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Chaperone‐mediated autophagy attenuates H2O2‐induced cardiomyocyte apoptosis by targeting poly (ADP‐ribose) polymerase 1 (PARP1) for lysosomal degradation

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Poly (ADP‐ribose) polymerase 1 (PARP1) is a typical representative of the PARP enzyme family and is mainly related to DNA repair, gene transcription regulation, inflammation, and oxidative stress. Studies have… Click to show full abstract

Poly (ADP‐ribose) polymerase 1 (PARP1) is a typical representative of the PARP enzyme family and is mainly related to DNA repair, gene transcription regulation, inflammation, and oxidative stress. Studies have found that PARP1 is involved in the pathophysiological processes of a variety of cardiovascular diseases. Chaperone‐mediated autophagy (CMA) is involved in the molecular regulation of various diseases, including cardiovascular diseases, and plays a critical role in maintaining intracellular metabolism balance. However, the link between PARP1 and CMA in cardiomyocytes remains unclear. Therefore, the aims of this study were to investigate whether CMA is involved in PARP1 regulation and to further clarify the specific molecular mechanisms. Earle's balanced salt solution (EBSS)‐induced activation of autophagy reduced PARP1 expression, whereas the autophagy lysosomal inhibitor CQ had the opposite effect. Correspondingly, treatment with the autophagy inhibitor 3‐methyladenine did not abolish the autophagy‐inducing effects of EBSS. Additionally, PARP1 binds to heat shock cognate protein 70 and lysosome‐associated membrane protein 2A (LAMP2A). Moreover, adenovirus‐mediated LAMP2A overexpression to activate the CMA signaling pathway in cardiomyocytes reduces PARP1 (cleaved) expression and further decreases cardiomyocyte apoptosis caused by oxidative stress. In contrast, downregulation of LAMP2A increased PARP1 (cleaved) expression and the degree of apoptosis. More importantly, we report that appropriate concentrations of H2O2 triggered the nuclear translocation of PARP1, which subsequently promoted the degradation of PARP1 through the CMA pathway. In summary, our data are the first to reveal that CMA targeted PARP1 for lysosomal degradation in cardiomyocytes, which ultimately inhibited apoptosis by promoting the degradation of the PARP1 protein.

Keywords: apoptosis; cma; parp1; degradation; poly adp; adp ribose

Journal Title: Cell Biology International
Year Published: 2022

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