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NDP52 acts as a redox sensor in PINK1/Parkin-mediated mitophagy.

Tetsushi KatauraElsje G OttenYoana Rabanal-RuizElias AdriaenssensFrancesca UrselliFilippo ScialoLanyu FanGraham R SmithWilliam M DawsonXingxiang ChenWyatt W YueAgnieszka K BronowskaBernadette CarrollSascha MartensMichael LazarouViktor I Korolchuk
Published in: The EMBO journal (2022)
Mitophagy, the elimination of mitochondria via the autophagy-lysosome pathway, is essential for the maintenance of cellular homeostasis. The best characterised mitophagy pathway is mediated by stabilisation of the protein kinase PINK1 and recruitment of the ubiquitin ligase Parkin to damaged mitochondria. Ubiquitinated mitochondrial surface proteins are recognised by autophagy receptors including NDP52 which initiate the formation of an autophagic vesicle around the mitochondria. Damaged mitochondria also generate reactive oxygen species (ROS) which have been proposed to act as a signal for mitophagy, however the mechanism of ROS sensing is unknown. Here we found that oxidation of NDP52 is essential for the efficient PINK1/Parkin-dependent mitophagy. We identified redox-sensitive cysteine residues involved in disulphide bond formation and oligomerisation of NDP52 on damaged mitochondria. Oligomerisation of NDP52 facilitates the recruitment of autophagy machinery for rapid mitochondrial degradation. We propose that redox sensing by NDP52 allows mitophagy to function as a mechanism of oxidative stress response.
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