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Literature DB >> 34097559

Quercetin prevents isoprenaline-induced myocardial fibrosis by promoting autophagy via regulating miR-223-3p/FOXO3.

Jiqiang Hu¹, Xuan Wang¹, Xiaoyun Cui¹, Wu Kuang¹, Dong Li¹, Jing Wang².

Abstract

Atrial fibrillation (AF) is the common arrhythmias. Myocardial fibrosis (MF) is closely related to atrial remodeling and leads to AF. MF is the main cause of cardiovascular diseases and a pathological basis of AF. Thus, the underlying mechanism in MF and AF development should be fully elucidated for AF therapeutic innovation. Autophagy is a highly conserved lysosomal degradation pathway, and the relationship between autophagy and MF has been previously shown. Moreover, research reported that quercetin (Que) could ameliorate MF. The current study aimed to explore the mechanism of Que in MF. The results in this study showed that in clinical AF patients and in aged rats, miR-223-3p was high-expressed, while FOXO3 and autophagy pathway related proteins, such as ATG7, p62/SQSTM1 and the ratio of LC3B-II/LC3B-I were significantly inhibited. In vivo and in vitro studies, we found that Que can effectively inhibit the expression of miR-223-3p in AF model cells and rats myocardial tissues, and meanwhile enhance the expression of FOXO3 and activate the autophagy pathway, and significantly inhibit myocardial fibrosis, and improve myocardial remodeling in atrial fibrillation. All in all, in this study, we found that Que prevents isoprenaline-induced MF by increasing autophagy via regulating miR-223-3p/FOXO3.

Entities: Chemical

Keywords: Quercetin; autophagy; foxo3; miR-223-3p; myocardial fibrosis

Mesh：

Substances：

Year: 2021 PMID： 34097559 PMCID： PMC8331011 DOI： 10.1080/15384101.2021.1932029

Source DB: PubMed Journal: Cell Cycle ISSN： 1551-4005 Impact factor: 5.173

47 in total

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Journal: Biochim Biophys Acta Date: 2014-03-18

6. p62/SQSTM1 binds directly to Atg8/LC3 to facilitate degradation of ubiquitinated protein aggregates by autophagy.

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Authors: Zhao Liu; J Emanuel Finet; Julie A Wolfram; Mark E Anderson; Xun Ai; J Kevin Donahue
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4. Identification and Validation of Autophagy-Related Genes as Potential Biomarkers and Therapeutic Targets in Atrial Fibrillation.

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5. Identification of circRNA-miRNA-mRNA Regulatory Network and Autophagy Interaction Network in Atrial Fibrillation Based on Bioinformatics Analysis.

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