Abstract

Cardiac hypertrophy, characterized by cardiomyocyte enlargement, is an adaptive response of the heart to certain hypertrophic stimuli; however, prolonged hypertrophy results in cardiac dysfunction and can ultimately cause heart failure. The present study evaluated the role of semaphorin-3A (Sema3A), a neurochemical inhibitor, in cardiac hypertrophy, utilizing an isoproterenol (ISO) induced H9c2 cell model. Cells were stained with rhodamine-phalloidin to assess the cell surface area and reverse transcription-quantitative PCR was performed to quantify mRNA expression levels of Sema3A, brain natriuretic factor (BNF) and β-myosin heavy chain (β-MHC). The protein expression levels of the autophagy-related proteins light chain 3 (LC3), p62 and Beclin-1, and the Akt/mTOR signaling pathway associated proteins Akt, phosphorylated (p)-Akt, mTOR, p-mTOR, 4E-binding protein 1 (4EBP1) and p-4EBP1 were semi-quantified using western blotting. Rapamycin, a canonical autophagy inducer, was administered to H9c2 cells to elucidate the regulatory mechanism of Sema3A. The results indicated significantly increased cell surface area and elevated BNF and β-MHC mRNA expression levels, increased LC3II/I ratio and Beclin-1 protein expression levels and significantly decreased p62 protein expression levels after treatment of H9c2 cardiomyocytes with ISO for 24 h. Sema3A overexpression improved ISO-induced hypertrophy in H9c2 cells, indicated by decreased cell surface area and reduced BNF and β-MHC mRNA expression levels. Moreover, Sema3A overexpression inhibited ISO-induced autophagy in H9c2 cells, indicated by decreased LC3II/I ratio and Beclin-1 protein expression levels and increased p62 protein expression levels. The autophagy activator rapamycin partially inhibited the protective effect of Sema3A on ISO-induced hypertrophy. Sema3A overexpression suppressed the decrease of the protein expression levels of p-Akt, mTOR and their downstream target 4EBP1, which is induced by ISO. Collectively, these results suggested Sema3A prevented ISO-induced cardiac hypertrophy by inhibiting autophagy via the Akt/mTOR signaling pathway.

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