Keratinocyte‐derived IL‐1β induces PPARG downregulation and PPARD upregulation in human reconstructed epidermis following barrier impairment

Peroxisome proliferator‐activated receptors (PPARs) are a family of nuclear hormone receptors. In skin, PPARs modulate inflammation, lipid synthesis, keratinocyte differentiation and proliferation and thus are important for skin barrier homeostasis. Accordingly, PPAR expression is altered in various...

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Veröffentlicht in:	Experimental dermatology 2021-09, Vol.30 (9), p.1298-1308
Hauptverfasser:	Blunder, Stefan, Krimbacher, Thomas, Moosbrugger‐Martinz, Verena, Gruber, Robert, Schmuth, Matthias, Dubrac, Sandrine
Format:	Artikel
Sprache:	eng
Schlagworte:	Acetone Atopic dermatitis Cells, Cultured Dermatology Down-Regulation epidermal barrier function Epidermis Epidermis - metabolism Homeostasis human epidermal equivalents Humans Interleukin-1beta - metabolism keratinocytes Keratinocytes - metabolism Life Sciences & Biomedicine nuclear hormone receptor Nuclear receptors Peroxisome proliferator-activated receptors Peroxisome Proliferator-Activated Receptors - metabolism PPAR Psoriasis Regular Science & Technology Skin Skin diseases Skin Diseases - metabolism Thymic stromal lymphopoietin Tumor necrosis factor-α Up-Regulation
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creator	Blunder, Stefan Krimbacher, Thomas Moosbrugger‐Martinz, Verena Gruber, Robert Schmuth, Matthias Dubrac, Sandrine
description	Peroxisome proliferator‐activated receptors (PPARs) are a family of nuclear hormone receptors. In skin, PPARs modulate inflammation, lipid synthesis, keratinocyte differentiation and proliferation and thus are important for skin barrier homeostasis. Accordingly, PPAR expression is altered in various skin conditions that entail epidermal barrier impairment, that is atopic dermatitis (AD) and psoriasis. Using human epidermal equivalents (HEEs), we established models of acute epidermal barrier impairment devoid of immune cells. We assessed PPAR and cytokine expression after barrier perturbation and examined effects of keratinocyte‐derived cytokines on PPAR expression. We show that acetone or SDS treatment causes graded impairment of epidermal barrier function. Furthermore, we demonstrate that besides IL‐1β and TNFα, IL‐33 and TSLP are highly relevant markers for acute epidermal barrier impairment. Both SDS‐ and acetone‐mediated epidermal barrier impairment reduce PPARG expression levels, whereas only SDS enhances PPARD expression. In line with findings in IL‐1β and TNFα‐treated HEEs, abrogation of IL‐1 signalling restores PPARG expression and limits the increase of PPARD expression in SDS‐induced epidermal barrier impairment. Thus, following epidermal barrier perturbation, keratinocyte‐derived IL‐1β and partly TNFα modulate PPARG and PPARD expression. These results emphasize a role for PPARγ and PPARβ/δ in acute epidermal barrier impairment with possible implications for diseases such as AD and psoriasis.
doi_str_mv	10.1111/exd.14323
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In line with findings in IL‐1β and TNFα‐treated HEEs, abrogation of IL‐1 signalling restores PPARG expression and limits the increase of PPARD expression in SDS‐induced epidermal barrier impairment. Thus, following epidermal barrier perturbation, keratinocyte‐derived IL‐1β and partly TNFα modulate PPARG and PPARD expression. 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subjects	Acetone Atopic dermatitis Cells, Cultured Dermatology Down-Regulation epidermal barrier function Epidermis Epidermis - metabolism Homeostasis human epidermal equivalents Humans Interleukin-1beta - metabolism keratinocytes Keratinocytes - metabolism Life Sciences & Biomedicine nuclear hormone receptor Nuclear receptors Peroxisome proliferator-activated receptors Peroxisome Proliferator-Activated Receptors - metabolism PPAR Psoriasis Regular Science & Technology Skin Skin diseases Skin Diseases - metabolism Thymic stromal lymphopoietin Tumor necrosis factor-α Up-Regulation
title	Keratinocyte‐derived IL‐1β induces PPARG downregulation and PPARD upregulation in human reconstructed epidermis following barrier impairment
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