细胞外小泡
小泡
仿形(计算机编程)
细胞外
微泡
晶体蛋白
胶囊
相关性
生物
镜头(地质)
病理
细胞生物学
眼科
化学
医学
生物化学
计算机科学
小RNA
植物
数学
膜
古生物学
操作系统
基因
几何学
作者
Yun Su,Xinrui Wu,Wanzhuo He,Chenxi Yan,Yu Wu,Fang Li,Tao Guo,Xianqun Fan
出处
期刊:View
[Wiley]
日期:2025-02-13
摘要
Abstract High myopia stands as the primary cause of blindness globally, with cataract emerging as one of the most prevalent complications. However, the underlying mechanism of high myopic cataract remains unknown. The lens capsule is the basement membrane enclosing the lens. In this study, we hypothesized lens capsule tissue‐derived extracellular vesicles (Ti‐EVs) play a vital role in the formation of cataract. Ti‐EVs were collected from the lens capsule of high myopic and age‐related cataract patients during cataract surgery, and isolated by ExoDisc. Then, we performed proximity barcoding assay for single‐EV analysis, which enabled us to identify the alteration of Ti‐EV subpopulations associated with high myopic cataract. Among the detected proteins, our findings revealed a predominant immunity cluster within cataracts, characterized by a significantly higher abundance of macrophage‐derived EVs in high myopic cataracts, which strongly correlated with the aquaporin 1 (AQP1) cluster, suggesting a potential interaction between these two components in the progression of high myopic cataract. It was also observed that the eye morphogenesis cluster may also work in concert with AQP1, potentially driving the progression of high myopic cataracts through this pathway. These findings not only shed new light on the underlying mechanisms of high myopic cataract, but also pave the way for the development of novel therapeutic strategies to prevent or treat this devastating condition.
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