Parkin inhibits BAK and BAX apoptotic function by distinct mechanisms during mitophagy

The E3 ubiquitin ligase Parkin is a key effector of the removal of damaged mitochondria by mitophagy. Parkin determines cell fate in response to mitochondrial damage, with its loss promoting early onset Parkinson's disease and potentially also cancer progression. Controlling a cell's apoptotic response is essential to co‐ordinate the removal of damaged mitochondria. We report that following mitochondrial damage‐induced mitophagy, Parkin directly ubiquitinates the apoptotic effector protein BAK at a conserved lysine in its hydrophobic groove, a region that is crucial for BAK activation by BH3‐only proteins and its homo‐dimerisation during apoptosis. Ubiquitination inhibited BAK activity by impairing its activation and the formation of lethal BAK oligomers. Parkin also suppresses BAX‐mediated apoptosis, but in the absence of BAX ubiquitination suggesting an indirect mechanism. In addition, we find that BAK‐dependent mitochondrial outer membrane permeabilisation during apoptosis promotes PINK1‐dependent Parkin activation. Hence, we propose that Parkin directly inhibits BAK to suppress errant apoptosis, thereby allowing the effective clearance of damaged mitochondria, but also promotes clearance of apoptotic mitochondria to limit their potential pro‐inflammatory effect. Synopsis The ubiquitin ligase Parkin plays a protective role in neurodegenerative disease by removing damaged mitochondria and preventing apoptosis, and by limiting the functions of pro‐apoptotic effector proteins BAK and BAX. Defective control of apoptosis may contribute to the pathogenesis of early onset Parkinson's Disease caused by Parkin mutations. Parkin activity is induced by mitochondrial damage during apoptosis. Parkin mono‐ and di‐ubiquitinates BAK at a conserved lysine in its hydrophobic groove. Ubiquitination reduces BAK oligomerisation and apoptotic activity on mitochondria. Parkin prevents BAX mitochondrial localisation and apoptotic activity independent of ubiquitination. Certain Parkinson's Disease‐associated Parkin mutants cannot ubiquitinate BAK and restrain it on mitochondria. Graphical Abstract Autophagic clearance of damaged mitochondria and suppression of apoptotic effector proteins are coordinated functions of the Parkin ubiquitin ligase that are lost upon Parkinson's Disease‐associated mutations.