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Apelin-13 Increases Functional Connexin-43 through Autophagy Inhibition via AKT/mTOR Pathway in the Non-Myocytic Cell Population of the Heart

Emanuela Vitale, Rachele Rosso, Marco Lo Iacono, Caterina Cristallini, Claudia Giachino, Raffaella Rastaldo

2022International Journal of Molecular Sciences12 citationsDOIOpen Access PDF

Abstract

Studies have shown a link between the downregulation of connexin 43 (Cx43), the predominant isoform in cardiac gap junctions, and high susceptibility to cardiac arrhythmias and cardiomyocyte death. Non-myocytic cells (NMCs), the most abundant component of the heart, exert multiple cardiac functions and represent an important therapeutic target for diseased cardiac tissue. A few studies have investigated the effect of Apelin-13, an endogenous peptide with a key role in various cardiovascular functions, on Cx43 expression in cardiomyocytes. However, it remained unknown whether Apelin-13 influences Cx43 expression in NMCs. Here, we found that in NMCs, Cx43 protein expression increased after Apelin-13 treatment (100 nM for 48 h). Furthermore, dye transfer assays proved that Apelin-13-treated NMCs had a greater ability to communicate with surrounding cardiomyocytes, and this effect was abrogated by carbenoxolone, a gap junction inhibitor. Interestingly, we showed that Apelin-13 increased Cx43 through autophagy inhibition, as proved by the upregulation of p62 and LC3I, acting as 3-MA, a well-known autophagy inhibitor. In addition, Apelin-13-induced AKT and mTOR phosphorylation was abolished by LY294002 and rapamycin inhibitors resulting in Cx43 increased suppression. These results open the possibility of targeting gap junctions in NMCs with Apelin-13 as an exciting therapeutic approach with great potential.

Topics & Concepts

ApelinConnexinDownregulation and upregulationLY294002AutophagyPI3K/AKT/mTOR pathwayGap junctionProtein kinase BCell biologyChemistryInternal medicinePhosphorylationSignal transductionBiologyMedicineBiochemistryIntracellularReceptorApoptosisGeneApelin-related biomedical researchCardiovascular, Neuropeptides, and Oxidative Stress Research