分子生物学
IVD分子诊断
细胞培养与分析
蛋白研究
细胞因子
重组蛋白
抗体
高通量测序建库
病原检测UCF系列
生物医药
工具酶
抑制剂激活剂与常用试剂
仪器
耗材

In Situ Redox-Omics Decoding of Nanoparticle–Protein Corona Interactions Drives the Mitochondrial Metabolic-Immunological Mechanism in Microglia

Ze-Kun Chen, Ming Yu, Zhong-Yao Li, Ling-Li Zheng, Ji-Chao Zhang, Ting-Ting Liu, Zhuo Yang, Ling Li, Zhi-Yuan Lu, Tian-Tian Wei, Hua Wang, Bo Han, Wei Yu, Peng-Fei Tu, Ke-Wu Zeng

Journal:ACS Nano

IF:16

DOI:10.1021/acsnano.5c21740

PMID:

Published:2026-02-09

research field:神经科学氧化还原生物学蛋白质组学免疫代谢纳米医学生物化学

Abstract

Nanoparticle–protein corona interactions critically determine biological responses but remain poorly characterized in living systems due to the lack of noninvasive analytical tools. In this study, we developed a redox-omics strategy that facilitated the in situ mapping of corona composition by tracking cysteine thiol oxidation markers induced by nanoparticles. As a research tool, we synthesized natural-organic-matter-derived carbon dots (nCDs) with dual superoxide dismutase/catalase-mimetic activity. A global redox-omics analysis identified 104 proteins that demonstrated significant redox reactions in response to treatment with nCDs. In particular, we found that nCDs specifically induced a conformational change in isocitrate dehydrogenase 1 (IDH1) by selectively reversing the oxidation of cysteine 269 (Cys269). In the mechanism, the site-specific reduction in cysteine 269 (Cys269) triggered a conformational switch of IDH1 that restored mitochondrial α-ketoglutarate flux and NADPH homeostasis, thereby blocking cytosolic mitochondrial DNA (mtDNA) leakage and subsequent cGAS-STING-driven neuroinflammation. Crucially, the nCDs-mediated metabolic checkpoint control inhibited the pro-inflammatory (M1) phenotypes of microglia, thereby achieving therapeutic efficacy in both zebrafish and murine ischemic stroke models, without inducing detectable toxicity. Collectively, we developed a label-free platform enabling in situ decoding of protein corona interactions via redox-sensitive cysteine profiling, eliminating the need for nanoparticle surface modifications.

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