Structural Insights into Mechanisms Underlying Mitochondrial and Bacterial Cytochrome c Synthases
2024
Pema L. Childs | Ethan P. Lowder | Deanna L. Mendez | Shalon E. Babbitt | Amidala Martinie | Jonathan Q. Huynh | Robert G. Kranz
Mitochondrial holocytochrome c synthase (HCCS) is an essential protein in assembling cytochrome c (cyt c) of the electron transport system. HCCS binds heme and covalently attaches the two vinyls of heme to two cysteine thiols of the cyt c CXXCH motif. Human HCCS recognizes both cyt c and cytochrome c<sub>1</sub> of complex III (cytochrome bc<sub>1</sub>). HCCS is mutated in some human diseases and it has been investigated recombinantly by mutational, biochemical, and reconstitution studies in the past decade. Here, we employ structural prediction programs (e.g., AlphaFold 3) on HCCS and its two substrates, heme and cytochrome c. The results, when combined with spectroscopic and functional analyses of HCCS and variants, provide insights into the structural basis for heme binding, apocyt c binding, covalent attachment, and release of the holocyt c product. Results from in vitro reconstitution of purified human HCCS using cyt c and cyt c<sub>1</sub> peptides as acceptors are consistent with the structural modeling of substrate binding. Reconstitution of HCCS and cyt c<sub>1</sub> provides an approach to studying cyt c<sub>1</sub> assembly, which has been refractile to recombinant in vivo reconstitution (unlike HCCS and cyt c). We propose a structural basis for release of the holocyt c product from HCCS based on in vitro studies and on cryoEM structures of the bacterial cyt c synthase (CcsBA) active site. We analyze the kinetoplastid mitochondrial synthase (KCCS), and hypothesize a molecular evolutionary path from mitochondrial endosymbiosis to the current HCCS.
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