Abstract
Introduction: In myocardial infarction (MI), activated autophagy/mitophagy helps degrade cytoplasmic macromolecules/proteins/ organelles (especially damaged mitochondria), recycle breakdown products, and prevent oxidative damage and cell death. It had reported that reactive oxygen species (ROS) activates the transcription factor EB (TFEB) via a lysosomal transient receptor potential mucolipin 1 (TRPML1) Ca 2+ efflux. TFEB is thought to be the master regulator of lysosome biogenesis. Hypothesis: We investigated whether lysosomal TRPML1 was activated by ROS and contributed to ischemic cardiac autophagy/mitophagy. Methods: MI was induced in wild type C57BL/6J mice by ligated left anterior descending coronary artery. Mice were studied at three weeks after MI surgery. Results: The lysosomal-restricted TRPML1 Ca 2+ release channel was significantly upregulated by 84.8% in cardiac border zone (BZ) and 55.4% in a remote zone after MI. As expected, dephosphorylated TFEB (i.e., active TFEB), mitophagy marker Parkin, autophagy marker LC3II, and lysosome marker LAMP1 increased substantially after MI. Autophagy degradation was upregulated as measured by SQSTM1/p62. TRPML1 protein expression was reduced in a dose-dependent manner by TRPML1 shRNA AAV9 (AAV9 was injected 1 week after MI for two weeks). The protein levels of LC3II and LAMP1 significantly decreased in MI BZ after AAV9 transfection. Mitochondrial ROS scavenger (mitoTEMPO, 1 mg/kg/day, i.p.) treatment for two weeks (starting at 1 week after MI) significantly inhibited TRPML1, LAMP1, LC3II and Parkin expression in the MI BZ. Conversely, when TRPML1 was overexpressed in human induced pluripotent stem cell-derived cardiomyocytes (hiPSC-CMs), the protein levels of LC3II/Parkin were increased. Speaking to human relevance, TRPML1 was significantly increased in human patients with ischemic cardiomyopathy. Conclusion: Autophagy and mitophagy after MI are regulated by TRPML1 and mitochondrial ROS.
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