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The GET pathway serves to activate Atg32-mediated mitophagy by ER targeting of the Ppg1-Far complex

Mashun Onishi, Mitsutaka Kubota, Lan Duan, Yuan Tian, Koji Okamoto

2023Life Science Alliance10 citationsDOIOpen Access PDF

Abstract

Mitophagy removes defective or superfluous mitochondria via selective autophagy. In yeast, the pro-mitophagic protein Atg32 localizes to the mitochondrial surface and interacts with the scaffold protein Atg11 to promote degradation of mitochondria. Although Atg32-Atg11 interactions are thought to be stabilized by Atg32 phosphorylation, how this posttranslational modification is regulated remains obscure. Here, we show that cells lacking the guided entry of the tail-anchored protein (GET) pathway exhibit reduced Atg32 phosphorylation and Atg32-Atg11 interactions, which can be rescued by additional loss of the ER-resident Ppg1-Far complex, a multi-subunit phosphatase negatively acting in mitophagy. In GET-deficient cells, Ppg1-Far is predominantly localized to mitochondria. An artificial ER anchoring of Ppg1-Far in GET-deficient cells significantly ameliorates defects in Atg32-Atg11 interactions and mitophagy. Moreover, disruption of GET and Msp1, an AAA-ATPase that extracts non-mitochondrial proteins localized to the mitochondrial surface, elicits synthetic defects in mitophagy. Collectively, we propose that the GET pathway mediates ER targeting of Ppg1-Far, thereby preventing dysregulated suppression of mitophagy activation.

Topics & Concepts

MitophagyCell biologyAutophagyMitochondrionScaffold proteinPhosphorylationProtein subunitBiologyPINK1ParkinChemistrySignal transductionBiochemistryApoptosisDiseasePathologyParkinson's diseaseGeneMedicineAutophagy in Disease and TherapyEndoplasmic Reticulum Stress and DiseaseFungal and yeast genetics research