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Cardiolipin dynamics promote membrane remodeling by mitochondrial OPA1

Author

Listed:
  • Sirikrishna Thatavarthy

    (New York University)

  • Luciano A. Abriata

    (École Polytechnique Fédérale de Lausanne
    École Polytechnique Fédérale de Lausanne
    Swiss Institute of Bioinformatics)

  • Fernando Teixeira Pinto Meireles

    (École Polytechnique Fédérale de Lausanne
    Swiss Institute of Bioinformatics)

  • Kelly E. Zuccaro

    (University of Colorado Boulder)

  • Akhil Gargey Iragavarapu

    (New York University)

  • Gabriela May Sullivan

    (University of Colorado Boulder)

  • Frank R. Moss

    (Bay Area Institute of Science)

  • Adam Frost

    (Bay Area Institute of Science)

  • Matteo Dal Peraro

    (École Polytechnique Fédérale de Lausanne
    Swiss Institute of Bioinformatics)

  • Halil Aydin

    (New York University
    University of Colorado Boulder
    New York University)

Abstract

Cardiolipin is a mitochondria-specific phospholipid that forms heterotypic interactions with membrane-shaping proteins and regulates the dynamic remodeling and function of mitochondria. However, the precise mechanisms through which cardiolipin influences mitochondrial morphology are not well understood. In this study, employing molecular dynamics simulations, we determined that cardiolipin molecules extensively engage with the paddle domain of mitochondrial fusion protein OPA1, which controls membrane-shaping mechanisms. Structure-function analysis confirmed the interactions between cardiolipin and two conserved motifs of OPA1 at the membrane-binding sites. We further developed a bromine-labeled cardiolipin probe to enhance cryoEM contrast and characterized the structure of OPA1 assemblies bound to the cardiolipin brominated lipid bilayers. Our images provide direct evidence of cardiolipin enrichment within the OPA1-binding leaflet. Last, we observed a decrease in membrane remodeling activity for OPA1 in lipid compositions with increasing concentrations of monolyso-cardiolipin. This suggests that the partial replacement of cardiolipin by monolyso-cardiolipin, as observed in Barth syndrome, alters the malleability of the membrane and compromises proper remodeling. Together, these data provide insights into how biological membranes regulate the mechanisms governing mitochondrial homeostasis.

Suggested Citation

  • Sirikrishna Thatavarthy & Luciano A. Abriata & Fernando Teixeira Pinto Meireles & Kelly E. Zuccaro & Akhil Gargey Iragavarapu & Gabriela May Sullivan & Frank R. Moss & Adam Frost & Matteo Dal Peraro &, 2025. "Cardiolipin dynamics promote membrane remodeling by mitochondrial OPA1," Nature Communications, Nature, vol. 16(1), pages 1-18, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-63813-4
    DOI: 10.1038/s41467-025-63813-4
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    References listed on IDEAS

    as
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    2. Yu-Lu Cao & Shuxia Meng & Yang Chen & Jian-Xiong Feng & Dong-Dong Gu & Bing Yu & Yu-Jie Li & Jin-Yu Yang & Shuang Liao & David C. Chan & Song Gao, 2017. "MFN1 structures reveal nucleotide-triggered dimerization critical for mitochondrial fusion," Nature, Nature, vol. 542(7641), pages 372-376, February.
    3. Sarah B. Nyenhuis & Xufeng Wu & Marie-Paule Strub & Yang-In Yim & Abigail E. Stanton & Valentina Baena & Zulfeqhar A. Syed & Bertram Canagarajah & John A. Hammer & Jenny E. Hinshaw, 2023. "OPA1 helical structures give perspective to mitochondrial dysfunction," Nature, Nature, vol. 620(7976), pages 1109-1116, August.
    4. Zhenlin Yang & Shuo Han & Max Keller & Anette Kaiser & Brian J. Bender & Mathias Bosse & Kerstin Burkert & Lisa M. Kögler & David Wifling & Guenther Bernhardt & Nicole Plank & Timo Littmann & Peter Sc, 2018. "Structural basis of ligand binding modes at the neuropeptide Y Y1 receptor," Nature, Nature, vol. 556(7702), pages 520-524, April.
    5. Alexander Malsburg & Gracie M. Sapp & Kelly E. Zuccaro & Alexander Appen & Frank R. Moss & Raghav Kalia & Jeremy A. Bennett & Luciano A. Abriata & Matteo Dal Peraro & Martin Laan & Adam Frost & Halil , 2023. "Structural mechanism of mitochondrial membrane remodelling by human OPA1," Nature, Nature, vol. 620(7976), pages 1101-1108, August.
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