蛋白质稳态
未折叠蛋白反应
发病机制
化学
蛋白质折叠
荧光
细胞生物学
生物物理学
蛋白质聚集
双重角色
分子成像
荧光寿命成像显微镜
计算生物学
医学
生物
蛋白质-蛋白质相互作用
病理
共域化
蛋白质结构
纳米技术
生物发生
微尺度热泳
翻译后修饰
内在无序蛋白质
作者
Li Jingjing,Miao Yihui,Pan Wei,Li Na,Tang Bo,Li Jingjing,Miao Yihui,Pan Wei,Li Na,Tang Bo
出处
期刊:Science Advances
[American Association for the Advancement of Science]
日期:2025-11-14
卷期号:11 (46): eaea3727-eaea3727
标识
DOI:10.1126/sciadv.aea3727
摘要
Protein unfolding has emerged as a critical factor in the initiation and progression of atherosclerosis. Direct visualization of unfolded proteins remains technically challenging yet critical for elucidating atherosclerosis pathogenesis and developing early diagnostic tools. Here, we report a dual-reporter unlocking two-photon fluorescence probe for dynamic tracking of unfolded proteins in early atherosclerotic plaques. The probe achieves synergistic fluorescence activation through covalent binding with exposed thiols and subsequent stabilization within the local hydrophobic microenvironment of unfolded proteins. This dual-activation property allows for precise differentiation between folded and unfolded proteins in foam cells, facilitating spatiotemporal mapping of protein disorder at various stages of atherosclerosis. Notably, the probe detects early-stage unknown or tiny plaques within 4 to 8 weeks by identifying protein unfolding events before conventional Oil Red O staining and clinical ultrasonography, demonstrating unprecedented sensitivity for subclinical plaque prediction. Our findings establish a paradigm for investigating proteostasis disorder in atherogenesis and introduce a powerful molecular tool for early atherosclerosis diagnosis.
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