通过氧限制光氧化作用导致蛋白质损伤的隐蔽途径。

Hidden route of protein damage through oxygen-confined photooxidation.

作者信息

Kim Seoyoon, Kim Eojin, Park Mingyu, Kim Seong Ho, Kim Byung-Gyu, Na Seungjin, Sadongo Victor W, Wijesinghe W C Bhashini, Eom Yu-Gon, Yoon Gwangsu, Jeong Hannah, Hwang Eunhye, Lee Chaiheon, Myung Kyungjae, Kim Chae Un, Choi Jeong-Mo, Min Seung Kyu, Kwon Tae-Hyuk, Min Duyoung

机构信息

Department of Chemistry, Ulsan National Institute of Science and Technology, Ulsan, 44919, Republic of Korea.

Center for Genomic Integrity, Institute for Basic Science, Ulsan, 44919, Republic of Korea.

出版信息

Nat Commun. 2024 Dec 30;15(1):10873. doi: 10.1038/s41467-024-55168-z.

DOI:10.1038/s41467-024-55168-z

PMID:39738007

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11686182/

Abstract

Oxidative modifications can disrupt protein folds and functions, and are strongly associated with human aging and diseases. Conventional oxidation pathways typically involve the free diffusion of reactive oxygen species (ROS), which primarily attack the protein surface. Yet, it remains unclear whether and how internal protein folds capable of trapping oxygen (O) contribute to oxidative damage. Here, we report a hidden pathway of protein damage, which we refer to as O-confined photooxidation. In this process, O is captured in protein cavities and subsequently converted into multiple ROS, primarily mediated by tryptophan residues under blue light irradiation. The generated ROS then attack the protein interior through constrained diffusion, causing protein damage. The effects of this photooxidative reaction appear to be extensive, impacting a wide range of cellular proteins, as supported by whole-cell proteomic analysis. This photooxidative mechanism may represent a latent oxidation pathway in human tissues directly exposed to visible light, such as skin and eyes.

摘要

氧化修饰会破坏蛋白质的折叠结构和功能，并且与人类衰老及疾病密切相关。传统的氧化途径通常涉及活性氧（ROS）的自由扩散，其主要攻击蛋白质表面。然而，能够捕获氧气（O）的蛋白质内部折叠结构是否以及如何导致氧化损伤仍不清楚。在此，我们报告了一种蛋白质损伤的隐藏途径，我们将其称为O限制光氧化。在这个过程中，O被捕获在蛋白质腔中，随后在蓝光照射下主要由色氨酸残基介导转化为多种ROS。然后产生的ROS通过受限扩散攻击蛋白质内部，导致蛋白质损伤。全细胞蛋白质组学分析表明，这种光氧化反应的影响似乎很广泛，会影响多种细胞蛋白质。这种光氧化机制可能代表了人体直接暴露于可见光的组织（如皮肤和眼睛）中的一种潜在氧化途径。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dd82/11686182/eff2a80e77f0/41467_2024_55168_Fig1_HTML.jpg

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通过氧限制光氧化作用导致蛋白质损伤的隐蔽途径。

Hidden route of protein damage through oxygen-confined photooxidation.

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