Reversible dimerization of cytochrome c oxidase regulates mitochondrial respiration

Publication date: Available online 13 August 2019Source: MitochondrionAuthor(s): Rabia Ramzan, Annika Rhiel, Petra Weber, Bernhard Kadenbach, Sebastian VogtAbstractAlmost all energy consumed by higher organisms, either in the form of ATP or heat, is produced in mitochondria by respiration and oxidative phosphorylation through five protein complexes in the inner membrane. High-resolution x-ray analysis of crystallized cytochrome c oxidase (CytOx), the final oxygen-accepting complex of the respiratory chain, isolated by using cholate as detergent, revealed a dimeric structure with 13 subunits in each monomer. In contrast, CytOx isolated with non-ionic detergents appeared to be monomeric. Our data indicate in vivo a continuous transition between CytOx monomers and dimers via reversible phosphorylation. Increased intracellular calcium, as a consequence of stress, dephosphorylates and monomerises CytOx, whereas cAMP rephosphorylates and dimerises it. Only dimeric CytOx exhibits an “allosteric ATP-inhibition” which inhibits respiration at high cellular ATP/ADP-ratios and could prevent oxygen radical formation and the generation of diseases.
Source: Mitochondrion - Category: Biochemistry Source Type: research