Bioactive Nanoenzyme Reverses Oxidative Damage and Endoplasmic Reticulum Stress in Neurons Under Ischemic Stroke

Overview

Journal ACS Nano

Publisher American Chemical Society

Specialty Biotechnology

Date 2021 Dec 27

PMID 34958560

Citations 31

Authors

Guanning Huang

Jiankun Zang

Lizhen He

Huili Zhu

Jiarun Huang

Zhongwen Yuan

Tianfeng Chen

Anding Xu

Affiliations

Soon will be listed here.

Abstract

Designing translational antioxidative agents that could scavenge free radicals produced during reperfusion in brain ischemia stroke and alleviate neurologic damage is the main objective for ischemic stroke treatment. Herein, we explored and simply synthesized a biomimic and translational MnO nanoenzyme (HSA-MnO) to constrain ischemic stroke reperfusion-induced nervous system injury. This nanosystem exhibits reduced levels of inflammation and prolonged circulation time and potent ROS scavenging activities. As expected, HSA-MnO effectively inhibits oxygen and glucose deprivation-mediated cell apoptosis and endoplasmic reticulum stress and demonstrates neuroprotective capacity against ischemic stroke and reperfusion injury of brain tissue. Furthermore, HSA-MnO effectively releases Mn ions and promotes the increase of superoxide dismutase 2 activity. Therefore, HSA-MnO inhibits brain tissue damage by restraining cell apoptosis and endoplasmic reticulum stress . Taken together, this study not only sheds light on design of biomimic and translational nanomedicine but also reveals the neuroprotective action mechanisms against ischemic stroke and reperfusion injury.

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