Repeated short climatic change affects the epidermal differentiation program and leads to matrix remodeling in a human organotypic skin model

Repeated short climatic change affects the epidermal differentiation program and leads to matrix remodeling in a human organotypic skin model

Laetitia-Barbollat Boutrand,1 Amélie Thépot,2 Charlotte Muther,3 Aurélie Boher,2 Julie Robic,4 Christelle Guéré,4 Katell Vié,4 Odile Damour,5 Jérôme Lamartine1,3 1Departement de Biologie, Université Cla...

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Main Authors: Boutrand LB, Thépot A, Muther C, Boher A, Robic J, Guéré C, Vié K, Damour O, Lamartine J
Format: Article
Language:English
Published: Dove Medical Press 2017-02-01
Series:Clinical, Cosmetic and Investigational Dermatology
Subjects:
skin
organotypic tissue
climatic changes
transcriptome
collagen.
Online Access:https://www.dovepress.com/repeated-short-climatic-change-affects-the-epidermal-differentiation-p-peer-reviewed-article-CCID
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spelling doaj-2e8deb545e914479a976cbf51b6fedad2020-11-24T23:43:14ZengDove Medical PressClinical, Cosmetic and Investigational Dermatology1178-70152017-02-01Volume 10435031270Repeated short climatic change affects the epidermal differentiation program and leads to matrix remodeling in a human organotypic skin modelBoutrand LBThépot AMuther CBoher ARobic JGuéré CVié KDamour OLamartine JLaetitia-Barbollat Boutrand,1 Amélie Thépot,2 Charlotte Muther,3 Aurélie Boher,2 Julie Robic,4 Christelle Guéré,4 Katell Vié,4 Odile Damour,5 Jérôme Lamartine1,3 1Departement de Biologie, Université Claude Bernard Lyon I, 2LabSkinCreations, 3CNRS UMR5305, Laboratoire de Biologie Tissulaire et d’Ingénierie Thérapeutique (LBTI), Lyon, 4Laboratoires Clarins, Cergy-Pontoise, 5Banque de Tissus et Cellules, Hospices Civiles de Lyon, Lyon, France Abstract: Human skin is subject to frequent changes in ambient temperature and humidity and needs to cope with these environmental modifications. To decipher the molecular response of human skin to repeated climatic change, a versatile model of skin equivalent subject to “hot–wet” (40°C, 80% relative humidity [RH]) or “cold–dry” (10°C, 40% RH) climatic stress repeated daily was used. To obtain an exhaustive view of the molecular mechanisms elicited by climatic change, large-scale gene expression DNA microarray analysis was performed and modulated function was determined by bioinformatic annotation. This analysis revealed several functions, including epidermal differentiation and extracellular matrix, impacted by repeated variations in climatic conditions. Some of these molecular changes were confirmed by histological examination and protein expression. Both treatments (hot–wet and cold–dry) reduced the expression of genes encoding collagens, laminin, and proteoglycans, suggesting a profound remodeling of the extracellular matrix. Strong induction of the entire family of late cornified envelope genes after cold–dry exposure, confirmed at protein level, was also observed. These changes correlated with an increase in epidermal differentiation markers such as corneodesmosin and a thickening of the stratum corneum, indicating possible implementation of defense mechanisms against dehydration. This study for the first time reveals the complex pattern of molecular response allowing adaption of human skin to repeated change in its climatic environment. Keywords: skin, organotypic tissue, climatic changes, transcriptome, collagen https://www.dovepress.com/repeated-short-climatic-change-affects-the-epidermal-differentiation-p-peer-reviewed-article-CCIDskinorganotypic tissueclimatic changestranscriptomecollagen.
collection DOAJ
language English
format Article
sources DOAJ
author Boutrand LB
Thépot A
Muther C
Boher A
Robic J
Guéré C
Vié K
Damour O
Lamartine J
spellingShingle Boutrand LB
Thépot A
Muther C
Boher A
Robic J
Guéré C
Vié K
Damour O
Lamartine J
Repeated short climatic change affects the epidermal differentiation program and leads to matrix remodeling in a human organotypic skin model
Clinical, Cosmetic and Investigational Dermatology
skin
organotypic tissue
climatic changes
transcriptome
collagen.
author_facet Boutrand LB
Thépot A
Muther C
Boher A
Robic J
Guéré C
Vié K
Damour O
Lamartine J
author_sort Boutrand LB
title Repeated short climatic change affects the epidermal differentiation program and leads to matrix remodeling in a human organotypic skin model
title_short Repeated short climatic change affects the epidermal differentiation program and leads to matrix remodeling in a human organotypic skin model
title_full Repeated short climatic change affects the epidermal differentiation program and leads to matrix remodeling in a human organotypic skin model
title_fullStr Repeated short climatic change affects the epidermal differentiation program and leads to matrix remodeling in a human organotypic skin model
title_full_unstemmed Repeated short climatic change affects the epidermal differentiation program and leads to matrix remodeling in a human organotypic skin model
title_sort repeated short climatic change affects the epidermal differentiation program and leads to matrix remodeling in a human organotypic skin model
publisher Dove Medical Press
series Clinical, Cosmetic and Investigational Dermatology
issn 1178-7015
publishDate 2017-02-01
description Laetitia-Barbollat Boutrand,1 Amélie Thépot,2 Charlotte Muther,3 Aurélie Boher,2 Julie Robic,4 Christelle Guéré,4 Katell Vié,4 Odile Damour,5 Jérôme Lamartine1,3 1Departement de Biologie, Université Claude Bernard Lyon I, 2LabSkinCreations, 3CNRS UMR5305, Laboratoire de Biologie Tissulaire et d’Ingénierie Thérapeutique (LBTI), Lyon, 4Laboratoires Clarins, Cergy-Pontoise, 5Banque de Tissus et Cellules, Hospices Civiles de Lyon, Lyon, France Abstract: Human skin is subject to frequent changes in ambient temperature and humidity and needs to cope with these environmental modifications. To decipher the molecular response of human skin to repeated climatic change, a versatile model of skin equivalent subject to “hot–wet” (40°C, 80% relative humidity [RH]) or “cold–dry” (10°C, 40% RH) climatic stress repeated daily was used. To obtain an exhaustive view of the molecular mechanisms elicited by climatic change, large-scale gene expression DNA microarray analysis was performed and modulated function was determined by bioinformatic annotation. This analysis revealed several functions, including epidermal differentiation and extracellular matrix, impacted by repeated variations in climatic conditions. Some of these molecular changes were confirmed by histological examination and protein expression. Both treatments (hot–wet and cold–dry) reduced the expression of genes encoding collagens, laminin, and proteoglycans, suggesting a profound remodeling of the extracellular matrix. Strong induction of the entire family of late cornified envelope genes after cold–dry exposure, confirmed at protein level, was also observed. These changes correlated with an increase in epidermal differentiation markers such as corneodesmosin and a thickening of the stratum corneum, indicating possible implementation of defense mechanisms against dehydration. This study for the first time reveals the complex pattern of molecular response allowing adaption of human skin to repeated change in its climatic environment. Keywords: skin, organotypic tissue, climatic changes, transcriptome, collagen 
topic skin
organotypic tissue
climatic changes
transcriptome
collagen.
url https://www.dovepress.com/repeated-short-climatic-change-affects-the-epidermal-differentiation-p-peer-reviewed-article-CCID
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