Litcius/Paper detail

A unified mechanism for mitochondrial damage sensing in PINK1-Parkin–mediated mitophagy

Julia A. Thayer, Jennifer D. Petersen, Xiaoping Huang, Luiza M Gruel Budet, James Hawrot, Daniel M. Ramos, Shiori Sekine, Yan Li, Michael E. Ward, Derek P. Narendra

2025The EMBO Journal12 citationsDOIOpen Access PDF

Abstract

Damaged mitochondria can be cleared from the cell by mitophagy, using a pathway formed by the recessive Parkinson's disease genes PINK1 and Parkin. Whether the pathway senses diverse forms of mitochondrial damage via a common mechanism, however, remains uncertain. Here, using a novel Parkin reporter in genome-wide screens, we identified that diverse forms of mitochondrial damage converge on loss of mitochondrial membrane potential (MMP) to activate PINK1. Loss of MMP, but not the presequence translocase-associated import motor (PAM), blocked progression of PINK1 import through the translocase of the inner membrane (TIM23), causing it to remain bound to the translocase of the outer membrane (TOM). Ablation of TIM23 was sufficient to arrest PINK1 within TOM, irrespective of MMP. Meanwhile, TOM (including subunit TOMM5) was required for PINK1 retention on the mitochondrial surface. The energy state outside of the mitochondria further modulated the pathway by controlling the rate of new PINK1 synthesis. Together, our findings point to a convergent mechanism of PINK1-Parkin activation by mitochondrial damage: loss of MMP stalls PINK1 import during its transfer from TOM to TIM23.

Topics & Concepts

PINK1TranslocaseBiologyMitophagyMitochondrionCell biologyIntermembrane spaceInner mitochondrial membraneATP–ADP translocaseParkinMitochondrial membrane transport proteinMitochondrial carrierProtein subunitTranslocase of the outer membraneInner membraneMechanism (biology)Membrane potentialTranslocase of the inner membraneBiophysicsMitochondrial DNABiochemistryTransport proteinMitochondrial apoptosis-induced channelmitochondrial fusionBacterial outer membraneMutationAutophagy in Disease and TherapyMitochondrial Function and PathologyParkinson's Disease Mechanisms and Treatments