Issue |
Med Sci (Paris)
Volume 22, Number 2, Février 2006
|
|
---|---|---|
Page(s) | 172 - 177 | |
Section | M/S revues | |
DOI | https://doi.org/10.1051/medsci/2006222172 | |
Published online | 15 February 2006 |
Comment modéliser les événements de la fibrose cutanée ?
Models for skin fibrosis study: how to mimic skin fibrosis ?
1
UPRES EA27-10, Institut de radioprotection et de sûreté nucléaire, Institut Gustave-Roussy, 39, rue Camille Desmoulins, 94800 Villejuif, France
2
LRPAT/SRBE, Institut de radioprotection et de sûreté nucléaire, 92262 Fontenay-aux-Roses Cedex, France
3
Inserm U.697, Pavillon Bazin, Hôpital Saint-Louis, 1, avenue Claude Vellefaux, 75010 Paris, France
*
alain.mauviel@stlouis.inserm.fr
Classiquement, les fibroses cutanées sont considérées comme l’étape ultime d’un processus inflammatoire chronique et persistant, qui pérennise l’hyperplasie et la différenciation fibroblastique ainsi que l’accumulation de matrice extracellulaire. Le retentissement clinique de ces fibroses s’exprime tant au niveau esthétique que fonctionnel, et se révèle d’autant plus problématique qu’il n’existe à ce jour ni régression spontanée, ni thérapeutique antifibrosante efficace et sûre. Le développement et le maintien de la fibrose cutanée impliquent les différents composants cellulaires de la peau ainsi que plusieurs médiateurs paracrines, qui activent différentes voies de signalisation intracellulaires : ce réseau d’interaction est complexe et difficile à modéliser. Cette revue présente les modèles cellulaires et expérimentaux permettant de modéliser la fibrose cutanée, et expose leurs apports dans la compréhension des mécanismes physiopathologiques de fibrogenèse cutanée. Ces modèles constituent des outils performants pour tester de nouvelles hypothèses mécanistiques et thérapeutiques.
Abstract
Skin fibrosis is classically seen as the consequence of chronic inflammation and altered healing response that is characterized by the differentiation of fibroblasts into secretory myofibroblasts and accumulation of connective tissue. Although fibrosis severely affects organ function and causes esthetic defects, no effective therapy is currently available to attenuate the fibrogenic process probably because the fibrogenic process is more complex than previously thought. Indeed, it might involve several interacting and mutually dependent cell types (fibroblasts, keratinocytes, endothelial cells, inflammatory cells), numerous paracrine factors, bio-active molecules and micro-environmental stimuli (growth factors, vasoactive peptides, balance between pro- and antiinflammatory cytokines, coagulation system, reactive oxygen species, extracellular matrix…). In this perspective, the traditional approach that model individual cell response in simple cell culture system is probably inadequate and too simplistic. This article reviews the new models used to study skin fibrosis in vitro, in organotypic culture systems and in vivo and examines how these different models might be used to identify new molecular pathways involved in fibrogenesis. The monolayer cultures allow the study of fibrogenic signals induced by a single factor on a single cell type. Isolation of cells from fibrotic tissue allows to define the fibrogenic differentiation acquired in vivo. The organotypic models allow cell to cell and cell to matrix interaction and the experimental models in pigs and mice allowed studies in integrated physiological systems. These various and complementary models would also provide new tools to develop and test new drugs and treatments.
© 2006 médecine/sciences - Inserm / SRMS
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