Suppression of microRNA-323-3p restrains vascular endothelial cell apoptosis via promoting sirtuin-1 expression in coronary heart disease.

AIMS:Coronary heart disease (CHD), a chronic inflammatory condition of vascular endothelial cells (VECs), poses a serious threat to human health. Previous studies have found that microRNAs (miRNAs) are closely related to the occurrence and development of cardiac diseases. Therefore, this study focused on the regulation by miR-323-3p on the progression of CHD. METHODS:Initially, we employed microarray-based gene expression profiling of CHD to identify differentially expressed miRNAs. Next, the expression of miR-323-3p and SIRT1 was detected by RT-qPCR in a rat model of CHD generated by feeding with a high-fat diet. The interaction between miR-323-3p and SIRT1 was identified using bioinformatics analysis and dual luciferase reporter gene assay. The expressions of miR-323-3p and SIRT1 were altered in CHD rats and vascular endothelial cells (VECs) to examine the specific effects on CHD. RESULTS:miR-323-3p was observed to be highly-expressed in blood samples from patients with CHD or with mild atherosclerosis and in the rat model of CHD. SIRT1 was a target gene of miR-323-3p, which could downregulate SIRT1 expression. miR-323-3p overexpression or SIRT1 inhibition resulted in increased apoptosis of VECs, elevated ac-p65 protein expression and ratio of ac-p65/p65, and upregulated expression of NF-κB signaling pathway-related proteins. Besides, miR-323-3p inhibition or SIRT1 upregulation in the CHD rat model was found to significantly alleviate symptoms and decrease levels of proteins related to the ac-p65 and NF-κB signaling pathways. CONCLUSION:Overall, the experimental data provide evidence that miR-323-3p suppression may restrain VEC apoptosis and prevent the resultant CHD progression via SIRT1-inactivatedNF-κB signaling pathway.

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