Michael Lazarou scite author profile

Summary Mutations in the mitochondrial kinase PINK1 and the cytosolic E3 ligase Parkin can cause Parkinson’s disease. Damaged mitochondria accumulate PINK1 on the outer membrane where, dependent on kinase activity, it recruits and activates Parkin to induce mitophagy, potentially maintaining organelle fidelity. How PINK1 recruits Parkin is unknown. We show that endogenous PINK1 forms a 700 kDa complex with the translocase of the outer membrane (TOM) selectively on depolarized mitochondria whereas PINK1 ectopically targeted to the outer membrane retains association with TOM on polarized mitochondria. Inducibly targeting PINK1 to peroxisomes or lysosomes, which lack a TOM complex, recruits Parkin and activates ubiquitin ligase activity on the respective organelles. Once there, Parkin induces organelle selective autophagy of peroxisomes but not lysosomes. We propose that the association of PINK1 with the TOM complex allows rapid re-import of PINK1 to rescue repolarized mitochondria from mitophagy, and discount mitochondrial-specific factors for Parkin translocation and activation.

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BAK/BAX macropores facilitate mitochondrial herniation and mtDNA efflux during apoptosis

McArthur

Whitehead

Heddleston

et al. 2018

Science

609

412

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Mitochondrial apoptosis is mediated by BAK and BAX, two proteins that induce mitochondrial outer membrane permeabilization, leading to cytochrome c release and activation of apoptotic caspases. In the absence of active caspases, mitochondrial DNA (mtDNA) triggers the innate immune cGAS/STING pathway, causing dying cells to secrete type I interferon. How cGAS gains access to mtDNA remains unclear. We used live-cell lattice light-sheet microscopy to examine the mitochondrial network in mouse embryonic fibroblasts. We found that after BAK/BAX activation and cytochrome c loss, the mitochondrial network broke down and large BAK/BAX pores appeared in the outer membrane. These BAK/BAX macropores allowed the inner mitochondrial membrane to herniate into the cytosol, carrying with it mitochondrial matrix components, including the mitochondrial genome. Apoptotic caspases did not prevent herniation but dismantled the dying cell to suppress mtDNA-induced innate immune signaling.

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Deciphering the Molecular Signals of PINK1/Parkin Mitophagy

Nguyen

Padman

Lazarou

2016

Trends in Cell Biology

472

308

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Mitochondrial Respiratory Chain Supercomplexes Are Destabilized in Barth Syndrome Patients

McKenzie

Lazarou

Thorburn

et al. 2006

Journal of Molecular Biology

371

282

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Michael Lazarou

The ubiquitin kinase PINK1 recruits autophagy receptors to induce mitophagy

Mitochondrial membrane potential regulates PINK1 import and proteolytic destabilization by PARL

PINK1 phosphorylates ubiquitin to activate Parkin E3 ubiquitin ligase activity

Atg8 family LC3/GABARAP proteins are crucial for autophagosome–lysosome fusion but not autophagosome formation during PINK1/Parkin mitophagy and starvation

Role of PINK1 Binding to the TOM Complex and Alternate Intracellular Membranes in Recruitment and Activation of the E3 Ligase Parkin

BAK/BAX macropores facilitate mitochondrial herniation and mtDNA efflux during apoptosis

Deciphering the Molecular Signals of PINK1/Parkin Mitophagy

Mitochondrial Respiratory Chain Supercomplexes Are Destabilized in Barth Syndrome Patients

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