Abstract
Cardiocerebrovascular disease is a severe threat to human health. Quercetin has a wide range of pharmacological effects such as antitumor and antioxidant. In this study, we aimed to determine how quercetin regulates mitochondrial function in H9c2 cells. An H9c2 cell oxygen glucose deprivation/reoxygenation (OGD/R) model was constructed. The expression of miR-92a-3p and mitofusin 1 (Mfn1) mRNA in the cells was detected using reverse transcription-quantitative polymerase chain reaction (RT-qPCR). Changes in the mitochondrial membrane potential of cells were examined by JC-1 staining. ATP production in the cells was detected using a biochemical assay. Mitochondrial morphological changes were observed using transmission electron microscopy. Detection of miR-92a-3p binding to Mfn1 was done using dual luciferase. Western blotting was used to detect the protein expression of Mfn1 in the cells. miR-92a-3p is essential in regulating cell viability, apoptosis, and tumor cell metastasis. OGD/R induced miR-92a-3p expression, decreased mitochondrial membrane potential and mitochondrial ATP production, and increased mitochondrial damage. Mitochondria are the most critical site for ATP production. Continued opening of the mitochondrial permeability transition pore results in an abnormal mitochondrial transmembrane potential. Both quercetin and inhibition of miR-29a-3p were able to downregulate miR-29a-3p levels, increase cell viability, mitochondrial membrane potential, and ATP levels, and improve mitochondrial damage morphology. Furthermore, we found that downregulation of miR-29a-3p upregulated the protein expression of Mfn1 in cells. Additionally, miR-92a-3p was found to bind to Mfn1 in a luciferase assay. miR- 29a-3p overexpression significantly inhibited the protein expression level of Mfn1. Quercetin treatment partially reversed the effects of miR-29a-3p overexpression in H9c2 cells. Quercetin promoted the recovery of mitochondrial damage in H9c2 cells through the miR-92a-3p/Mfn1 axis.
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