T3 plus T4 Combination Therapy: Yes or No?

Transcription

T3 plus T4 Combination Therapy: Yes or No?
Antonio C. Bianco, MD, PhD
Division of Endocrinology and Metabolism
Rush University Medical Center
Chicago, IL
Contact: www.BiancoLab.org
Disclosures: Chief, Division of Endocrinology and Metabolism; Executive Vice‐Chair,
Department of Internal Medicine, Rush University Medical Center, President‐
Elect American Thyroid Association, Board of Scientific Counselors of the NIDDK‐NIH, Bethesda MD, USA
A Patient’s Email
Dear Dr. Bianco,
I know my body well enough to know when the thyroid is out of sorts.
I had a sense of being unwell this entire season.
Before my college classes start in the fall, I must get regulated.
I am the type of person, who never misses a day of work.
I believe this crisis is the result of a doctor taking me off of XXX and not giving me
liothyronine.
He just gave me levothyroxine.....I cannot walk a straight line and am in a constant state of
dizziness.
My vision is blurry and I feel like I have vertigo.
I have chronic insomnia and am extremely jumpy.
I cannot focus and worse of all cannot focus on reading.
My thyroid problems all started when XXX went off the market.
Since then I have had a 30 pound weight gain.
I cannot understand why all these new med cannot do the job of XXX.
I think this drug was taken off the market several times.....each time when I go back on it, I
feel healthy and have the energy and alertness of a 20 year old.
Would you please give me both levothyroxine and T3?
Sincerely, KB
© 2013 BLab
KB
2/12 - KB is a 65 y.o. female that in 1973 was diagnosed with hypothyroidism.
Treated with XXX (desiccated porcine thyroid). However, ever since XXX came out of
the market she was placed on levothyroxine and does not feel well. She is gaining
weight and has difficulty in focusing (she is a high school teacher).
Currently on 100mcg/day levothyroxine;
TSH = 2.75; FT4 = 1.6; T3 = 71
Recommendation:
Increase levothyroxine by ½ tablet/week
or
add to 5-10 mcg/day of liothyronine to the levothyroxine regimen?
© 2013 BLab
AACE and ATA ‐ 2012
Clinical Practice Guidelines for Hypothyroidism in Adults:
Jeffrey R. Garber, Rhoda H. Cobin, Hossein Gharib, James V. Hennessey,
Irwin Klein, Jeffrey I. Mechanick, Rachel Pessah-Pollack, Peter A. Singer,
and Kenneth A. Woeber
How should patients with hypothyroidism be treated and monitored?
RECOMMENDATION 22.1
Patients with hypothyroidism should be treated with L-thyroxine monotherapy.
Grade A
RECOMMENDATION 22.2
The evidence does not support using L-thyroxine and L-triiodothyronine
combinations to treat hypothyroidism.
Grade B
Recommendation 22.2 was downgraded to Grade B because of still-unresolved
issues raised by studies that report that some patients prefer and some patient
subgroups may benefit from a combination of L-thyroxine and L-triiodothyronine..
© 2013 BLab
HYPOTHALAMUS-PITUITARY THYROID AXIS
TRH
PITUITARY
TSH
© 2013 BLab
DEIODINASE-CONTAINING TISSUES
TRH
PITUITARY
TSH
Development
WT
Growth
Metabolism
Cognition
D2KO
© 2013 BLab
12 consecutive monthly
measurements of serum T3
in 15 healthy subjects.
TRH
PITUITARY
TSH
Andersen et al. Thyroid, 2003
© 2013 BLab
TRH
PITUITARY
TSH
© 2013 BLab
TANYCYTES
TRH
D2
PITUITARY
D2
TSH CELLS
TSH
© 2013 BLab
TANYCYTES
TRH
D2
PITUITARY
D2
TSH CELLS
TSH
ACCE&ATA Guidelines: …serum T3
measurement, whether total or free, has limited
utility in hypothyroidism because levels are
often normal due to hyperstimulation of the
remaining functioning thyroid tissue by elevated
TSH and to up-regulation of type 2
iodothyronine deiodinase.
© 2013 BLab
TANYCYTES
TRH
D2
PITUITARY
D2
TSH CELLS
TSH
30 g/day
WHAT ARE THE SOURCES OF SERUM T3?
© 2013 BLab
TANYCYTES
TRH
D2
PITUITARY
D2
TSH CELLS
TSH
30 g/day
5
© 2013 BLab
Brain, BAT, SKM, Skin
TANYCYTES
TRH
D2
D2
Nucleus
PITUITARY
D2
Liver
Kidney
TSH CELLS
TSH
D1
30 g/day
5
© 2013 BLab
TANYCYTES
TRH
D2
D2
Nucleus
PITUITARY
D2
Liver
Kidney
TSH CELLS
TSH
20
D1
5
30 g/day
5
© 2013 BLab
TANYCYTES
TRH
D2
WT
D2KO
D1def D1def
D2KO
nl
PITUITARY
D2
TSH
30 g/day
5
Christoffolete et al, Endocrinology 2007
© 2013 BLab
TANYCYTES
TRH
D2
WT
D2KO
D1def D1def
D2KO
nl
PITUITARY
D2
TSH
30 g/day
5
© 2013 BLab
TANYCYTES
TRH
D2
WT
D2KO
D1def D1def
D2KO
nl
PITUITARY
D2
TSH
30 g/day
5
© 2013 BLab
TANYCYTES
TRH
D2
WT
D2KO
D1def D1def
D2KO
nl
PITUITARY
D2
TSH
30 g/day
5
© 2013 BLab
TANYCYTES
TRH
D2
WT
D2KO
D1def D1def
D2KO
nl
PITUITARY
D2
TSH
30 g/day
5
RESETTING OF HPT AND
SERUM T3 IS PRESERVED
© 2013 BLab
TANYCYTES
TRH
D2
PITUITARY
D2
TSH
30 g/day
5
TRH-TSH-THYROID UNIT IS WIRED
TO DEFEND SERUM T3
(MAJOR ROLE PLAYED BY
THYROID GLAND)
Fonseca et al, JCI 2013
TANYCYTES
TRH
D2
PITUITARY
D2
Nucleus
D2
TSH
Liver
Kidney
20
D1
30 g/day
5
5
© 2013 BLab
TANYCYTES
TRH
D2
PITUITARY
D2
Nucleus
D2
TSH
Liver
Kidney
20
D1
30 g/day
5
5
HOW WELL IS SERUM T3 DEFENDED
IN THE ABSENCE OF A
FULLY FUNCTIONAL THYROID GLAND?
© 2013 BLab
TANYCYTES
TRH
D2
PITUITARY
D2
Nucleus
D2
TSH
Liver
Kidney
20
D1
30 g/day
5
5
IS SERUM T3 EVEN A THERAPEUTIC
TARGET IN HYPOTHYROID PATIENTS?
© 2013 BLab
TANYCYTES
TRH
D2
PITUITARY
D2
Nucleus
D2
TSH
Liver
Kidney
20
D1
30 g/day
5
5
CAN SERUM T3 BE MAINTAINED IN L-T4-TREATED
HYPOTHYROID PATIENTS?
© 2013 BLab
Gullo et al ; 2011
FT4
TANYCYTES
TRH
D2
PITUITARY
D2
TSH
FT3
30 g/day
5
© 2013 BLab
Gullo et al ; 2011
FT4
TANYCYTES
TRH
D2
PITUITARY
D2
TSH
FT3
30 g/day
5
Euthyroid controls (3875)
Athyrotic on l-thyroxine (1811)
5.0
FT3 (pmol/L)


  - TSH
4.5
4.0
3.5
3.0
12
data normalized for serum TSH
13
14
15
16
17
FT4 (pmol/L)
© 2013 BLab
American Thyroid Association Guidelines (2014)
Guidelines for Treatment of Hypothyroidism
Jonklaas, J. & Bianco, A.C., Bauer, A.J., Burman, K.D., Cappola, A.R., Celi,
F.S., Cooper, D.S., Kim, B.W., Peeters, R.P., Rosenthal, M.S., Sawka, A.M.
7b. Does levothyroxine therapy that returns the TSH levels of hypothyroid
patients to the reference range also result in normalization of their T3 levels?
Summary statement
Patients with hypothyroidism treated with levothyroxine to achieve normal
TSH values often have T3 concentrations that are at the lower end of the
reference range, or even below the reference range. The clinical significance
of this is unknown.
© 2013 BLab
What is the mechanism?
Werneck & Fonseca et al, JCI 2015
© 2013 BLab
Hippocampus
Cerebral Cortex
Hypothalamus
ubiquitin
GST-WSB-1
GST
+
+
+
+
+
+
-
+
+
+
+
+
+
+
+
+
+
Ub-D2
35S-D2
© 2013 BLab
© 2013 BLab
TANYCYTES
TRH
IS SUCH A SMALL DECREASE
IN SERUM T3 CLINICALLY RELEVANT?
D2
PITUITARY
D2
TSH
© 2013 BLab
TANYCYTES
TRH
D2
PITUITARY
D2
TSH
Geffner et al, JCI 1975
© 2013 BLab
TANYCYTES
TRH
D2
PITUITARY
D2
TSH
Methods
-Surgically Tx rats
-Implanted with LT4 or LT4+LT3 pellets
-Killed 7 weeks later
Results and Conclusions
1-Monotherapy results in normal serum TSH,
higher serum T4 and lower serum T3
2-Monotherapy results in brain, liver and
skeletal muscle hypothyroidism
© 2013 BLab
Rationale for combination therapy with levothyroxine and liothyronine
1. Thyroidectomized patients on monotherapy with levothyroxine normalize
serum FT4 and TSH but do not seem to normalize serum T3, maintaining
a high serum T4/T3 ratio and in some cases serum T3 levels that are
below the normal range.
However, with very few exceptions, most clinical trials failed to show any
significant advantage/benefit of combination therapy vs. monotherapy.
© 2013 BLab
American Thyroid Association Guidelines (2014)
Guidelines for Treatment of Hypothyroidism
Jonklaas, J. & Bianco, A.C., Bauer, A.J., Burman, K.D., Cappola, A.R., Celi,
F.S., Cooper, D.S., Kim, B.W., Peeters, R.P., Rosenthal, M.S., Sawka, A.M.
13a. In adults requiring thyroid hormone replacement treatment for primary
hypothyroidism, is the combination treatment including synthetic
triiodothyronine and levothyroxine superior to the use of levothyroxine
alone?
Recommendation:
There is no consistently strong evidence of superiority of combination therapy
over monotherapy with levothyroxine. Therefore, we recommend against the
routine use of combination treatment with levothyroxine and liothyronine as a
form of thyroid replacement therapy in patients with primary hypothyroidism,
based on conflicting results of benefits from randomized controlled trials
comparing this therapy to levothyroxine therapy alone and a paucity of
long-term outcome data.
© 2013 BLab
How good are the clinical trials?
Q: Does combination therapy with tablets of levothyroxine and liothyroinine
normalize plasma T3?
© 2013 BLab
How good are the clinical trials?
Twenty-four hour hormone profiles of TSH, Free T3 and free T4 in hypothyroid
patients on combined T3/T4 therapy.
Saravanan P, Siddique H, Simmons DJ, Greenwood R, Dayan CM.
Exp Clin Endocrinol Diabetes. 2007 Apr;115(4):261-7.
Methods
In this study, we have compared 24-hour profiles of thyroid stimulating hormone
(TSH), free T4 (fT4) and free T3 (fT3) and cardiovascular parameters in 10
hypothyroid patients who had been on once daily combined T3/T4 therapy for more
than 3 months with 10 patients on T4 alone.
Results and Conclusions
On T4 alone, a modest 16% rise in fT4 with no change in fT3 was seen in the
first 4-hours post-dose. In contrast, on combined treatment, fT3 levels showed a
marked rise of 42% within the first 4-hours post-dose (T3/T4:T4=6.24: 4.63 mU/L,
p<0.001). Mean exposure to fT3 calculated by area under the curve (AUC) was
higher (T3/T4:T4=1148:1062, p<0.0001) on T3. Our data suggests that despite
chronic combined T3/T4 therapy, wide peak-to-trough variation in fT3 levels persists.
© 2013 BLab
L-T3 administration modeling
1 day
Francesco Celi, NIH
© 2013 BLab
Neuron‐Astrocyte Crosstalk
Cognition
Figure 7
Juan Bernal, Ronald Lechan & Theo Visser
© 2013 BLab
D2 KO MOUSE HAS BRAIN-SPECIFIC HYPOTHYROIDISM
Galton et al, Endocrinology, 2007
© 2013 BLab
Thr92AlaD2 polymorphism Thr92Ala DIO2
Association Between a Novel Variant of the Human Type 2 Deiodinase Gene Thr92Ala and Insulin Resistance:
Evidence of Interaction With the Trp64Arg Variant of the β-3-Adrenergic Receptor
Daniela Mentuccia, Laura Proietti-Pannunzi, Keith Tanner, Vincenzo Bacci, Toni I. Pollin,
Eric T. Poehlman, Alan R. Shuldiner and Francesco S. Celi; Diabetes 2002 vol. 51 no. 3 880-883
Association of the type 2 deiodinase Thr92Ala polymorphism with type 2 diabetes: case-control study and
meta-analysis. Dora, J.M., et al., Eur J Endocrinol, 2010
Case-control study with 1057 type II diabetes patients and 516 non-diabetic subjects indicated that the homozygosity
for D2 Thr92Ala polymorphism is associated with increased risk for type II diabetes, a conclusion that was
supported by a meta-analysis including 11,033 individuals.
© 2013 BLab
Thr92AlaD2 polymorphism Bianco & Casula, ETJ 2012
© 2013 BLab
Rationale for combination therapy with levothyroxine and liothyronine
1. Thyroidectomized patients on monotherapy with levothyroxine normalize
serum FT4 and TSH but do not seem to normalize serum T3, maintaining
a high serum T4/T3 ratio and in some cases serum T3 levels that are
below the normal range.
2. Possible defects (e.g. genetic polymorphism) in the type 2 deiodinase,
which contributes with half of the total T3 in the brain and brown adipose
tissue, could result in tissue-specific hypothyroidism, explaining impaired
cognition, body weight gain, etc.
However, with very few exceptions, most clinical trials failed to show any
significant advantage/benefit of combination therapy vs. monotherapy.
© 2013 BLab
Thr92AlaD2 polymorphism Common variation in the DIO2 gene predicts baseline psychological well-being
and response to combination thyroxine plus triiodothyronine therapy in
hypothyroid patients.
Panicker V, Saravanan P, Vaidya B, Evans J, Hattersley AT, Frayling TM,
Dayan CM
J Clin Endocrinol Metab 2009;94:1623-1629
Methods:
Response to T4/T3 in 552 subjects on T4 from the Weston Area T4 T3 Study
(WATTS)
Original dose of levothyroxine minus 50ug and added 10ug of lithyronine
Primary outcome was improvement in psychological well-being assessed by the
General Health Questionnaire 12 (GHQ-12), Thyroid Specific Questionnaire
(TSQ).
Results and Conclusions:
There was a statistically significant association between the DIO2 gene
polymorphism and an improved outcome of the combination therapy vs.
monotherapy for (i) general health, (ii) thyroid specific and (iii) satisfaction
questioners.
© 2013 BLab
Ala92-D2 Homozygotes
Thr92-D2 Homozygotes
3
4
C
2
1
-Log10(p-value)
A
p=
0.05
-4
-2
1
2
4
Ala92-D2 vs. Thr92-D2 Fold
Change
Ala92-D2 Homozygotes
Thr92-D2 Homozygotes
RNU6-51
MIR4694
RNA5SP215
MIR4679-2
ACSL5
FCGR1C
RNU6-81P
ZNF705B
LINC00969
RNU7-9P
ANXA2P3
ASAH2
MIR495
YME1L1
OTTHUMG00000165902
C5orf60
HLA-A
DPCR1
OTTHUMG00000153650
HCP5
MIR1179
OTTHUMG00000014802
LOC100652931
METTL7B
MUC20
SNORA34
FSTL5
SNORD18A
OTTHUMG00000176917
PTPN20A
TERC
SNAR-F
SNORD91B
OTTHUMG00000030769
SCARNA21
ZNF813
HIST2H4B
IRF8
HIST1H4B
MIR4497
SNORD60
SNORA71D
CCL3L3
TTC9B
SNORD114-28
HNRNPA1L2
SNORA64
SNORD16
RNU5B-1
SNORA76
B
Thr92AlaD2 polymorphism CNS diseases
Growth Factor
Signaling
mTOR Signaling
EGF Signaling
PDGF Signaling
EIF2 Signaling
Insulin Receptor Signaling
NGF Signaling
VEGF Signaling
Huntington’s Disease
Signaling
CREB Signaling in Neurons
Amyloid Processing
Neuregulin Signaling
ALS Signaling
Parkinson’s Signaling
CDK5 Signaling
Apoptosis/DNA repair
P53 Signaling
DNA Break Repair
PTEN Signaling
Mechanisms of Cancer
NOTCH Signaling
Brain Pathway
Analysis
p < 0.05
Genes > 60%
Ubiquitin & ER Stress
Inflammation
Protein Ubiquitin Pathway
ER Stress Pathway
CXCR4 Signaling
Thrombin Signaling
IL-1 Signaling
Chemokine Signaling
Mitochondria
Mitochondrial Dysfunction
Oxidative Phosphorylation
NRF2-mediated Oxidative Stress
nNOS Signaling in Neurons
PKA Signaling
© 2013 BLab
Thr92AlaD2 polymorphism Thr92‐D2HY
C
B
Ala92‐D2HY
D
Thr92‐D2HY
E
F
Ala92‐D2HY
Thr92-D2HY
G
Ala92-D2HY
H
Thr92-D2HY
CHX
CHX
D2HY/Actin
A
Ala92-D2HY
J
I
Nucleus
Rough Endoplasmic Reticulum
© 2013 BLab
Thr92AlaD2 polymorphism D
Thr92-D2HY
Thr92-D2HY
Ala92-D2HY
B
D2HY
GM-130
E
C
Ala92D2HY
Ala92-D2HY
D2HY
GM-130
1.0
Circularity of Golgi
A
F
p<0.0001
0.8
0.6
0.4
0.2
0.0
Thr92-D2HY
Ala92-D2HY
© 2013 BLab
Thr92AlaD2 polymorphism A
B
D
Ala92 Thr92
5
4
3
1
2
-Log10(p-value)
6
7
Thr92 Ala92
p=
0.05
-2
C
2
1
Ala92-D2 vs. Thr92-D2 Fold
Change
MIR1244-1
PTMA
PTMA
SNORA16B
SNORD59B
LOC441081
MIR573
BST2
RNU6-83P
MIR4295
RNA5SP259
TSIX
MIR4774
RNU7-52P
OTTHUMG00000158558
SCN3A
MIR4677
HNRNPU-AS1
LOC100130976
LOC100996511
MIR3685
TMEM236
DKFZP434L187
LRLE1
LOC101060147
LOC349160
NXT2
OTTHUMG00000162672
TDP2
ATF1
COQ3
LINC00500
OTTHUMG00000163517
ADAT3
DNLZ
GREB1
MIR892A
SNAP25
RNU6-78P
ZNF284
HIST1H2BC
DDIT3
TRNAI2
GMNN
MIR4530
FAM206A
RNU5F-6P
OTTHUMG00000039859
NEAT1
SNORA42
© 2013 BLab
Relative Expression CD24/cycloA
Relative Expression CDK2/cycloA
Thr92AlaD2 polymorphism p = 0.02
2.0
1.5
1.0
0.5
0.0
Thr92-D2
Het
Ala92-D2
p = 0.05
1.5
GENES IN GENE SETS
1.0
G
0.5
0.0
Thr92-D2
Het
Ala92-D2
Thr92-D2
Ala92-D2 (Het + Hmz)
p-values
0.03
0.04
0.04
0.04
0.04
0.04
0.02
0.04
0.05
GALK1
SEMA4F
CALD1
FADS1
SLC27A2
HAO1
RPL7A
RIT1
SLIT2
COL4A3
APOL1
APOD
CELA3A
PIGZ
PIGT
PIGH
RTN4RL1
NUDT4
NFE2
OPHN1
BMPR1B
APOA2
ARAP3
ATP8B1
CARTPT
CADM1
PPARD
FOXO4
GLI2
MAP3K12
ABCG1
BNIP3
BCL2L10
MAP1S
MRPL41
MBL2
GAB1
PYDC1
NBN
AKR1C1
ENOX2
POLD1
DMC1
DDB2
GPX4
CD24
NMUR2
LDLR
MFN2
NRXN1
NPR1
GLTP
ROBO1
CYFIP1
ATP11B
IQGAP1
DAPK2
HTATIP2
AGPS
TRAF6
TYR
SOD2
TP53
AKR1C3
PRDX3
COX7B
SLC25A1
UQCRH
TOMM22
SPINK5
UQCRC1
CYP11B2
MRPL23
MRPS12
RPS6KA4
ERBB2IP
EPS8
EREG
TDGF1
1.
0
0.
5
MIR573
LINC005
HNRNPU
GLA
CCL4
DDIT3
SNORA42
SNORD61
SNORD59B
0.
0
1149
79 303
Brains
Cells
Fold
© 2013 BLab
Conclusions
• The hypothalamus‐pituitary‐thyroid axis is wired to maintain serum T3. The thyroid gland plays a major role in this process.
• Limited data available indicate that serum T3 cannot be maintained/defended in the absence of a fully functional thyroid gland. More studies are needed to define whether normalization of serum T3 and/or serum T3/T4 ratio in hypothyroid patients is clinically relevant.
• There is a need to develop a new long‐acting T3 delivery system in order to execute clinical trials testing combination vs. monotherapy; current L‐T3 tablets are not suitable. • Defects in the D2 pathway compromising T3 production could explain residual symptoms in hypothyroid patients that have normal serum TSH. The commonly observed Dio2 gene polymorphism Thr92Ala seems to have effects that are independent of T3 production; more studies are needed to define its clinical role.
© 2013 BLab
Acknowledgements
• Undergrad. Students: Jessica Freitas, Cristina Andrade
• Graduate Students:
Lattoya Lartey
• Post‐Docs: Tatiana Fonseca PhD, Sungro Jo PhD Joao Pedro Werneck PhD, Melany Castillo MD, Elizabeth McAninch MD, Sherine Abdalla MD
• Research Assistants:
Liping Dong
• Collaborators:
Balazs Gereben PhD, Ronald M. Lechan, MD PhD
Valerie Galton PhD, Donald St. Germain MD
Arturo Hernandez PhD
• Funding Agencies:
NIDDK, ATA
© 2013 BLab

T3 plus T4 Combination Therapy: Yes or No?

Transcription

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