重编程
缺氧(环境)
心肌梗塞
纳米医学
癌症研究
内科学
药理学
医学
化学
细胞
材料科学
心脏病学
纳米技术
氧气
纳米颗粒
生物化学
有机化学
作者
Yamei Liu,Shuya Wang,Jiaxiong Zhang,Quan Sun,Yi Xiao,Jing Chen,Meilian Yao,Guogang Zhang,Qun Huang,Tianjiao Zhao,Qiong Huang,Xiaojing Shi,Can Feng,Kelong Ai,Yongping Bai
标识
DOI:10.1038/s41467-024-50854-4
摘要
Myocardial infarction (MI) has a 5-year mortality rate of more than 50% due to the lack of effective treatments. Interactions between cardiomyocytes and the MI microenvironment (MIM) can determine the progression and fate of infarcted myocardial tissue. Here, a specially designed Melanin-based composite nanomedicines (MCN) is developed to effectively treat MI by reprogramming the MIM. MCN is a nanocomposite composed of polydopamine (P), Prussian blue (PB) and cerium oxide (CexOy) with a Mayuan-like structure, which reprogramming the MIM by the efficient conversion of detrimental substances (H+, reactive oxygen species, and hypoxia) into beneficial status (O2 and H2O). In coronary artery ligation and ischemia reperfusion models of male mice, intravenously injecting MCN specifically targets the damaged area, resulting in restoration of cardiac function. With its promising therapeutic effects, MCN constitutes a new agent for MI treatment and demonstrates potential for clinical application. Myocardial infarction (MI) is the most common emergent manifestation of cardiovascular diseases. Here, the authors designed a nanomedicine that can reprogram MI microenvironment by converting the detrimental substances (H+, ROS and hypoxia) into beneficial elements (O2 and H2O), as such demonstrates promising potential for the clinical application.
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