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Hypoxia-primed monocytes/macrophages enhance postinfarction myocardial repair

Yu Zhu, Wenjuan Yang, Hailong Wang, Fuqin Tang, Yun Zhu, Qiong Zhu, Ruiyan Ma, Jian Zhao, Yingbin Xiao

2021Theranostics36 citationsDOIOpen Access PDF

Abstract

Background: Oxygen supplementation in myocardial infarction (MI) remains controversial. Inflammation is widely believed to play a central role in myocardial repair. A better understanding of these processes may lead to the design of novel strategies complementary to MI treatment. Methods: To investigate the role of hypoxia in inflammation and myocardial repair after acute MI, we placed MI mice in a tolerable mild hypoxia (10% O2) chamber for 7 days and then transferred the mice to ambient air for another 3 weeks. Results: We found that the cumulative survival rate of the MI mice under hypoxia was significantly higher than that under oxygen supplementation. Hypoxia promoted postinfarction myocardial repair. Importantly, we found that hypoxia modulated the phenotypic transition of blood monocytes from pro-inflammatory to pro-reparative in a timely manner, leading to the subsequent discontinuation of inflammation in myocardial tissues and promotion of myocardial repair post-MI. Specifically, cultured bone marrow-derived macrophages (BMDMs) primed by hypoxia in vitro exhibited improved reparative capacities and differed from M1 and M2 macrophages through the AMPK2 signaling pathway. The deletion of AMPK2 in monocytes/macrophages prevented the phenotypic transition induced by hypoxia and could not promote myocardial repair after MI when transplanted into the myocardium. Conclusions: Taken together, our work demonstrates that hypoxia promotes postinfarction myocardial repair by modulating the blood monocyte/macrophage phenotypic transition from pro-inflammatory to pro-reparative in a timely manner through the AMPK2 signaling pathway. Hypoxia priming might be an attractive translational strategy for MI treatment by amplifying immune cells during early inflammation and subsequent resolution and repair.

Topics & Concepts

Hypoxia (environmental)Myocardial infarctionInflammationMedicineImmune systemAMPKImmunologyInternal medicineCancer researchCell biologyBiologyChemistryOxygenPhosphorylationProtein kinase AOrganic chemistryCardiac Fibrosis and RemodelingImmune cells in cancerAutophagy in Disease and Therapy
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