25728___ - Radboud Repository
Transcription
25728___ - Radboud Repository
PDF hosted at the Radboud Repository of the Radboud University Nijmegen The following full text is a publisher's version. For additional information about this publication click this link. http://hdl.handle.net/2066/25728 Please be advised that this information was generated on 2015-02-02 and may be subject to change. C o p yrig h t © M anksgaard ¡997 Contact Dermatitis, 1997, 37, 19-26 Printed in Denmark . A i l rights reserved ' » I» . ~h ^ ~ V« w ------ I V * n V> • , A * I W M > » ^ ' V - • CONTACT DERMATITIS I S S N 0W5-ÌX7.1 Effect of a topical corticosteroid, a retinoid and a vitamin D3 derivative on sodium dodecyl sulphate induced skin irritation T. K. M. L e, P. de M o n , J. Schalkw ijk and P. G. M. van der Valk Department o f Dermatology, University Hospital Nijmegen, The Netherlands Exposure of the skin to sodium dodecyl sulfate (SDS) leads to disruption of barrier and skin irritation. We used repetitive short exposure to a low molarity SDS solution as an in vivo model to mimic the development o f irritant contact dermatitis. In this model, we studied clinical (erythema), functional (transepidermal water loss(TEWL)) and cell biological changes. 24 healthy volunteers were patch tested with SDS (0.2%) for 4 h a day for 5 consecutive days. After removal of the patches, the exposed sites were treated 1X daily either with a topical corticosteroid (triamcinolon acetonide cream 0.05%), a retinoid (tretinoin cream 0.025%), or a vitamin D 3 derivative (calcipotriol ointment 50 microgram/g). Irritant reactions were assessed by erythema scoring and measure ment o f barrier function with TEWL up to 14 days after the first challenge. Skin biopsies were taken for cell biological changes at day 4. Vehicle-treated sites served as controls. Repetitive ex posure of human skin to SDS resulted in a gradual increase in erythema scoring and TEWL associated with the upregulation of proliferative cells as measured by the expression of Ki-67antigen and of differentiation markers, visualized by increased expression of involucrin and epider mal-fatty-acid binding protein (E-FABP). Skin irritation as assessed by erythema scoring and TEWL was not significantly suppressed by triamcinolone cream. However, a significant reduction o f the number of cycling keratinocytes and a decrease in involucrin positive cell layers was observed in this group. Neither treatment with calcipotriol ointment nor with tretinoin cream induced im provement o f skin irritation as judged by visual scoring and TEWL. In contrast to steroid treat ment, no significant effect o f calcipotriol ointment or tretinoin cream treatment was observed with regard to the number o f cycling cells and differentiation markers. Further studies are needed to assess whether treatment with topical corticosteroids is an effective modality in skin irritation and irritant contact dermatitis. Key words: sodium dodecyl sulfate; irritant contact dermatitis; corticosteroids; retinoids; vitamin D 3 derivatives; treatment; skin irritation. © Munksgaard, 1997. Accepted for publication 18 March 1997 Irritant contact dermatitis (ICD) is characterized by mild erythema, itosis or dyskeratosis, chapping and fissures (1) and is pathogenetically thought to be the results of cumulative exposure to irritants which may be o f various origin (2). Daily exposure to these irritants cannot be standardized. To study the pathogenesis of ICD, experimental models in men are needed. In vivo models have been used to investigate the effects o f the cumula tive exposure o f human skin to sodium dodecyl sulfate (SDS) in terms of erythema, skin dryness and transepidermal water loss (TEWL) (3). Reports on cell biological changes in SDS exposed skin are scarce. Recently, we demonstrated that the development of erythema and TEWL was associated with the upregulation o f the number of cyc- ling cells and the epidermal differentiation markers (involucrin, epidermal fatty acid binding protein (E-FABP) ) in the irritant reaction single 4-h exposure to SDS (5%) (w/v) (4). An SDS concentration of 0.2% caused a significant increase TEWL any change in epidermal proliferation and different! pared to the normal skin was seen (5) A 0.2% centration of SDS was chosen in th model to avoid severe damage to the skin and mimic daily life exposure. In the model presented, we studied the time course o f the erythematous re sponse, TEWL and epidermal growth in the irritant human skin induced by repeated daily 4-h ex posures to SDS (0.2%) for 5 consecutive days. We postulate that drugs which can influence epi- LE ET AL 20 A 3.5 DSDS+ Triamcinolon© ■ SDS+Vehicle 3 QSDS 2.5 2 C H UJ 1.5 l 0.5 0 ül (12 d3 tl4 Ü5 d6 d7 dlO d 14 B 3.5 QSDS+Tretlnoln 3 ■SDS+Vehlcle □ SDS 2.5 l af 1.5 LU 1 0.5 0 dl d2 d3 d4 (15 d6 d7 d 1U d 14 c inflammatory conditions (8, 9), is downregulated to the normal levels in the steroid-treated epider mis (7). The vitamin A metabolite, retinoic-acid, is es sential to normal differentiation of many tissues including skin. Retinoic acid and synthetic retin oids are used in the treatment o f acne (10), pso riasis (11) and certain malignancies (12). Several studies in mouse and man indicate that topical re tinoic acid speeds repair of skin damage due to ultraviolet radiation (13, 14). Effects of retinoids on the epidermis include modification of keratin expression (15) and inhibition of cross-linked cornified envelope synthesis (16). Retinoids can either stimulate or inhibit cell growth (17). Vitamin D 3 derivatives are the recent therapeutic modalities in psoriasis.They are known to affect the epidermal growth. Administration of vitamin D 3 to cultured keratinocytes causes suppression of cell proliferation and enhancement of cell differen tiation (18). Vitamin D 3 derivatives can modulate inflammatory processes. When T-lymphocyte cul- 3.5 OSOS+Catcipotriol y ■SDS+Vehicle 2.5 1 T OSDS uu A K 1.5 II» 1 40 35 n M ÿ i 0.5 0 dl d2 S) SDS‘►Triamcinolone ■ SDS+Vehicle JC 30 OSDS 25 d3 d4 d5 Ü6 d7 dlO d 14 □ Normal skin 20 15 Fig. 1. Time course of erythema from day 0 to day 14. 0, no response; 1, slight, patchy redness; 2, diffuse mild redness; 3, moderate redness; 4, intense redness; 5, intense redness with edema: (A) o f the SDS-exposed skin and the triamcinolontreated group versus its vehicle; (B) of the SDS-exposed skin and the tretinoin-treated group versus its vehicle; (C) of the SDS-exposed skin and the calcipotriol-treated group versus its vehicle. 10 1 5 0 dl d2 d3 d4 d5 d7 d6 d 14 dlO B OSDS+Tretinoln ■ SDS+Vehfcle □ SDS □ Normal skin dermal growth resulting in the improvement of the skin barrier function, may be effective in the treat ment of ICD. Topical steroid, retinoic acid and vit amin D 3 derivative are the therapeutic modalities used in dermatology to modulate epidermal growth and differentiation. They are often used in treatment of inflammatory skin disorder like pso riasis. Whether they can improve the disruption of skin barrier and irritation by irritants is not known. Topical corticosteroids are frequently used in ICD (6) due to their anti-inflammatory effects. A previous study demonstrated a reduction o f mitotic activity of the keratinocytes in psoriatic lesions associated with clinical improvement after treatment by topical steroid (7). Furthermore, the expression of skin-derived antileukoproteinase (SKALP), an elastase inhibitor which is induced in ■ SOS+Calclpatrlol ■ SDS+Vehicle Ü SDS a Normal skin 10 5 V | V ', I 0 r, !•: dl d2 d3 d4 as d6 JV.Vl ï." I V; j : ': : '.I ' d7 dl° dl4 Fig. 2. Time course of transepidermal water loss (TEWL) from day 0 to day 14: (A) o f the SDS-exposed skin and the triamcinolon-treated group versus its vehicle; (B) o f the SDS-exposed skin and the tretinoin-treated group versus its vehicle; (C) o f the SDS-exposed skin and the calcipotriol-treated group versus its vehicle. EFFECTS ON SDS-INDUCED SKIN IRRITATION '■à . titmatmL'.- -f ■■of . ■ :-V: ' Sv^Kï Fig. 3. H&E sections showing the difference between the triamcinolon-treated group versus its vehicle with respect to acanthosis, hypergranulosis and perivascular infiltrate. (A) with triamcinolon treated; (B) with vehicle treated. tures were incubated with la,25-(OH)2-D3, pro liferation o f T-lymphocytes was reduced (19). Calcipotriol is the first vitamin D 3-derivative registered in several European countries. Calcipotriol entiation o f epidermal cells, resulting in improvement of psoriatic skin lesions (20, 21). A side-elTect of psoriasis treatment with topical calcipotriol is skin irritation. A study o f Serup et al. (22) demon strated that calcipotriol ointment was a mild irri tant of the non-corrosive type, i.e., with no influ ence on the skin barrier. The irritant effect of calci potriol ointment was also noted in some clinical studies (23, 24). The vehicle o f calcipotriol ointin part responsible for ment may be at skin irritation. In this study, we examined the effects of a topicetonide 0.05% cream), a retinoid (tretinoin 0.025% cream) and a vitamin D} derivative (calcipotriol ointment) in irritant reactions induced by repeated exposures of the skin to SDS. The effects were studied clinically (erythema), functionally (TEWL) and immunohistochemically using markers of epidermal growth, known as Ki-67 antigen, present in cycling cells: involucrin and E-FABP, two terminal differ entiation markers (25-27); skin-derived-anti leukoproteinase (SKALP) and cytokeratin 16, two molecules associated with hyperproliferation and inflammation (8, 28) Materials and Methods 24 healthy volunteers with no history of skin diseases (14 male, 10 female, mean age 31, ranging from 19 to 57 years) participated in the study, After approval of Medical Ethic Committee, informed consent was obtained from all subjects, 200 //I of SDS (0.2%) (w/v), pipetted on the patches consisting o f a 1.5 cm piece of absorbent, non2 on a 4 cm wove n , which was daily fixed at the same site with tape (Fixomull® stretch, Beiersdorf AG, Hamburg) to the back of the subjects for 4 h for 5 consecutive days, from day 0 to day 4. After re moval of the patches, 0.5 cm of the cream or ointment (about 0.35 0.40 g) was applied daily over the area of previously SDS-exposed skin, dried at room temperature for 30 min. The cream or ointment was applied for 7 consecutive days. The following formulations were used: (i) triamcinolon acetonide (0.05%) cream; (11 ) tretinoin (0.025%) cream; (iii) vehicle of triamcinolone and tretinoin cream consisted of cetomacrogol cream; (iv) calcipotriol ointment (Daivonex®, Leo, Danmark); (v) vehicle of calcipotriol ointment. 99 LE ET AL. scoring and transepidermal water loss (T E W L ) measurements Number of cycling cells/mm A 300 250 Visual grading and TEWL were assessed at: day 1 to day 7, day 10 and day 14. TEWL was measured with a Tewameter™ 210 (Courage & Khazaka, Cologne), according to standard guidelines (29). Room temperature varied from 20°C to 25°C and relative humidity from 40% to 60%. Clinical scor ing (erythema) was graded visually: 0, no response; 1, slight, patchy redness; 2, diffuse mild redness; 3, moderate redness; 4, intense redness; 5, intense redness with edema. 200 150 100 50 s•/.;•;<,:.' ;•/Isss«*,VI^i;'/ >V^ J W - s'• day*! day2 Involucrin expression B 60 ©SDS+Tretlnoln 50 SSDS+Vahlcle OSDS A 0 30 Biopsy procedures 2Q A total o f 40 punch biopsies (3 mm diameter) were taken: 16 biopsies at day 2 to examine the histology of the triamcinolon-treated group, the tretinoin-treated group, the vehicle-treated group I 10 0 day4 day2 E-FABP expression c ro 60 Number of cycling cells/mm A 50 @SDS+Tretinoin BSDS+Vehicle □ SOS 40 300 jgSDS+Triamcmolone 250 30 GSlSDS+Vehlcle 20 a sas 200 10 150 0 day2 too Fig. 5. Immunohistochemical stainings o f the tretinoin -treated group versus its vehicle. The results of (B) and (C) are expressed as a % o f the positive stained-cell layers of the total epidermal cell layers. The values are mean±SEM: (A) number o f prolifer ative cells per mm length section; (B) involucrin expression; (C) E-FABP expression. 50 0 day2 day4 involucrin expression B day4 60 ISJSDS^Trfflmdnolone SO 0 SDS+Vöhicle OSDS and the SDS-exposed group; 24 biopsies at day 4 for these 4 groups and the calcipotriol-treated group and its vehicle. Thus, 4 biopsies per treat ment/per timepoint. After 4 h fixation in form alin, the samples were embedded in paraffin, and sectioned at 6 pm for immunohistochemical staining. 30 20 I 10 day4 day2 E-FABP expression c 70 V— . ‘ • -'ä - w , V - a n r t i 1 ¡ i — i*~ — i | ij © S OS +Tnnmcinolona ao ©SDS+Vehiclû so OSDS Immunohistochemical methods AO 30 20 10 ''Vr :r'\ ;f;::!.Vf.r y,V;ò Ì-y-v: . • ( I* r ! • V î i ^ : *> / : V * f [: **.• V .• ' ' ï ; C y : V r- r v 0 day 2 .V r ;•. f1 îv ^ . 'ss s ^ day4 Fig, 4. Immunohistochemical stainings of the jriamcinolon_ . (Q expressed as a % of the positive stained-cell layers of the total epidermal cell layers. The values are mean±SEM: (A) number o f proliferative cells per mm length section; (B) involucrin ex pression; (C) E-FABP expression. The biopsies were stained with the following antibodies according to standard procedures, deies (4): (i) MIB-1 (ImmuA. Marseilles Ki-67 antigen on formalin material; (ii) M ON-150. which volucrin, a structural precursor protein for the formation of the cornified envelope, is described and prepared previously (30); (iii) Anti E-FABP, rabbit antiserum mal d binding pro te which is associ- EFFECTS ON SDS-INDUCED SKIN IRRITATION ated with terminal •entiation (kindly provided by Siegenthaler (26, 27); (iv) Anti SKALP/ elafin, a polyclonal antiserum directed against recombinant SKALP/elafin is prepared as we described previously (8, 9); (v) Ks8.12 (Sigma, St Louis, MO, USA) was used to detect cytokeratin 16 which is expressed in suprabasal layers in the hyperproliferative tissues (28); (vi) H&E accord ing to Mayer. nim length of section. The expression o f involucrin and E-FABP was similarly scored: at a representative interpapillary area, the ratio o f positively stained cell layers and the total number of cell layers, were calculated. The Student /-test and the Wilcoxon test were used when appropriate. His to Iogi cal exam in a ti on We quantified the number proliferative cells by counting the number of M IB-1-positive nuclei per A Number of cycling colls/mm 200 150 100 50 H istology and immunohistochemistry 0 H & E staining. The exposed skin of day 4 showed day 4 B Involucrin expression 60 QSDS+Calcjpolrlol 0 S D S + Vehicle 50 40 30 20 10 0 day4 E-FABP expression C 00 □ SDS+Calclpotriol ■ SDS+Vehlcle 40 30 20 10 0 Clinical grading and TEWL measurements Repetitive exposure of human skin to SDS (0.2%) induced an increase in erythematous reaction (Fig. 1) and in TEWL measurement (Fig. 2), enhancing in intensity up to day 4, then gradually decreasing to day 14. No significant difference in erythema or in TEWL was found between the triamcinolon acetonide, tretinoin or calcipotriol treated groups versus their vehicles. 250 50 Results s . ' S ; ;r-'i/> :•'. ^ />»•::■.•:-va-;; •r.<><;.->:r»y;^! ' o.v: Al•^ y:•■i* >v*vv.<- ?s »*/fa>^ìUh. 'f.<\\S day4 Fig. 6. immunohistochemical stainings of the calcipotrioltreated group versus its vehicle. The results of (B) and (C) are expressed as a % of the positive stained-cell layers o f the total epidermal cell layers. The values are m ean±SEM : (A) number of proliferative cells per mm length section; (B) involucrin ex pression; (C) E-FABP expression. mild to moderate parakeratosis, hypergranulosis, acanthosis, exocytosis and moderate perivascular infiltrate composed of mostly mononuclear cells and some eosinophils. The sections of the triamci nolon acetonide cream treated skin demonstrated a slightly milder perivascular infiltrate, less para keratosis and less acanthosis as compared to its vehicle (Fig. 3). No difference between the tretinoin- or calcipotriol-treated skin and their vehicles was observed with respect to hypergranulosis, pa rakeratosis, spongiosis, acanthosis and perivas cular infiltrate. proliferation. The response of un treated skin, repetitively exposed to SDS, was characterized by an increase in the number of M IB-1-positive nuclei from 78±22 per mm a maximum of 180±50 (mean 4 after stimulation. The number of proliferative cells o f all groups was also enhanced up to day 4. A mar cu it (/;==().02) in number of cycling cells/mm (72±14) of the tri amcinolon acetonide treated sections was ob served as compared to the other exposed sites (Fig 4a). No significant difference in the number of cycling cells/mm between the tretinoin- or calcipotriol-treated groups versus that with their vehides, was seen (Figs. 5a, 6a). Epidermal differentiation. To study the effect o f the verum drugs on epidermal differentiation in our model, we investigated the expression of invol- < ì . . ■ .-..lìK ;.. V • * • * .1 ' * • : • * ,: • I ' rii. ,(?-■; ;-l>' '-‘'■'■l''--'-'7l> 'VVi ■ » Cl-'. :*£;; r ^ f è . >•V. I. :-yy. 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Sm. , m m:- 'Y' • 'i r < Viftl I ¡11 *-ep*i* •i"« lip p fx$-, !% k i -i .■■.■■ :#Ìvì: V,i ìi M - ?jSX ■i:»f Hj L / •^ : Sii'v' fvK :3- r •■■-’■ • ’ f . .-Vi, V-;U ;>.. *£■• fj-7 Ir-; *' ♦ i. -'s f >>" ■> •v.ì . <\. jÌ ^ \ .. ■■■ ^ 4. '• 'ì k » i,; /.vji'r P fcnf ■ ' It1 sff* .»*■ ¥ ■ . .tèfiK ■ ■ ■-r’ì! \n- -s>.> ■ ■r.u. iiiis- ili" ?w ¿'f- is !' m . ^ ¿ * « k-;::' ,i ' •>r * •"•**' i ’T ' - ^r-:'r->| » a ■■■#% ìì . 1'. - % #% t..fi :^#S* ' ^ /: ':% ' ' !;^s i PI- I Si * 'i I5*». %^ >?&:ìv ¡* % ■•:,■- f e p r - :,§■>. : ,;• ''% .W .“••= . : if 4-V.. • :'^i >ì « ^ . //•'.* .£ • '■'t',:, V ,.ÌJ-:.:^'V'I'. *•* .... • ?• ' ■; ft r/.-: ^ - ìu .'i-. 1 i' vSv 'ru H •'i#^ .¡¿tr •iM. ÌMf'# ■A Fig. 7. Histological series demonstrating the difference in the number of cycling cells/mm (A and B) and in the involucrin e x p r e s s io n {A, C) with trimacinolon treated. (B, D) with vehicle tr e a te d . respectively. ucrin and E-FABP. Repetitive application of SDS caused an increase in the expression of involucrin, and an increase in the expression in E-FABP. At day 4, a small decrease in involucrin expression of borderline significance 09=0.09) and a non-sig nificant decrease in E-FABP expression (/;=0.25), were found in the triamcinolon acetonide-treated group versus its vehicle (Fig. 4b, c). There was no difference in the expression of involucrin and E- shown). EFFECTS ON SDS-INDUCED SKIN IRRITATION expression o f the triamcinolone-treated group versus its vehicle are illustrated in Fig. 7. Discussion The induction of irritant reactions by repetitive exposure to SDS and the repair with or without treatment were studied using visual scoring, TEWL and markers of epidermal proliferation and differentiation. Repetitive exposure to SDS causes an increase in erythema and in TEWL to a maximum at day 4, then gradually decreases up to day 14 after the first challenge. The repetitive exposure to SDS not only induced histological changes to the epidermal cell compartment (parakeratosis, perivascular mononuclear infiltrates) but also upregulated the expression o f markers of epidermal differentiation and proliferation, corresponding to a hyperproliferative skin. Treatment of skin irritation by triamcinolon acetonide, retinoic acid or calcipotriol did not improve the clinical scores in this model. Neither significant de crease in erythema scoring nor decrease in TEWL was observed. In contrast to this clinical finding, we found a statistically significant reduction of the number of cycling cells in the triamcinolonetreated skin sites versus the other exposed sites. In addition, the expression of involucrin and E-FABP was also downregulated in the triamcinolontreated skin as compared to that treated with its vehicle. The fact that triamcinolone acetonide cream in duces a reduction of cycling cells may indicate that triamcinolon acetonide cream causes less irritation or delays repair. In contrast to other studies (31, 32) in which topical steroids are believed to be diminish the erythematous response of SDS ex posed skin, we could neither demonstrate this ef fect in this model nor in a previous work (33). Treatment with retinoic acid did not lead to any change in visual scoring, TEWL and modulation of the epidermal response to SDS, as compared to its vehicle. Adding retinoic acid to keratinocytes in vitro reduces transglutaminase activity and consequently may inhibit terminal srentiation and concomitant cor envelope formation (34). Retinoic acid can induce epidermal hyperprolifer ation and increase in transglutaminase immunoreactivity when applied topically for 4 months to photoaged human skin (35). Furthermore, retinoic acid can increase the expression of transglutamina se, loricrin, involucrin, filaggrin when applied to normal human skin for 4 days under occlusion (36). Here, we found no alterations in involucrinand E-FABP-expression at the tretinoin-treated sites. The exact mechanism of retinoic acid in the SDS-induced skin irritation remains unknown. 25 Mn Calcipotriol did not lead to modulation o f the epidermal response after exposure to SDS with the exception of an increase in TEWL. This may be due to its vehicle, which is known to be irritant. At day 5 after challenge, a small, non-significant increase (/?=0.18) in TEWL of the vehicle of calcipotriol-treated sites versus the SDS exposed sites was found. In our present study, repetitive exposure to SDS for 5 days induced an increase in number of cycling cells and the expression of involucrin and E-FABP. Treatment with retinoic acid or calcipotriol in this irritant skin did not show any alteration with respect to these parameters. Topical steroids may influence irritant reactions. Skin may deal with repetitive irritant stimuli with adaptation, regeneration or disease (irritant contact dermatitis). Intervention may influence the inflammatory response (7) and consequently may prevent tissue damage as caused by the inflammation, but may also hamper repair processes by its anti-mitotic activity. Therefore, it cannot be concluded from our data that topical steroids are beneficial to the skin. Single exposure tests are inadequate for prediction o f the effect of treatment modalities. Cumulative exposure models or clinical studies with standardized exposure are needed. References 1. Frosch P J, Rycroft R J G, Menne T, Frosch P J (eds). Textbook o f contact dermatitis, 2nd edition. Berlin, Heidel berg: Springer-Verlag, 1995: 28.61. Malten K E. Thoughts on irritant contact dermatitis. 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Cancer Res 1986: 46: 2356-2361. Rosenthal D S, Roop D R, Huff C A, Weiss J S, Ellis C N, Hamilton T, Voorhees J J, Yuspa S H. Changes in photo-aged human skin following topical application o f all-trans retinoic acid. J Invest Dermatol 1990: 95: 510-515. Rosenthal D S, Griffiths C E, Yuspa S H, Roop D R, Voorhees J J. Acute or chronic topical retinoic acid treat ment o f human skin in vivo alters the expression o f epider mal transglutaminase, loricrin, involucrin, filaggrin, and keratins 6 and 13 but not keratins 1, 10, and 14. J Invest Dermatol 1992: 98: 343-350 (E: 1992: 99: 145). Address: T.K.M. Le P. O. Box 9101 6500 HB Nijmegen The Netherlands