1. Academic Validation
  2. Human mitochondrial holocytochrome c synthase's heme binding, maturation determinants, and complex formation with cytochrome c

Human mitochondrial holocytochrome c synthase's heme binding, maturation determinants, and complex formation with cytochrome c

  • Proc Natl Acad Sci U S A. 2013 Feb 26;110(9):E788-97. doi: 10.1073/pnas.1213897109.
Brian San Francisco 1 Eric C Bretsnyder Robert G Kranz
Affiliations

Affiliation

  • 1 Department of Biology, Washington University in St. Louis, St. Louis, MO 63130, USA.
Abstract

Proper functioning of the mitochondrion requires the orchestrated assembly of respiratory complexes with their cofactors. Cytochrome c, an essential electron carrier in mitochondria and a critical component of the apoptotic pathway, contains a heme cofactor covalently attached to the protein at a conserved CXXCH motif. Although it has been known for more than two decades that heme attachment requires the mitochondrial protein holocytochrome c synthase (HCCS), the mechanism remained unknown. We purified membrane-bound human HCCS with endogenous heme and in complex with its cognate human apocytochrome c. Spectroscopic analyses of HCCS alone and complexes of HCCS with site-directed variants of cytochrome c revealed the fundamental steps of heme attachment and maturation. A conserved histidine in HCCS (His154) provided the key ligand to the heme iron. Formation of the HCCS:heme complex served as the platform for interaction with apocytochrome c. Heme was the central molecule mediating contact between HCCS and apocytochrome c. A conserved histidine in apocytochrome c (His19 of CXXCH) supplied the second axial ligand to heme in the trapped HCCS:heme:cytochrome c complex. We also examined the substrate specificity of human HCCS and converted a Bacterial cytochrome c into a robust substrate for the HCCS. The results allow us to describe the molecular mechanisms underlying the HCCS reaction.

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