Abstract
Cytochrome c maturation (Ccm) is a post-translational process that occurs after translocation of apocytochromes c to the positive (p) side of energy-transducing membranes. Ccm is responsible for the formation of covalent bonds between the thiol groups of two cysteines residues at the heme-binding sites of the apocytochromes and the vinyl groups of heme b (protoporphyrin IX-Fe). Among the proteins (CcmABCDEFGHI and CcdA) required for this process, CcmABCD are involved in loading heme b to apoCcmE. The holoCcmE thus formed provides heme b to the apocytochromes. Catalysis of the thioether bonds between the apocytochromes c and heme b is mediated by the heme ligation core complex, which in Rhodobacter capsulatus contains at least the CcmF, CcmH, and CcmI components. In this work we show that the heme chaperone apoCcmE binds to the apocytochrome c and the apocytochrome c chaperone CcmI to yield stable binary and ternary complexes in the absence of heme in vitro. We found that during these protein-protein interactions, apoCcmE favors the presence of a disulfide bond at the apocytochrome c heme-binding site. We also establish using detergent-dispersed membranes that apoCcmE interacts directly with CcmI and CcmH of the heme ligation core complex CcmFHI. Implications of these findings are discussed with respect to heme transfer from CcmE to the apocytochromes c during heme ligation assisted by the core complex CcmFHI.
Highlights
Cytochrome c maturation (Ccm) is the covalent ligation of heme b to an apocytochrome c
Using reciprocal in vitro protein-protein interaction assays combined with size exclusion chromatography, we showed for the first time that R. capsulatus apoCcmE interacts directly with apocytochrome c2 in the absence of heme
If so, how the heme chaperone apoCcmE interacts with apocytochrome c and other Ccm components, including the CcmFHI complex, we produced in E. coli an N-terminal His epitope-tagged full-length R. capsulatus CcmE (His-apoCcmE) and its H123A mutant (His-apoCcmE-H123A) (Fig. 2A) (“Experimental Procedures” and Table 1)
Summary
Cytochrome c maturation (Ccm) is the covalent ligation of heme b to an apocytochrome c. Ing Rhodobacter capsulatus, cytochrome c maturation (Ccm) occurs extracytoplasmically and involves 10 membrane-associated proteins (CcmABCDEFGHI and CcdA) with specific roles (see Fig. 1 and listed in supplemental Table S1). Of these components, CcdA and CcmG are thiol oxidoreductases that are implicated in the reduction of the disulfides bonds at the hemebinding sites of the apocytochromes c. Formation of the thioether bonds is thought to occur at the heme ligation core complex, which contains at least the CcmF, CcmH and CcmI components in R. capsulatus [7] (Fig. 1 and supplemental Table S1).
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