CHAPTER 8. Collagen Damage Induced by Chronic Exposure to Sunlight

Comprehensive Series in Photochemical & Photobiological Sciences Pub Date : 2019-08-06 DOI:10.1039/9781788015981-00195

L. Rittié

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Abstract

Because of its lack of a protective fur, human skin is readily susceptible to external elements, including ultraviolet radiations from sunlight. In fair-skinned and mildly pigmented individuals, ultraviolet radiations have severe damaging effects: they are responsible for premature aging of the skin (photoaging) and for tumorigenesis. This chapter details our current knowledge of how ultraviolet radiations affect the dermis (the nutritional and supportive layer of the skin) and, particularly, its collagen network. Dermal collagen provides strength and resiliency to the skin and is an important substrate for cell migration during wound repair. Altered collagen structure is a hallmark of aged dermis that can no longer exert its supportive function. Here, we review the molecular mechanisms by which ultraviolet light-induced signaling cascades transiently affect collagen homeostasis, we detail our understanding of how repeated exposure to sunlight leads to a sustained presence of damaged collagen fibers, and we explain why photoaging should be viewed as a self-sustained process. In all, we highlight many molecular targets to be considered by scientists aiming to restore the structure and function of photoaged skin.

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第八章。长期暴露在阳光下导致的胶原蛋白损伤

由于缺乏保护性的皮毛，人类的皮肤很容易受到外界因素的影响，包括来自阳光的紫外线辐射。在皮肤白皙和轻度色素沉着的个体中，紫外线辐射具有严重的破坏性影响:它们是皮肤过早老化(光老化)和肿瘤发生的原因。本章详细介绍了我们目前对紫外线辐射如何影响真皮层(皮肤的营养和支持层)，特别是其胶原蛋白网络的了解。真皮胶原蛋白为皮肤提供强度和弹性，是伤口修复过程中细胞迁移的重要基质。胶原蛋白结构的改变是真皮老化的标志，不能再发挥其支持功能。在这里，我们回顾了紫外线诱导的信号级联反应瞬间影响胶原稳态的分子机制，详细介绍了我们对反复暴露在阳光下导致胶原纤维持续受损的理解，并解释了为什么光老化应被视为一个自我维持的过程。总之，我们强调了许多分子目标，科学家们要考虑的目标是恢复光老化皮肤的结构和功能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Comprehensive Series in Photochemical & Photobiological Sciences

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