ATG5 介导的角质细胞铁蛋白沉积促进巨噬细胞 M1 极化,从而加重紫外线诱导的皮肤炎症

IF 3.9 2区 生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Ta Xiao , Jinfeng Liang , Min Li , Yiming Guo , Sihan Chen , Yangying Ke , Xiang Gao , Heng Gu , Xu Chen
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引用次数: 0

摘要

自噬参与调控铁变态反应。在众多自噬相关基因(ATGs)中,ATG5在铁变态反应中起着关键作用。然而,ATG5介导的铁突变如何在紫外线诱导的皮肤炎症中发挥作用仍不清楚。在这项研究中,我们发现在暴露于阳光下的人体皮肤组织中,核心铁氧化酶抑制剂 GPX4 显著减少。我们报告说,在小鼠角质形成细胞中缺失 ATG5 能有效防止紫外线诱导的角质形成细胞铁氧化和皮肤炎症。从机理上讲,ATG5 可促进暴露于紫外线的角质形成细胞中 GPX4 的自噬依赖性降解,从而导致紫外线诱导的角质形成细胞铁蛋白沉积。此外,我们还发现,嗜铁角质细胞分泌的 IFN-γ 促进了巨噬细胞的 M1 极化,从而导致紫外线诱导的皮肤炎症加剧。总之,我们的数据表明,ATG5 会加剧 UVB 诱导的表皮角质细胞铁嗜酸性化,进而引起 IFN-γ 的分泌和 M1 极化。我们的研究提供了新的证据,证明以 ATG5 为靶点可作为一种潜在的治疗策略,用于改善紫外线引起的皮肤损伤。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
ATG5-mediated keratinocyte ferroptosis promotes M1 polarization of macrophages to aggravate UVB-induced skin inflammation

Autophagy participates in the regulation of ferroptosis. Among numerous autophagy-related genes (ATGs), ATG5 plays a pivotal role in ferroptosis. However, how ATG5-mediated ferroptosis functions in UVB-induced skin inflammation is still unclear. In this study, we unveil that the core ferroptosis inhibitor GPX4 is significantly decreased in human skin tissue exposed to sunlight. We report that ATG5 deletion in mouse keratinocytes strongly protects against UVB-induced keratinocyte ferroptosis and skin inflammation. Mechanistically, ATG5 promotes the autophagy-dependent degradation of GPX4 in UVB-exposed keratinocytes, which leads to UVB-induced keratinocyte ferroptosis. Furthermore, we find that IFN-γ secreted by ferroptotic keratinocytes facilitates the M1 polarization of macrophages, which results in the exacerbation of UVB-induced skin inflammation. Together, our data indicate that ATG5 exacerbates UVB-induced keratinocyte ferroptosis in the epidermis, which subsequently gives rise to the secretion of IFN-γ and M1 polarization. Our study provides novel evidence that targeting ATG5 may serve as a potential therapeutic strategy for the amelioration of UVB-caused skin damage.

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来源期刊
CiteScore
12.10
自引率
1.90%
发文量
161
审稿时长
37 days
期刊介绍: The Journal of Photochemistry and Photobiology B: Biology provides a forum for the publication of papers relating to the various aspects of photobiology, as well as a means for communication in this multidisciplinary field. The scope includes: - Bioluminescence - Chronobiology - DNA repair - Environmental photobiology - Nanotechnology in photobiology - Photocarcinogenesis - Photochemistry of biomolecules - Photodynamic therapy - Photomedicine - Photomorphogenesis - Photomovement - Photoreception - Photosensitization - Photosynthesis - Phototechnology - Spectroscopy of biological systems - UV and visible radiation effects and vision.
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