Pathophysiological Protein Corona Governs the Biological Fate of Nanoparticles
Wenshuai Han, Xinyang Shi, Yuanyuan Niu, Jiaxu Guo, Xue Wang, Qiang Mu, Shuai Jiang, Hai Yang
Journal:ACS Applied Materials & Interfaces
IF:7.8
DOI:10.1021/acsami.5c23016
PMID:41968920
Published:2026-04-13
research field:癌症生物学免疫学药物递送病理生理学纳米技术纳米医学
Abstract
Protein corona fundamentally redefines the biological identity, cellular interactions, and in vivo fate of nanoparticles. Disease-induced alterations in blood composition generate pathological corona profiles; however, the impact of disease-mediated corona remodeling on the biological effects of nanoparticles remains poorly understood. Here, we systematically characterized the protein coronas and biological responses of surface-engineered polystyrene nanoparticles incubated with sera from healthy donors and patients with nonsmall cell lung cancer (NSCLC). Our findings show that disease status and nanoparticle surface chemistry jointly reprogram corona composition, leading to marked alterations in immune recognition and pharmacokinetic profiles. Specifically, NSCLC-derived coronas were enriched in complement proteins, resulting in pronounced complement activation and enhanced macrophage-mediated clearance, while attenuating systemic circulation of nanoparticles. These findings elucidate the critical role of disease-specific protein coronas in modulating nanobio interactions and underscore the necessity of accounting for pathological environments in the rational design and clinical translation of nanomedicines.
本文使用的Yeasen产品


