Cardiolipin stabilizes respiratory chain supercomplexes

Pfeiffer, Kathy; Gohil, Vishal; Stuart, Rosemary A.; Hunte, Carola; Brandt, Ulrich; Greenberg, Miriam L.; Schaegger, Hermann

doi:10.1074/jbc.M308366200

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Cardiolipin stabilizes respiratory chain supercomplexes

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Hunte, Carola
Department of Molecular Membrane Biology, Max Planck Institute of Biophysics, Max Planck Society;

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Citation

Pfeiffer, K., Gohil, V., Stuart, R. A., Hunte, C., Brandt, U., Greenberg, M. L., et al. (2003). Cardiolipin stabilizes respiratory chain supercomplexes. Journal of Biological Chemistry, 278(52), 52873-52880. doi:10.1074/jbc.M308366200.

Cite as: https://hdl.handle.net/11858/00-001M-0000-0024-DBED-F

Abstract

Cardiolipin stabilized supercomplexes of Saccharomyces cerevisiae respiratory chain complexes III and IV (ubiquinol:cytochrome c oxidoreductase and cytochrome c oxidase, respectively), but was not essential for their formation in the inner mitochondrial membrane because they were found also in a cardiolipin-deficient strain. Reconstitution with cardiolipin largely restored wild-type stability. The putative interface of complexes III and IV comprises transmembrane helices of cytochromes b and c₁ and tightly bound cardiolipin. Subunits Rip1p, Qcr6p, Qcr9p, Qcr10p, Cox8p, Cox12p, and Cox13p and cytochrome c were not essential for the assembly of supercomplexes; and in the absence of Qcr6p, the formation of supercomplexes was even promoted. An additional marked effect of cardiolipin concerns cytochrome c oxidase. We show that a cardiolipin-deficient strain harbored almost inactive resting cytochrome c oxidase in the membrane. Transition to the fully active pulsed state occurred on a minute time scale.