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Mitochondrial calcium uniporter stabilization preserves energetic homeostasis during Complex I impairment

Author

Listed:
  • Enrique Balderas

    (University of Utah)

  • David R. Eberhardt

    (University of Utah)

  • Sandra Lee

    (University of Utah)

  • John M. Pleinis

    (University of Utah)

  • Salah Sommakia

    (University of Utah)

  • Anthony M. Balynas

    (University of Utah)

  • Xue Yin

    (University of Utah)

  • Mitchell C. Parker

    (University of Nevada Reno School of Medicine)

  • Colin T. Maguire

    (University of Utah)

  • Scott Cho

    (University of Utah)

  • Marta W. Szulik

    (University of Utah)

  • Anna Bakhtina

    (University of Utah)

  • Ryan D. Bia

    (University of Utah)

  • Marisa W. Friederich

    (University of Colorado
    Children’s Hospital Colorado)

  • Timothy M. Locke

    (University of Washington)

  • Johan L. K. Hove

    (University of Colorado)

  • Stavros G. Drakos

    (University of Utah
    University of Utah)

  • Yasemin Sancak

    (University of Washington)

  • Martin Tristani-Firouzi

    (University of Utah
    University of Utah School of Medicine)

  • Sarah Franklin

    (University of Utah
    University of Utah)

  • Aylin R. Rodan

    (University of Utah
    University of Utah)

  • Dipayan Chaudhuri

    (University of Utah
    University of Utah
    University of Utah)

Abstract

Calcium entering mitochondria potently stimulates ATP synthesis. Increases in calcium preserve energy synthesis in cardiomyopathies caused by mitochondrial dysfunction, and occur due to enhanced activity of the mitochondrial calcium uniporter channel. The signaling mechanism that mediates this compensatory increase remains unknown. Here, we find that increases in the uniporter are due to impairment in Complex I of the electron transport chain. In normal physiology, Complex I promotes uniporter degradation via an interaction with the uniporter pore-forming subunit, a process we term Complex I-induced protein turnover. When Complex I dysfunction ensues, contact with the uniporter is inhibited, preventing degradation, and leading to a build-up in functional channels. Preventing uniporter activity leads to early demise in Complex I-deficient animals. Conversely, enhancing uniporter stability rescues survival and function in Complex I deficiency. Taken together, our data identify a fundamental pathway producing compensatory increases in calcium influx during Complex I impairment.

Suggested Citation

  • Enrique Balderas & David R. Eberhardt & Sandra Lee & John M. Pleinis & Salah Sommakia & Anthony M. Balynas & Xue Yin & Mitchell C. Parker & Colin T. Maguire & Scott Cho & Marta W. Szulik & Anna Bakhti, 2022. "Mitochondrial calcium uniporter stabilization preserves energetic homeostasis during Complex I impairment," Nature Communications, Nature, vol. 13(1), pages 1-17, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-30236-4
    DOI: 10.1038/s41467-022-30236-4
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    References listed on IDEAS

    as
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