Litcius/Paper detail

Catechin-Based Polyphenol Nanoparticles Ameliorated Ferroptosis to Alleviate Brain Injury after Intracerebral Hemorrhage

Yu Zeng, Jian Li, Jian Liu, Zhuo Kong, Guoqiang Han, Yunbiao Xiong, Tao Luo, Liangzhao Chu, Peng Zhang, Dongxu Ma, Jinhai Lan, Guodong Liu, Jian Liu, Jian Liu, Jiqin Zhang, Ying Tan

2025ACS Applied Materials & Interfaces15 citationsDOI

Abstract

Spontaneous intracerebral hemorrhagic stroke (ICH) is a highly aggressive disease, with a high incidence and mortality rate. Iron deposition following ICH leads to oxidative damage and motor dysfunction, significantly impacting the overall quality of life for those affected. Here, a polyphenolic nanomedicine, catechin-based polyphenol nanoparticles surface-modified by thiol-terminated poly(ethylene glycol) (CNPs@PEG), was developed through the oxidative polymerization and self-assembly of catechin, a natural compound in tea. Due to its potent antioxidant and metal-chelating properties, CNPs@PEG effectively maintained blood-brain barrier integrity, reduced brain edema, significantly increased the survival rate of mice with cerebral hemorrhage and markedly improved neurological deficits after ICH. Mechanistically, CNPs@PEG accomplishes this by chelating iron, enhancing tissue antioxidant capacity, reducing oxidative stress, and inhibiting iron deposition. This approach holds promise as a targeted therapeutic strategy for addressing cerebral hemorrhage and other conditions associated with iron overload.

Topics & Concepts

Intracerebral hemorrhageMaterials scienceCatechinPolyphenolNanoparticlePharmacologyTraumatic brain injuryMedicineNanotechnologyAnesthesiaAntioxidantOrganic chemistrySubarachnoid hemorrhageChemistryPsychiatryIntracerebral and Subarachnoid Hemorrhage ResearchFerroptosis and cancer prognosisInflammatory Biomarkers in Disease Prognosis