/stromberg Selected publications Honcharenko M., Romanowska J., Alvira M., Jezowska M., Kjellgren M., C. I. Edvard Smith C. I. E. and Strömberg R. (2012) Capping of Oligonucleotides with “Clickable” m3G-CAPs. RSC Advances 2:12949-12962. Murtola M, Wenska, M., Strömberg R. (2010) PNAzymes that are artificial RNA restriction enzymes. J. Am. Chem Soc. 132:8984–8990. Wenska M, Steunenberg, P, Stenberg Å, Murtola, M and Strömberg R. (2011) An Activated Triple Bond Linker Enables “Click” Attachment of Peptides to Oligonucleotides. Nucl. Acids Res. 39:9047-9059. Sarker, P, Ahmed, S, Tias, S, Rekha, R.S, Strömberg, R, Andersson, J Bergman, P, Gudmundsson, G.H, Agerberth, B & Raqib R. (2011) Shigella mediated downregulation of cathelicidin in lung and colon epithelia is counteracted by Phenylbutyrate: implication for a potential therapeutic strategy. PLoS One, 6:e20637. Milton S, Ander C, Yeheskiely E and Strömberg R. (2012) Stability of a 2’-O-(carbamoylmethyl) adenosine containing dinucleotide. Eur. J. Org. Chem, 539-543. Group members Alice Ghidini Dmytro Honcharenko Malgorza Honcharenko Martina Jezowska Jyotirmoy Maity Stefan Milton Merita Murtola Håkan Ottosson Jessica Sandbrink von Stedingk H, Vikström AC, Rydberg P, Pedersen M, Nielsen JK, Segerbäck D, Knudsen LE, Törnqvist M. (2011) Analysis of hemoglobin adducts from acrylamide, glycidamide, and ethylene oxide in paired mother/cord blood samples from Denmark. Chem Res Toxicol. 24:1957-65. Group members Tina Jurén Annette Landström Bobby Li Tove Sandberg Confocal microscopy of U2OS-cells treated with fluorescein-labeled (green color), non-modified ONs (left panel) or with CPO-modified ONs (right panel). 26 27 Cell biology of cancer Staffan Strömblad +46 8 524 811 22 staffan.stromblad@ki.se ki.se/bionut/stromblad Selected publications Smith, S., Enge, M., Bao., W., Thullberg, M., Costa, T.D.F, Gashi, B., Selivanova, G., and Strömblad, S. (2012) PKCa regulates localization and melanoma cell survival downstream of integrin alphaV in 3D collagen. J Biol Chem 287:29336-47. Li, Z, Lock, J., Olofsson, H., Kowalewski JM, Teller, S, Liu, Y., Zhang, H., & Strömblad, S. (2010) Integrin-mediated cell attachment induces a PAK4-dependent feedback loop regulating cell adhesion through modified integrin αvβ5 clustering and turn-over. Mol Biol Cell 21:317-29. We aim to improve the fundamental understanding on how cancer develops and progresses. Our focus is cancer cell migration, a process critical to cancer cell dissemination by metastasis, the main lethality factor of cancer. To better understand cancer cell migration, we are using a systems microscopy approach, where live cell microscopy of migrating cancer cells is combined with mathematical analyses and modeling. With the help of transgenic mice, we are also investigating how p21-activated kinase 4 affects cancer development and From the basic biology of cilia to ciliopathy disease states in humans progression, and we are also examining how the microenvironment's extracellular matrix influences the same processes. We perform a large number of national and international collaborations and actively participate in different networks, including the European Union-FP7-Systems Microscopy Network of Excellence and Karolinska Institutet’s Breast Cancer Theme Center (BRECT). Staffan Strömblad is the Coordinator and Vice director, respectively, for these two networks. Plantard L., Arjonen A., Lock JG., Nurani G., Ivaska J., & Strömblad, S. (2010) PtdIns(3,4,5)P3 is a regulator of Myosin-X localization and filopodia formation. J Cell Sci. 123:3525-3534. Li Z, Zhang H, Lundin L, Thullberg M, Liu Y, Wang Y, Claesson-Welsh L, & Strömblad S. (2010) p21-activated kinase 4 phosphorylation of integrin {beta}5 Ser 759 and Ser 762 regulates cell migration. J Biol Chem. 285:2369923710. Group members Zhangewen An Ulrich Berge Marianne van Dijk Tania Fernandes Costa Xiaowei Gong Sara Göransson Pablo Hernadez Varas Gabriela Imreh Mehrdad Jafari Mamaghani Ammad Khan 28 Alexa Kiss Jacob Kowalewski Zhilun Li John Lock Helene Olofsson Andrew Paterson Hamdah Shafqat Stephen Smith Miao Zhao Ting Zhuang We have carried out searches for X-box promoter motifs in several animal genomes (C. elegans, Drosophila, mouse and humans) and have successfully identified direct RFX TF target genes, many of which we confirmed to be involved in ciliogenesis by using various assays in transgenic C. elegans worms and in transfected mammalian cell lines. Accordingly we were able to assign some of these ciliary genes – upon malfunction – to being at the root of a human disease class termed ciliopathies. We are working on cell biological aspects of human brain-related, suspected ciliopathies. We are also trying to tie together the different biological functions (in ciliogenesis) of direct RFX TF target genes by cross-comparing a large number of candidate X-box regulated genes in a variety of different genomes. With these approaches we will be able to track the RFX TF target gene module from basic biological function to disease states in humans. Selected publications Burghoorn J, Piasecki BP, Crona F, Phirke P, Jeppsson KE, Swoboda P. (2012) The in vivo dissection of direct RFX-target gene promoters in C. elegans reveals a novel cis-regulatory element, the C-box. Dev Biol. 368(2):415-26. O'Hagan R, Piasecki BP, Silva M, Phirke P, Nguyen KC, Hall DH, Swoboda P, Barr MM. (2011) The tubulin deglutamylase CCPP-1 regulates the function and stability of sensory cilia in C. elegans. Curr Biol. 21(20):1685-94. Massinen S, Hokkanen ME, Matsson H, Tammimies K, Tapia-Páez I, Dahlström-Heuser V, Kuja-Panula J, Burghoorn J, Jeppsson KE, Swoboda P, Peyrard-Janvid M, Toftgård R, Castrén E, Kere J. (2011) Increased expression of the dyslexia candidate gene DCDC2 affects length and signaling of primary cilia in neurons. PLoS One. 6(6):e20580. Ezcurra M, Tanizawa Y, Swoboda P, Schafer WR. (2011) Food sensitizes C. elegans avoidance behaviours through acute dopamine signalling. EMBO J. 30(6):1110-22. Images: Pablo Hernández- Varas. Siu, M.K.Y., Chan, H-Y., Wong, E.S.Y., Kong, D.S.H., Woo, N.W.S.,Tam, K.F., Chan, Q.K.Y., Ngan, H.Y.S., Zhang, H., Tsao, G.S.W., Strömblad, S., Cheung, A.N.Y. (2010) p21-activated kinase 4 regulates c-Src, ERK1/2 and MMP2 and contributes to ovarian cancer progression and prognosis. Proc Natl Acad Sci USA 107:18622-18627. Evolutionarily RFX transcription factors (TFs) are present only in the unikonts: animals, fungi, choanozoa and amoebozoa. RFX TFs have a unique DNA binding domain with which they bind to the X-box promoter motif (RFX = Regulatory Factor binding to the X-box). Thereby they directly regulate their target genes. In fungi RFX TFs regulate genes involved in cell cycle control, while in animals RFX TFs regulate genes involved in the immune response and in cilia formation and development. Peter Swoboda +46 8 585 837 34 peter.swoboda@ki.se ki.se/bionut/swoboda Quantification of tension in cell-matrix adhesion complexes in living cancer cells. By use of a Biosensor FRET probe, we quantify the tension applied to Vinculin in cell-matrix adhesion complexes (arrows). Color coding shows the FRET ratio efficiency indicating high (blue) to low (red) tension. The images show the leading edge of a migrating H1299 human non-small lung cancer cell at two different time points, 15 min apart, where the tension in the adhesion complexes has changed over time together with morphological alterations of the cell-matrix adhesion complexes. By use of quantitative image-derived data, multivariate statistics and mathematical modeling, in this project we are elucidating the causal relationships between intra-adhesion tension and adhesion complex dynamics, and how this in turn may affect cancer cell migration. The images were produced by a Nikon A1R confocal microscope using a 60X oil objective (N/A = 1.42), followed by image processing including intensity thresholding. Size bar (red) = 5 micrometers. Piasecki BP, Burghoorn J, Swoboda P. (2010) Regulatory Factor X (RFX)-mediated transcriptional rewiring of ciliary genes in animals. Proc Natl Acad Sci U S A. 107(29):12969-74. The head of the worm C. elegans is shown. Two bilaterally symmetrical “salt-tasting” sensory neurons are marked with GFP. Through cell-specific genetic rescue experiments the neuron at the top has regained a fully functional sensory cilium (arrowhead) and thus is able to “taste” salt (cf. calcium imaging trace at the left). The neuron at the bottom remains mutant for cilium development and thus is not able to “taste” salt (cf. calcium imaging trace at the left). Group members Anastasia Emmanouilidou Karin Fürtenbach Juan Carlos FierroGonzalez Ida Klang Gilbert Lauter Junho Lee Prasad Phirke 29 Systems biology group Jussi Taipale +46 8 585 868 95 jussi.taipale@ki.se ki.se/bionut/taipale Selected publications Wei GH, Badis G, Berger MF, Kivioja T, Palin K, Enge M, Bonke M, Jolma A, Varjosalo M, Gehrke AR, Yan J, Talukder S, Turunen M, Taipale M, Stunnenberg HG, Ukkonen E, Hughes TR, Bulyk ML, Taipale J. (2010) Genome-wide analysis of ETS-family DNA-binding in vitro and in vivo. EMBO J. 29(13):2147-60. Sur, I., Hallikas, O., Vähärautio, A., Yan, J., Turunen, M., Enge, M., Taipale, M., Karhu, A., Aaltonen, L. A., and Taipale, J. Mice. (2012) Lacking a Myc Enhancer Element that Includes Human SNP rs6983267 Are Resistant to Intestinal Tumors. Science, 338:1360-3. Kivioja, T., Vähärautio, A., Karlsson, K., Bonke, M., Enge, M., Linnarsson, S., and Taipale, J. (2012) Counting absolute number of molecules using unique molecular identifiers. Nature Methods, Advanced Online Publication 9:72-4. Group members Sandra Augsten Kashyap Dave Martin Enge Lijuan Hu Emma Inns Arttu Jolma Åsa Kolterud Jianping Liu Reading the genome We are interested in understanding how DNA sequence determines where and when genes are expressed. For this purpose, we have carried out analysis of in vitro binding specifies of transcription factors (TFs) and now have a collection of binding specificity models for the majority of all human TFs. We will proceed to use this information to identify gene regulatory elements that control cell growth during normal development and cancer. Counting molecules In addition, to make analysis of gene expression more accurate, we have developed tools for analysis of RNA levels in cells. We developed together with Sten Linnarson lab a universal method that can be applied to counting the absolute number of molecules in a sample. Application to cancer We have identified earlier a gene regulatory element that is located upstream of the Myc oncogene. This element contains a SNP that accounts for more human cancer-related morbidity than any other genetic variant or mutation. To characterize this potential regulatory element, we generated mice deficient in it. The mutant mice displayed no overt phenotype but were resistant to intestinal tumorigenesis induced by the APCmin mutation highlighting the fact that although a disease-associated polymorphism typically has a relatively modest effect, the element that it affects can be critically important for the underlying pathological process. Inappropriate reactivation of developmental signalling pathways such as the Hedgehog (Hh) pathway is a common event during cancer development. Mutational inactivation or activation of core components of the Hh-pathway underlies cell autonomous activation in basal cell carcinoma of the skin (BCC) and in medulloblastoma. In other tumour types such as pancreatic cancer and breast cancer additional activation mechanisms are present. A major focus of our research is to understand the details of Hh signalling at the genetic, molecular and structural level with emphasis on the key intracellular SUFU and GLI components. Secondly, to understand how aberrant activation of this pathway can drive cancer development in skin, mammary gland and pancreas combining studies of genetically modified preclinical models and of human tissues. Thirdly, to devise new methods aimed at pharmacological inhibition of the Hh signalling pathway at the level of the GLI transcriptional effectors building on our detailed biological and molecular studies of the pathway. To understand cancer biology and how to best eradicate tumour cells we must know the biology of normal tissues including the nature of tissue stem and progenitor cells, their interconversions and their ability to serve as cancer cell of origin. With this aim we investigate the presence and functional properties of tissue stem cells marked by expression of Lgr5 and Lgr6 in human and murine skin and mammary gland. Rune Toftgård +46 8 524 810 53 rune.toftgard@ki.se ki.se/bionut/toftgard Selected publications Kasper M, Jaks V, Hohl D, Toftgård R. (2012) Basal cell carcinoma - molecular biology and potential new therapies. J Clin Invest. 122(2):455-63. Kasper M, Jaks V, Are A, Bergström Å, Schwäger A, Svärd J, Teglund S, Barker N, Toftgård R. (2011) Wounding enhances epidermal tumorigenesis by recruiting hair follicle keratinocytes. Proc Natl Acad Sci U S A. 108(10):4099104. Snippert HJ, Haegebarth A, Kasper M, Jaks V, van Es JH, Barker N, van de Wetering M, van den Born M, Begthel H, Vries RG, Stange DE, Toftgård R, Clevers H. (2010) Lgr6 marks stem cells in the hair follicle that generate all cell lineages of the skin. Science. 327(5971):1385-9. Lauth M, Bergström A, Shimokawa T, Tostar U, Jin Q, Fendrich V, Guerra C, Barbacid M, Toftgård R. (2010) DYRK1B-dependent autocrineto-paracrine shift of Hedgehog signaling by mutant RAS. Nat Struct Mol Biol. 17(6):71825. Ekaterina Morgunova Kazuhiro Nitta Bernhard Schmierer Inderpreet Sur Minna Taipale Thomas Whitington Jian Yan Anna Zetterlund Teglund S, Toftgård R. (2010) Hedgehog beyond medulloblastoma and basal cell carcinoma. Biochim Biophys Acta. 1805(2):181-208. Network representation describing similarity of nuclear receptor DNA-binding specificities. Diamonds indicate TF genes. Binding models derived from human full length TFs (large circles), DBDs (small circles) and mouse DBDs (triangles) are also shown. Edges are drawn between a TF and corresponding models, and between two models if they are similar. Computationally chosen representative models are indicated by blue outline, and the representative model sequence logos are also shown. Most of the nuclear receptors bind DNA as homodimers and different proteins vary both in the terms of the half-site sequence specificity and allowed half site spacings and orientations. 30 Hedgehog signalling, tissue stem cells and cancer development Picture of a part of a human hair follicle illustrating expression of the tissue stem cell markers SOX9 (red) and LGR5 (green) in the outer root sheath keratinocytes. Positive staining for LGR5 is also seen in sebocytes. Nuclei are counterstained in blue. Group members Agneta Andersson Åsa Bergström Leander Blaas Yumei Diao Mohammed Ferdous-Ur Rahman Csaba Finta Marco Gerling Karin Heby Henriksson Maria Hölzl Viljar Jaks Åsa Jansson Biljana Jovanovic Jens Henrik Norum Uta Rabenhorst Fabian Schneider Stephan Teglund Elin Tüksammel Victoria Villegas Peter Zaphiropoulos 31 Eckardt Treuter +46 8 524 810 60 eckardt.treuter@ki.se ki.se/bionut/treuter Selected publications Toubal, A., Clément, K., Fan, R., Ancel, P., Pelloux, V., Rouault, C., Veyrie, N., Hartemann, A., Treuter, E. (shared corresponding author), and Venteclef, N. (2012) SMRT-GPS2 corepressor pathway dysregulation coincides with obesitylinked adipocyte inflammation. The Journal of Clinical Investigation, Epub ahead of print. Ehrlund A, Jonsson P, Vedin LL, Williams C, Gustafsson JÅ, Treuter E. (2012) Knockdown of SF-1 and RNF31 affects components of steroidogenesis, TGFβ, and Wnt/β-catenin signaling in adrenocortical carcinoma cells. PLoS One 7:e32080. Venteclef N, Jakobsson T, Steffensen KR, Treuter E. (2011) Metabolic nuclear receptor signaling and the inflammatory acute phase response. Trends in Endocrinology and Metabolism 22:333-43. Epigenomic control of metaflammation by nuclear receptor-coregulator pathways Public health nutrition We are interested in understanding the intricate relationship between metabolism and inflammation, referred to as ‘metaflammation’, which emerges as a key feature of the metabolic syndrome and its components obesity, insulin resistance, and type 2-diabetes. Our research is driven by the hypothesis that closely linked metabolic and (anti-) inflammatory nuclear receptor-coregulator pathways play central roles in transcriptional and epigenomic mechanisms of disease. Specifically, we suspect that pathways involving the anti-inflammatory mediator GPS2 function as a critical molecular entry point for the integration of metabolic and inflammatory signals. The public health nutrition group is mostly involved in the nutritional health of children and infants. We have performed research on breast milk composition, especially investigating fatty acid composition and polyamine content related to the diet of the mother, studied breastfeeding prevalence and duration in relation to socio-demographic determinants as well as studies on vitamin A and D status of Iranian infants. In both animals and infants we have studies long-term effects of early nutrition. Fruit and vegetable intake among 11-year old children has been investigated in a selection of European countries. Data on overweight prevalence in Swedish 7-8 year old children has been studied in a population-representative sample. We have also investigated nutritional links to cognitive development in children and revealed the most important polyamine sources in the Swedish diet. Anti-inflammatory GPS2 pathways So far, we have identified three key features of these pathways that appear highly diseaserelevant: (1) Control of nuclear receptor cistromes (DNA binding) and epigenomes (histone modifications) at certain genes, such as the cholesterol transporter gene ABCG1. (2) Crucial component of anti-inflammatory transrepression by lipid-sensing nuclear receptors such as LXRs. (3) Dysregulation of an adipocyte-specific corepressor complex that controls inflammation in human obesity. Overall, these findings suggest that nuclear receptorGPS2 pathways are directly involved in human metaflammatory diseases and potentially can be therapeutically modulated. Thus, our future work will further dissect these disease mechanisms, using mouse models and translational human studies, and also aim to develop novel anti-inflammatory treatment strategies. Another interest in the group is interventions in regards to nutrition and physical activity, with intervening on fruit and vegetable intake in 11-year olds, a generally healthy lifestyle in pregnant women and promoting physical activity in an university staff. The group is very active in European public health nutrition research and has during the last 15 years been coordinating eight EU funded projects, and is every year running a course on how to apply for funding from the European Commission, in collaboration with WHO European Region. The unit is also involved in the development of the profession of public health nutrition on European level, with a fifteen year experience in developing training programmes and policy. Venteclef N, Jakobsson T, Ehrlund A, Damdimopoulos A, Mikkonen L, Ellis E, Nilsson LM, Parini P, Jänne OA, Gustafsson JA, Steffensen KR, Treuter E. (2010) GPS2-dependent corepressor/SUMO pathways govern antiinflammatory actions of LRH-1 and LXRbeta in the hepatic acute phase response. Genes and Development 24:381-95. Group members Anastasios Damdimopoulos Anna Ehrlund Rongrong Fan Zhiqiang Huang Saioa Goni Ning Liang 32 Metaflammatory nuclear receptor-GPS2 pathways in physiology and disease: targets for therapeutic intervention. Molecular mechanisms: SUMOylated receptors (NRs) repress transcription of inflammatory genes (e.g. macrophage cytokine genes, liver acute phase genes) by docking to promoter-bound GPS2/ corepressor (CoR) complexes linked to histone deacetylation, thereby preventing activation in response to inflammatory stimuli. SUMOylation is regulated by NR ligands and by intracellular signals in a dynamic, reversible, and cell-type dependent manner. Metabolites, endocrine disrupters, drugs and inflammatory signals may modulate the anti-inflammatory capacity of NRs. Physiological consequences and therapeutic possibilities: Highlighted are established and suspected tissues and diseases where NR/GPS2 pathways might occur. Envisaged are pharmacological approaches that selectively modulate NR-SUMOylation, GPS2/CoR interactions, or directly GPS2, all presenting new concepts for developing anti-inflammatory drugs to combat specific metaflammatory diseases. Figurre: Nilsson TK, Yngve A, Böttiger AK, Hurtig-Wennlöf A, Sjöström M. Treuter E, Venteclef N. (2011) Transcriptional control of metabolic and inflammatory pathways by nuclear receptor SUMOylation. Biochimica Biophysica Acta 1812:909-18. High dietary folate intake is related to better school performance in a population sample of 15-year-old Swedish adolescents. Pediatrics. 2011 Aug;128(2):358-65. Agneta Yngve +46 8 5248 1085 agneta.yngve@ki.se ki.se/bionut/yngve Selected publications Palsdottir V, Wickman A, Andersson N, Hezaveh R, Olsson B, Gabrielsson BG, Strandvik B. (2011) Postnatal deficiency of essential fatty acids in mice results in resistance to diet-induced obesity and low plasma insulin during adulthood. Prostaglandins Leukot Essent Fatty Acids 84(3-4):85-92. Nilsson TK, Yngve A, Böttiger AK, HurtigWennlöf A, Sjöström M. (2011) High dietary folate intake is related to better school performance in a population sample of 15-year-old Swedish adolescents. Pediatrics 128(2):35865. Ali MA, Poortvliet E, Strömberg R, Yngve A. (2011) Polyamines: total daily intake in adolescents compared to the intake estimated from the Swedish Nutrition Recommendation Objectified (SNO). Food & Nutrition Research 55:5455. Sjöberg A, Moraeus L, Yngve A, Poortvliet E, Al-Ansari U, Lissner L. (2011) Overweight and obesity in a representative sample of school children – exploring the urban-rural gradient in Sweden. Obesity Reviews 12(5):305-14. Olang B, Naghavi M, Bastani D, Strandvik B, Yngve A. (2011) Optimal vitamin A and suboptimal vitamin D status are common in Iranian infants. Acta Paediatrica 100(3); 439-444. Group members Usama Al-Ansari Bettina Ehrenblad Leif Hambræus Susanna Kugelberg Christel Lynch Eric Poortvliet Jenny Rossen Ali Soroush Birgitta Strandvik 33 Bioinformatics and expression analysis,BEAa Institutet Center for high resolution electron microscopy, EMka Institutet Contact Fredrik Fagerström-Billai fredrik.fagerstrom-billai@ki.se +46 8 524 835 43 +46 8 524 831 11 bea.ki.se Contact Hans Hebert hans.hebert@ki.se +46 8 524 810 93 ki.se/bionut Preparing specimens for cryo electron microscopy. The core facility for Bioinformatics and Expression Analysis, BEA, is a national genomic service facility. BEA provides an extensive repertoire of genomic technologies to ongoing research projects principally at the Karolinska Institute but also at other Swedish universities. BEA offers services for genomic analysis based on the Affymetrix, Agilent, Illumina and ABI platforms for microarrays and qPCR. This includes gene expression and RNA splicing analysis, transcriptome and DNA-binding analysis, epigenetic analysis including DNA-methylation and miRNA analysis, genome wide SNP and copy number variation analysis. The services at BEA range from experimental planning and complete processing of all samples and reagents to data analysis and bioinformatic support. Recent additions at BEA include the Affymetrix GeneTitan automated plate microarray system and a Biomek FXP PCR robot which has improved throughput 34 and reduced the cost of microarray analyses. BEA handles more than 160 different individual projects from approximately 80 different research groups and PIs yearly. The number of different types of analysis has continuously increased and today BEA handles approximately 3500 samples and performs more than 2500 individual microarray hybridizations yearly (2011-2012). The implementation of new genomic analysis methods and services are important goals. For the moment BEA is introducing standardized services for ChIP and RNA sequencing on the Illumina HiSeq platform and establishing protocols for small sample and single cell analysis. BEA is also involved in education and organizes workshops and advanced doctoral courses. Group members /personnel David Brodin Karin Dahlman-Wright Fredrik Fagerström-Billai Susann Fält Malin Liljebäck Jessica Lindvall Marika Rönnholm The objective of the high resolution electron microscopy, EM, core facility is to provide a seamless facility for general EM, cryoEM and high resolution studies of biological specimens. The equipment comprises mainly: Three transmission electron microscopes, (one 120 kV with LaB6 filament and two field emission gun microscopes with 200 kV and 300 kV accelerating voltage respectively) all equipped with CCD cameras, preparation equipment for cryo specimens including a plunge freezing robot, dedicated computer hardware and software. One lab manager of the EM group has continued to take the responsibility of the equipment on a daily basis ensuring that ultimate availability and performance of the facility is achieved. One lab manager is responsible for wet lab facilities including equipment for protein purification, 2D crystallization and EM specimen preparation. Two senior researchers are providing expertise with regard to processing of data. Internal projects and collaborations The EM-group (membrane proteins, 2D crystallization, large complexes, nanoparticles), The Garoff group (viruses), The Jovine group (large complexes and 2D crystals). Group members/personnel Hans Hebert Caroline Jegerschöld Philip Koeck Martin Lindahl Pasi Purhonen Examples of outside visitors/users • Vironova AB, one day a week at a rate cover all costs, drug carriers • Lund University, from the Chemistry Center, large complexes • Karolinska Institutet, MBB, membrane proteins, 2D crystallization and large complexes • Umeå University, virus structure • University of Rome/Tor Vergata, micro and nanoparticles • Århus University, large complexes 35 Contact Sylvie Le Guyader sylvie.le.guyader@ki.se + 46 73 733 5008 ki.se/corefacilities Karolinska high throughput center, KHTC nska Institutet Image: Ting Zhuang. The live cell imaging unit, LCInska Institutet Contact Jianping Liu +46 8 585 866 58 jianping.liu@ki.se khtc.ki.se Mouse mammary gland labelled with Carmine, imaged in 3D with the Andor spinning disk microscope. Overview of the integrated instruments at KHTC. Microscopy is becoming increasingly important for the life sciences. The Live Cell Imaging (LCI) unit at BioNut offers its researchers a unique set of microscopy tools as well as expertise and advanced training. The Live Cell Imaging unit provides a variety of confocal microscopes, all fully automated and fully equipped for live cell imaging. Collectively, these microscopes allow applications as varied as fast confocal imaging (resonant scanner, spinning disk), spectral imaging, two-photon microscopy, and fluorescence lifetime microscopy. Three workstations are also available with all offline software as well as software for automated image analysis in 5 dimensions (xyz, time, colour). The LCI unit has more than 50 active users. Group members /personnel Sylvie Le Guyader Staffan Strömblad 36 Karolinska high throughput center, KHTC, is one of the most sophisticated, state-of-the-art liquid handling and analytical platforms in Europe. KHTC provides for scientific community instrumentation, reagents, methods and know-how for systems biology and advanced genomics. KHTC is a self-service facility with a fee-for-use. We can assist with assay development and robotics; however there is no retention of intellectual property and full confidentiality is guaranteed. The live cell imaging unit offers its researchers a unique set of microscopy tools as well as expertise and advanced training. The instruments available at KHTC includes: highly integrated laboratory automation workstations, advanced liquid handling robots, fully automated microscope, Acumen eX3 High Content Imaging System, high-throughput PCR instrument, SELEX platform, Illumina HiSeq2000 DNA sequencers, recombinant DNA cloning/colony picking platform and high-throughput yeast replicator. In addition, KHTC centrally manages collections of genome-wide siRNA & ORF libraries and several comprehensive chemical compound libraries of >92,000 small molecules. Group members /personnel Jianping Liu Thirupathi Pattipaka Jussi Taipale Minna Taipale At KHTC we are capable of performing large scale genetic screens (cDNA and RNAi) and compound screens in various cellular and biochemical assays, systematic evolution of ligands by exponential enrichment (SELEX), multiplexing by DNA barcoding and massively parallel PCR. In 2012, two compound screens were carried out, a RNA extraction method was automated and three siRNA pre-screens are in progress. In addition, four siRNA screens, one cDNA screen and three compound screens have been initiated. 37 Examples of high impact publications Siu MK, Chan HY, Kong DS, Wong ES, Wong OG, Ngan HY, Tam KF, Zhang H, Li Z, Chan QK, Tsao SW, Strömblad S, Cheung AN. (2010) p21-activated kinase 4 regulates ovarian cancer cell proliferation, migration, and invasion and contributes to poor prognosis in patients. Proc Natl Acad Sci U S A. 107(43):18622-7. Teglund S, Toftgård R. (2010) Hedgehog beyond medulloblastoma and basal cell carcinoma. Biochim Biophys Acta. 1805(2):181-208. Durand-Dubief M, Persson J, Norman U, Hartsuiker E, Ekwall K. (2010) Topoisomerase I regulates open chromatin and controls gene expression in vivo. EMBO J. 29(13):2126-34. 2010 Han L, Monné M, Okumura H, Schwend T, Cherry AL, Flot D, Matsuda T, Jovine L. (2010) Insights into egg coat assembly and egg-sperm interaction from the X-ray structure of fulllength ZP3. Cell,143(3):404-15. Jolma A, Kivioja T, Toivonen J, Cheng L, Wei G, Enge M, Taipale M, Vaquerizas JM, Yan J, Sillanpää MJ, Bonke M, Palin K, Talukder S, Hughes TR, Luscombe NM, Ukkonen E, Taipale J. (2010) Multiplexed massively parallel SELEX for characterization of human transcription factor binding specificities. Genome Res. 20(6):861-73. Burroughs AM, Ando Y, de Hoon MJ, Tomaru Y, Nishibu T, Ukekawa R, Funakoshi T, Kurokawa T, Suzuki H, Hayashizaki Y, Daub CO. (2010) A comprehensive survey of 3' animal miRNA modification events and a possible role for 3' adenylation in modulating miRNA targeting effectiveness. Genome Res. 20(10):1398410. Lauth M, Bergström A, Shimokawa T, Tostar U, Jin Q, Fendrich V, Guerra C, Barbacid M, Toftgård R. (2010) DYRK1B-dependent autocrine-to-paracrine shift of Hedgehog signaling by mutant RAS. Nat Struct Mol Biol. 17(6):718-25. 38 Morgunova E, Illarionov B, Saller S, Popov A, Sambaiah T, Bacher A, Cushman M, Fischer M, Ladenstein R. (2010) Structural study and thermodynamic characterization of inhibitor binding to lumazine synthase from Bacillus anthracis. Acta Crystallogr D Biol Crystallogr. 66(Pt 9):1001-11. Camilleri M, Carlson P, Zinsmeister AR, McKinzie S, Busciglio I, Burton D, Zucchelli M, D'Amato M. (2010) Neuropeptide S receptor induces neuropeptide expression and associates with intermediate phenotypes of functional gastrointestinal disorders. Gastroenterology. 138(1):98-107.e4. Venteclef N, Jakobsson T, Ehrlund A, Damdimopoulos A, Mikkonen L, Ellis E, Nilsson LM, Parini P, Jänne OA, Gustafsson JA, Steffensen KR, Treuter E. (2010) GPS2-dependent corepressor/SUMO pathways govern antiinflammatory actions of LRH-1 and LXRbeta in the hepatic acute phase response. Genes Dev. 24(4):381-95. Murtola M, Wenska M, Strömberg R. (2010) PNAzymes that are artificial RNA restriction enzymes. J Am Chem Soc. 132(26):8984-90. Fan X, Gabbi C, Kim HJ, Cheng G, Andersson LC, Warner M, Gustafsson JA. (2010) Gonadotropin-positive pituitary tumors accompanied by ovarian tumors in aging female ERbeta-/- mice. Proc Natl Acad Sci U S A. 107(14):6453-8. Tan XJ, Fan XT, Kim HJ, Butler R, Webb P, Warner M, Gustafsson JA. (2010) Liver X receptor beta and thyroid hormone receptor alpha in brain cortical layering. Proc Natl Acad Sci U S A. 107(27):12305-10. Piasecki BP, Burghoorn J, Swoboda P. (2010) Regulatory Factor X (RFX)-mediated transcriptional rewiring of ciliary genes in animals. Proc Natl Acad Sci U S A. 107(29):12969-74. Gabbi C, Kim HJ, Barros R, Korach-Andrè M, Warner M, Gustafsson JA. (2010) Estrogendependent gallbladder carcinogenesis in LXRbeta-/- female mice. Proc Natl Acad Sci U S A. 107(33):14763-8. Wu SR, Löving R, Lindqvist B, Hebert H, Koeck PJ, Sjöberg M, Garoff H. (2010) Singleparticle cryoelectron microscopy analysis reveals the HIV-1 spike as a tripod structure. Proc Natl Acad Sci U S A. 107(44):18844-9. Wei GH, Badis G, Berger MF, Kivioja T, Palin K, Enge M, Bonke M, Jolma A, Varjosalo M, Gehrke AR, Yan J, Talukder S, Turunen M, Taipale M, Stunnenberg HG, Ukkonen E, Hughes TR, Bulyk ML, Taipale J. (2010) Genome-wide analysis of ETS-family DNA-binding in vitro and in vivo. EMBO J. 29(13):2147-60. 2011 Thomas C, Gustafsson JÅ. (2011) The different roles of ER subtypes in cancer biology and therapy. Nat Rev Cancer. 11(8):597-608. Nilsson S, Koehler KF, Gustafsson JÅ. (2011) Development of subtype-selective oestrogen receptor-based therapeutics. Nat Rev Drug Discov. 10(10):778-92. Barros RP, Gustafsson JÅ. (2011) Estrogen receptors and the metabolic network. Cell Metab. 14(3):289-99. Zucchelli M, Camilleri M, Andreasson AN, Bresso F, Dlugosz A, Halfvarson J, Törkvist L, Schmidt PT, Karling P, Ohlsson B, Duerr RH, Simren M, Lindberg G, Agreus L, Carlson P, Zinsmeister AR, D'Amato M. (2011) Association of TNFSF15 polymorphism with irritable bowel syndrome. Gut. 60(12):1671-7. Korach-André M, Archer A, Barros RP, Parini P, Gustafsson JÅ. (2011) Both liver-X receptor (LXR) isoforms control energy expenditure by regulating brown adipose tissue activity. Proc Natl Acad Sci U S A. 108(1):403-8. Butler R, Inzunza J, Suzuki H, Fujii-Kuriyama Y, Warner M, Gustafsson JÅ. (2012) Uric acid stones in the urinary bladder of aryl hydrocarbon receptor (AhR) knockout mice. Proc Natl Acad Sci U S A. 109(4):1122-6. Kasper M, Jaks V, Are A, Bergström Å, Schwäger A, Svärd J, Teglund S, Barker N, Toftgård R. (2011) Wounding enhances epidermal tumorigenesis by recruiting hair follicle keratinocytes. Proc Natl Acad Sci U S A. 108(10):4099-104. Gabbi C, Kong X, Suzuki H, Kim HJ, Gao M, Jia X, Ohnishi H, Ueta Y, Warner M, Guan Y, Gustafsson JÅ. (2012) Central diabetes insipidus associated with impaired renal aquaporin-1 expression in mice lacking liver X receptor β. Proc Natl Acad Sci U S A. 109(8):3030-4. Muthusamy S, Andersson S, Kim HJ, Butler R, Waage L, Bergerheim U, Gustafsson JÅ. (2011) Estrogen receptor β and 17β-hydroxysteroid dehydrogenase type 6, a growth regulatory pathway that is lost in prostate cancer. Proc Natl Acad Sci U S A. 108(50):20090-4. Yakimchuk K, Iravani M, Hasni MS, Rhönnstad P, Nilsson S, Jondal M, Okret S. (2011) Effect of ligand-activated estrogen receptor β on lymphoma growth in vitro and in vivo. Leukemia. 25(7):1103-10. Löving R, Wu SR, Sjöberg M, Lindqvist B, Garoff H. (2012) Maturation cleavage of the murine leukemia virus Env precursor separates the transmembrane subunits to prime it for receptor triggering. Proc Natl Acad Sci U S A. 109(20):7735-40. 2012 Sur IK, Hallikas O, Vähärautio A, Yan J, Turunen M, Enge M, Taipale M, Karhu A, Aaltonen LA, Taipale J. (2012) Mice lacking a Myc enhancer that includes human SNP rs6983267 are resistant to intestinal tumors. Science. 338(6112):1360-3. Kivioja T, Vähärautio A, Karlsson K, Bonke M, Enge M, Linnarsson S, Taipale J. (2012) Counting absolute numbers of molecules using unique molecular identifiers. Nat Methods. 9(1):72-4. Kasper M, Jaks V, Hohl D, Toftgård R. (2012) Basal cell carcinoma - molecular biology and potential new therapies. J Clin Invest. (2):455-63. Jakobsson T, Treuter E, Gustafsson JÅ, Steffensen KR. (2012) Liver X receptor biology and pharmacology: new pathways, challenges and opportunities. Trends Pharmacol Sci. 33(7):394-404. 39 Dissertations 2010-2012 ska Institutet 2011 Ulrica Tostar, Hedgehog Signaling in Rhabdomyosarcoma: Role of GLI Factors and Splice Variants in Signal Transduction Gayathri Chandrasekar, Zebrafish as a Model to Study the Neuroendocrine System and Toxicity of Endocrine Disruptors Anna Ehrlund, Transcriptional Regulation by the Nuclear Receptors Steroidogenic Factor-1 and Liver Receptor Homologue-1 Beheshteh Olang, Aspects of Feeding Patterns in the First Two Years of Life in Iranian Infants Chiara Gabbi, Studies on the Oxysterol Receptor LXRbeta Linking Cholesterol metabolism to water transport and cell proliferation Ylva Rosengardten, Development of a Mouse Model for Hutchinson-Gilford Progeria Syndrome Reveal Defects in Adult Stem Cell Maintenance Juan Carlos Fierro-Gonzalez, The Plasticity of Aging and Survival: A Role for Thioredoxin System in Caenorhabditis Elegans 40 Eva Schmidt, Mouse Models for Understanding the Molecular Mechanism of Bone Disease in Hutchinson-Gilford Progeria Syndrome Marina Ezcurra, Feeding State Modulates Nociception in Caenorhabditis Elegans Kirsi Harila, VPU-Mediated Intracellular Targeting of HIV-1 Core Protein Precursor PR55 GAG and Association of PR55 GAG with Lipid Microdomains Kristiina Tammimies, Molecular Studies of Dyslexia – Regulation and Function of DYX1C1 Karin Heby-Henricsson, The Role of Suppressor of Fused in Development and Tumorigenesis in the Mouse Mohamed Ali, Polyamines in Foods and Human Milk Karin Edvardsson, Exploring the GenomeWide Impact of Estrogen Receptor Alpha and Estrogen Receptor Beta in Breast and Colon Cancer Cells 2012 2010 Indranil Sinha, Genome-Wide Patterns of Histone Modifications in Fission Yeast Hanna Peterson, Genetic Studies of PreEclampsia Emma Patterson, Dietary Intakes of Swedish Children and Adolescents Zhengwen An, Integrin-Interacting Proteins in Human Cancer Progression Katarina Hart, Molecular Dynamics Simulations of Protein-Nucleic Acid Complexes Tiina Järvinen, Genetic Studies on Finnish Lupus Erythematosus Patients with Cutaneous Manifestations Chiounan Shiue, Role of c-Myc in the Regulation of rDNA Transcription by RNA Polymerase I Carolina Bonilla (lic examen), Studies of Histone Modification Systems in Schizosaccharomyces Pombe Gilbert Lauter, Characterization of Evolutionary Conserved Subdivisions in the Embryonic Zebrafish Forebrain Based on Gene Expression Patterns Christina Orsmark-Pietras, Interaction and Regulation of Asthma Susceptibility Genes Robin Löving, Activation of Retrovirus Spikes for Membrane Fusion Tomas Jakobsson, Oxysterol Receptors LXRs and Coregulators in Cholesterol Metabolism and Inflammatory Transrepression Pathways Lena Hallström, Breakfast Habits among European Adolescents – The Healthy Lifestyle in Europe by Nutrition in Adolescence (HELENA) study Birgitta Pettersson, Synthetic Studies towards 7-and 8-Membered N-heterocycles, Particularly 1,4-Pyrrolobenzodiazepines – Total synthesis of Fuligocandin A and B Clara Ersson, International Validation of the Comet Assay and a Human Intervention Study Marianna Wirén, Genome-Wide Study of HDACs and Transcription in Schizosaccharomyces Pombe Yong-Guang Tong, Regulatory Function of Homeobox Genes in the Development of C. Elegans Erik Flöistrup (lic examen), Synthesis of Estradiol Mimetics and anti-Alzheimers Agents Zhilun Li, Role of p21-Activated Kinase 4 in Cell Migration Karina Gheorge, Persistent Inflammatory Pathways in Rheumatoid Arthritis Despite Anti-rheumatic Treatment Karolina Lindberg, Estrogen Receptor beta Signalling in Mammary Epithelial and Breast Cancer Cells Wen Cai, ER subtype-specific regulation of estrogen signaling Ylva Rodhe, (lic examen) Assessment of DNA Damage, Oxidative Stress and Inflammation in Chronic Kidney disease patients- and a clinical study of a dietary supplement Krishan Johansson Haque, Molecular mechanisms of Glucocorticoids: Anti-inflammatory implications Johan Henriksson, Spatio-temporal modeling of morphology and gene-expressions during C. elegans embryogenesis using a new imaging framework Lars Braeutigam, Urocortins in the zebrafish brain and redox regulation of embryonic development through Glutaredoxins Milica Putnik, Molecular characterization of estrogen receptors with focus on breast cancer Olof Allnér, Biomolecular Simulations, from RNA to Protein: Thermodynamic and Dynamic Aspects Nina Gustafsson Shepard, Modulation of Nuclear Receptors Signaling by RBR Ubiquitin Ligases Jingwen Shi, Biocompatibility of synthetic nanomaterials and their applications in gene delivery Pontus Cronholm, Toxicity of metal and metal oxide nanoparticles. The importance of physicochemical properties and cellular uptake. Stefan Ek, Nitro compounds for use in explosive charges Therese Woodhill, The Paradox of Micronutrients – In vitro and human studies Annelie Strålfors, Chromatin remodelers and their roles in chromatin organization. 41 Undergraduate teaching nstitutet Contact Sam Okret +46 8 524 81069 sam.okret@ki.se in Nutrition are the only Swedish academic educations with nutrition as their major. The bachelor program deals with nutrition from many different perspectives - medical, biochemical, molecular, epidemiological and public health perspectives. Evidence based relationships between food and health are main topics. It differs from “Dietician education" as the students obtain a deep knowledge in natural sciences, including chemistry (45 credits), cell biology (30 credits), physiology and molecular nutrition. The broad profile of the program gives the students a lot of possible professional roles to choose between after completing their training. Among other things, they work with health education, health administration or development of new consumer products. The master program in Nutrition is based on the bachelor program and offers additional research interaction and possibilities to go At the Department of Biosciences and Nutrition research and education go hand in hand. Although research constitutes the larger part of the Department’s activities, education is an important and central part of the department’s activities. This is exemplified by the participation of the Departmental Educational Coordinator in the Departmental management group. The Department has its main competence in basic biosciences and nutrition and it is also within these educational areas the department is mainly involved. Our goal is that all our educational activities are scientifically based and closely connected to ongoing research. Furthermore, we think that education is an important way to communicate the latest scientific standpoints so that students completing the courses or programs given by the Department become knowledgeable, skilled and trustworthy professionals with high credibility within their respective educational areas. The Department of Biosciences and Nutrition’s main educational engagements are within the bachelor and master’s programs in Biomedi- 42 cine and bachelor and master’s program in Nutrition, the latter of which the Department gives in collaboration with Stockholm University. The Department has the overall responsibility for the bachelor and master’s programs in Nutrition. In addition, the Department gives freestanding courses in Public Health Nutrition at Karolinska Institutet. Teachers at the Department also participate in teaching activities at other programs at the Karolinska Institutet e.g. the Medicine program with lectures/seminars in Public Health and Environmental Medicine and Nutrition. Within the Biomedicine program the Department is responsible for several courses both at the bachelor and masters level comprising a total of 58 credits (10 at the bachelor level, 48 at the master’s level) with 44 annual performance equivalents (HÅP). For the 3 year bachelor program in Nutrition, the Department is responsible for courses corresponding to 105 credits and for 90-120 credits (depending on the length of the degree project) on the master’s program in Nutrition. All together both deeper and broader into studying questions related to food and health. The master’s program also includes courses in communication, philosophy of science, pedagogics and environmental aspects on food production and consumption. The bachelor and master’s program in Nutrition had during the autumn of 2012 to write a “self evaluation” report as part of the Swedish National Agency of Higher Education ongoing evaluation of all national university programs. Finally, the Department works hard to develop the pedagogical skills of the departmental teachers by offering seminars in pedagogical techniques. Furthermore, a role for an Educational Cooordinator working with coordination and pedagogical training is in place. Examples of freestanding courses given are “Behavior change in nutrition and physical activity”, “Public health Nutrition within the EU” and “Basic Nutritional Physiology”. Some courses on the postgraduate program given by the department are also offered as elective courses to the undergraduate students, e.g. in bioinformatics and nuclear receptors and metabolism. this corresponds to 58 annual full time student equivalents (HÅS) and 55 total annual performance equivalents in the bachelor and masters programs in Nutrition. Generally, the courses at the bachelor’s level given at the Department are taught in Swedish while all courses at the master’s level given at the Department are taught in English. Courses given at the bachelor level within the Biomedicine program include “Cell Biology and Genetics”. At the masters program in Biomedicine, they include courses in Applied Communication in Biomedicine where the students learn how to communicate science in speech and writing to colleagues, the media and to the public and how to write grant applications. The courses also include philosophy of science and bioethics. The Department is also responsible for the Degree projects at the master’s programs in Biomedicine. The education in Nutrition in collaboration with Stockholm University was initiated more than 40 years ago. The education programs 43 Networks a Institutet Awards nska Institutet Examples of scientific networks that scientists at the Department of Biosciences and Nutrition participated in 2010-2012. NetworkWeb siteResearcher EU FP6- & FP7-FOOD NoE: ECNIS and ECNIS2 ecnis.org Lennart Möller, Jospeh Rafter, Dan Segerbäck EU FP7-HEALTH NoE Collaborative project SYSCOL syscol-project.eu Jussi Taipale (coordinator) EU FP7-HEALTH NoE: Systems Microscopy systemsmicroscopy.eu Staffan Strömblad (coordinator) EU FP7-ENVIRONMENT FRP: ICEPURE icepure.eu Dan Segerbäck EU FP7-HEALTH FRP: MAARS maars.eu Juha Kere EU FP6-FOOD IP: NewGeneris newgeneris.org Dan Segerbäck EU FP7-FOOD IP: TORNADO fp7tornado.eu Joseph Rafter (vice coordinator) EU FP7-HEALTH IP: TOLERAGE tolerage.eu Sam Okret EU FP7-PEOPLE-ITN: Virus Entry 2.hu-berlin.de Henrik Garoff EU FP7-PEOPLE-ITN: Healing fp7-healing.eu Maria Kasper, Rune Toftgård EU-ITN PhosChemRec Roger Strömberg EuroNanoMed (EU/VR) NanoSpliceRoger Strömberg FANTOM consortium fantom.gsc.riken.jp Carsten Daub, Karl Ekwall, Juha Kere StratCan ki.se/stratcanRune Toftgård (director), Jussi Taipale BRECT ki.seStaffan Strömblad (co-director), Rune Toftgård The Strategic Research Programme in Diabetes ki.se/srp-diabetes Karin Dahlman-Wright, Juha Kere ESF-network ”SimBioMa” 2010-2011 esf.org Lennart Nilsson (member of steering committee) IIBDGCibdgenetics.orgMauro D’Amato (Management Committee) GENIEUR genieur.eu Mauro D’Amato (WG3 Management Committee) SOIBDMauro D’Amato NORGEN norgen.ki.se Karin Dahlman-Wright, Jan-Åke Gustafsson, Eckardt Treuter NordForsk C. elegans Shared Technology Platforms nordiccelegans.org Thomas Bürglin, Peter Swoboda NordForsk Cilia and Centrosome nordiccilia.org Peter Swoboda (co-funder) NordForsk Chromatin, Transcription and Cancer nordforsk.org Karl Ekwall NordForsk Non-coding RNAnordforsk.orgKarl Ekwall NEONneon.sahlgrenska.gu.se Marie Löf NCycle – The Network of Nutrition during the Reproductive Cycle Marie Löf The Swedish Research Council research network in Epigenetics Karl Ekwall (Founder and Chairman) Epigenetiska mekanismer i astma och allergi (supported by SSF) Juha Kere Stockholm Particle GroupLennart Möller 44 Awards and prizes awarded to scientists at the Department of Biosciences and Nutrition 2010-2012. Carsten Daub RIKEN OSC Award “Successful Completion of FANTOM4 project” (2010). Karl Ekwall Distinguished Professor Award Karolinska institutet (2010-2014). Gene Expression Systems Epigenomics Innovator Award (2011). Maria Eriksson VINNMER fellow – Marie Curie international qualification from VINNOVA (2012-2015). Innovator Award from The Progeria Research Foundation (2012-2013). Jan-Åke Gustafsson Molecular and Cellular Oncology, the University of Texas, M.D. Anderson Cancer Center, Houston, Texas (2010). The Grand Silver Medal of Karolinska Institutet (2011). Honorary Doctor in Medicine, University of Turku, Turku, Finland (2011). Luca Jovine ERC Starting Grant (2010). EMBO Young Investigator Award (2010). Göran Gustafsson Prize in Chemistry (2012). Erik K. Fernström Prize (2011). Sven och Ebba-Christina Hagberg Prize for Medical Research (2011). Maria Kasper Ragnar Söderberg Fellow in Medicine, Sweden (2012). Cancerfonden Young Investigator Award, Sweden (2012). Jürgen Schweizer Prize, European Hair Research Society, Israel (2011). Juha Kere Distinguished Professor Award at Karolinska Institutet (2010-2014). Matti Äyräpää price of medicine, awarded by the Finnish Medical Society Duodecim (2011). Michael Sjöström Medal from the University of Granada for strong academic and scientific leadership in the EU funded HELENA project and “The European Youth Heart Study” Jussi Taipale Erik K. Fernströms Prize for young researchers (2010). Göran Gustafssons Prize in molecular biology (2011). Awarded Lifelong EMBO Membership (2011). Rune Toftgård Distinguished Professor Award at KI (2010). Elected Member of the Nobel Committee at KI (2010-2012). 45 The department in brief ska Institutet INCOME STATEMENT 2010 2011 2012 Revenues from grants Revenues from fees Revenues from allowances Internal revenues 65 340 12 807 165 967 8 167 65 189 9 020 157 107 10 611 57 127 11 302 158 949 15 872 Total revenues 252 281 241 927 Key financial figures External / total financing 74% 73% Research & doctoral education 94% 95% First and second level education 6% 5% 243 250 77% 94% 6% Doctoral students 2010 BioNut had 70 registrered doctoral students. 13 PhD-students were registrered, 11 held their doctoral thesis defence and 2 students got a licentiate degree. 2011 BioNut had 61 registrered doctoral students. 7 PhD-students were registered, 21 held their doctoral thesis defence. 2012 BioNut had 55 registrered docoral students. 8 PhD-students were registered, 12 held their doctoral thesis defence and 2 students got a licentiate degree. 46 47 Organizationska Institutet Contactnska Institutet The Department of Biosciences and Nutrition is situated at the NOVUM research park in Huddinge, adjacent to Karolinska University Hospital in Huddinge. Head of Department 1st and 2nd level bachelor/master Department council Education Collaboration group Work environment group 3rd level doctoral education Special assignments Administration Research groups Core facilities Mailing address BEA EM Bürglin DahlmanWright KHTC LCI Garoff Gustafsson Hebert Jovine Kasper Kere Löf Möller Nilsson Okret Rafter Sjöström Segerbäck Strömberg Strömblad Swoboda Taipale Toftgård Treuter Yngve Daub D’Amato Ekwall Eriksson Economy Personnel Labservice Researcher service The Department of Biosciences and Nutrition Novum 141 83 Huddinge Sweden Visiting address Blickagången 6 or Hälsovägen 7 (by car) 141 57 Huddinge Home page ki.se/bionut Public transport Bus: To and from central Stockholm as well as interconnections with the underground system. Routes and time tables, see www.sl.se Metro: 15 minutes from Stockholm Central by commuter trains to Flemingsberg/Stockholm Syd Station: use the south exit. Walk towards Karolinska University Hospital (Huddinge). You can not miss the NOVUM building on your right hand side. Routes and time tables, see www.sl.se By car Drive from Stockholm to Novum Research Park, Hälsovägen 7: E4 southwards, turn off at Vårby (exit 148), follow the hospital signs to Karolinska University Hospital in Huddinge and Novum Research Park. Guest parking outside the main entrance, first exit after the Hospital. Switchboard +46 8 524 800 00 48 49 ki.se Karolinska Institutet Communications and Public Relations Office | Text: The Department of Biosciences and Nutrition Photo: Fredrik Hjerling, Björn Grevsten, Istock Photo, Karolinska Institutet, Staffan Larsson and Anders Lindholm Print: Kaigan | ISBN: 978-91-85681-54-9