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Inhibiting miR-22 Alleviates Cardiac Dysfunction by Regulating Sirt1 in Septic Cardiomyopathy

Runze Wang, Yuerong Xu, Wei Zhang, Yexian Fang, Tiqun Yang, Di Zeng, Ting Wei, Jing Liu, Haijia Zhou, Yan Li, Zhan-Peng Huang, Mingming Zhang

2021Frontiers in Cell and Developmental Biology14 citationsDOIOpen Access PDF

Abstract

High morbidity and mortality are the most typical characteristics of septic cardiomyopathy. We aimed to reveal the role of miR-22 in septic cardiomyopathy and to explore the underlying mechanisms. miR-22 cardiac-specific knockout (miR-22 cKO ) mice and miR-22 cardiac-specific transgenic (miR-22 cOE ) mice were subjected to a cecal ligation and puncture (CLP) operation, while a sham operation was used in the control group. The echocardiogram results suggested that miR-22 cKO CLP mice cardiac dysfunction was alleviated. The serum LDH and CK-MB were reduced in the miR-22 cKO CLP mice. As expected, there was reduced apoptosis, increased autophagy and alleviated mitochondrial dysfunction in the miR-22 cKO CLP mice, while it had contrary role in the miR-22 cOE group. Inhibiting miR-22 promoted autophagy by increasing the LC3II/GAPDH ratio and decreasing the p62 level. Additionally, culturing primary cardiomyocytes with lipopolysaccharide (LPS) simulated sepsis-induced cardiomyopathy in vitro . Inhibiting miR-22 promoted autophagic flux confirmed by an increased LC3II/GAPDH ratio and reduced p62 protein level under bafilomycin A1 conditions. Knocking out miR-22 may exert a cardioprotective effect on sepsis by increasing autophagy and decreasing apoptosis via sirt1. Our results revealed that targeting miR-22 may become a new strategy for septic cardiomyopathy treatment.

Topics & Concepts

AutophagySepsisCardiomyopathyApoptosisMedicineDownregulation and upregulationLipopolysaccharideHeart failureCardiac dysfunctionDiabetic cardiomyopathyPharmacologyInternal medicineCancer researchBiologyBiochemistryGeneFuel Cells and Related MaterialsMicroRNA in disease regulationExtracellular vesicles in disease
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