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NME3 is a gatekeeper for DRP1-dependent mitophagy in hypoxia

Author

Listed:
  • Chih-Wei Chen

    (National Taiwan University)

  • Chi Su

    (National Taiwan University)

  • Chang-Yu Huang

    (National Taiwan University)

  • Xuan-Rong Huang

    (National Taiwan University)

  • Xiaojing Cuili

    (National Taiwan University)

  • Tung Chao

    (National Taiwan University)

  • Chun-Hsiang Fan

    (National Taiwan University)

  • Cheng-Wei Ting

    (National Taiwan University)

  • Yi-Wei Tsai

    (National Taiwan University
    National Taiwan University Hospital)

  • Kai-Chien Yang

    (National Taiwan University)

  • Ti-Yen Yeh

    (National Taiwan University)

  • Sung-Tsang Hsieh

    (National Taiwan University)

  • Yi-Ju Chen

    (Academia Sinica)

  • Yuxi Feng

    (Heidelberg University)

  • Tony Hunter

    (Salk Institute)

  • Zee-Fen Chang

    (National Taiwan University
    National Taiwan University)

Abstract

NME3 is a member of the nucleoside diphosphate kinase (NDPK) family localized on the mitochondrial outer membrane (MOM). Here, we report a role of NME3 in hypoxia-induced mitophagy dependent on its active site phosphohistidine but not the NDPK function. Mice carrying a knock-in mutation in the Nme3 gene disrupting NME3 active site histidine phosphorylation are vulnerable to ischemia/reperfusion-induced infarction and develop abnormalities in cerebellar function. Our mechanistic analysis reveals that hypoxia-induced phosphatidic acid (PA) on mitochondria is essential for mitophagy and the interaction of DRP1 with NME3. The PA binding function of MOM-localized NME3 is required for hypoxia-induced mitophagy. Further investigation demonstrates that the interaction with active NME3 prevents DRP1 susceptibility to MUL1-mediated ubiquitination, thereby allowing a sufficient amount of active DRP1 to mediate mitophagy. Furthermore, MUL1 overexpression suppresses hypoxia-induced mitophagy, which is reversed by co-expression of ubiquitin-resistant DRP1 mutant or histidine phosphorylatable NME3. Thus, the site-specific interaction with active NME3 provides DRP1 a microenvironment for stabilization to proceed the segregation process in mitophagy.

Suggested Citation

  • Chih-Wei Chen & Chi Su & Chang-Yu Huang & Xuan-Rong Huang & Xiaojing Cuili & Tung Chao & Chun-Hsiang Fan & Cheng-Wei Ting & Yi-Wei Tsai & Kai-Chien Yang & Ti-Yen Yeh & Sung-Tsang Hsieh & Yi-Ju Chen & , 2024. "NME3 is a gatekeeper for DRP1-dependent mitophagy in hypoxia," Nature Communications, Nature, vol. 15(1), pages 1-20, December.
  • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-46385-7
    DOI: 10.1038/s41467-024-46385-7
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    References listed on IDEAS

    as
    1. Raghav Kalia & Ray Yu-Ruei Wang & Ali Yusuf & Paul V. Thomas & David A. Agard & Janet M. Shaw & Adam Frost, 2018. "Structural basis of mitochondrial receptor binding and constriction by DRP1," Nature, Nature, vol. 558(7710), pages 401-405, June.
    2. Felix Kraus & Krishnendu Roy & Thomas J. Pucadyil & Michael T. Ryan, 2021. "Function and regulation of the divisome for mitochondrial fission," Nature, Nature, vol. 590(7844), pages 57-66, February.
    3. Rajat Puri & Xiu-Tang Cheng & Mei-Yao Lin & Ning Huang & Zu-Hang Sheng, 2019. "Mul1 restrains Parkin-mediated mitophagy in mature neurons by maintaining ER-mitochondrial contacts," Nature Communications, Nature, vol. 10(1), pages 1-19, December.
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