Litcius/Paper detail

RHOA, a small G-protein, signals to mitophagy through regulation of PINK1 protein stability and protects cardiomyocytes against ischemia

Michelle Tu, Shigeki Miyamoto

2022Autophagy12 citationsDOIOpen Access PDF

Abstract

proteins, and is activated in response to stretch and oxidative stress, functioning as a stress-response molecule. It has been demonstrated that RHOA signaling provides cardioprotection through inhibition of mitochondrial death pathways. Mitochondrial integrity is preserved not only by inhibition of mitochondrial death pathways but also by mitochondrial quality control mechanisms including mitophagy. One of the most well-established mechanisms of mitophagy is the mitochondrial membrane depolarization-dependent PINK1-PRKN/Parkin pathway. However, depolarization of the mitochondrial membrane potential is a late-stage event that occurs just before cell death, and additional intracellular mechanisms that enhance the PINK1-PRKN pathway have not been fully determined. We recently discovered that RHOA activation engages a unique mechanism to regulate PINK1 protein stability without inducing mitochondrial membrane depolarization, leading to increased mitophagy and protection against ischemia in cardiomyocytes. Our results suggest regulation of RHOA signaling as a potential strategy to enhance protective mitophagy against stress without compromising mitochondrial functions.

Topics & Concepts

MitophagyPINK1RHOACell biologyBiologyParkinMitochondrionSignal transductionProgrammed cell deathDepolarizationAutophagyBiochemistryApoptosisBiophysicsMedicineInternal medicineParkinson's diseaseDiseaseAutophagy in Disease and TherapyMitochondrial Function and PathologyMetabolism, Diabetes, and Cancer