Control of metabolite flux during the final steps of heme b biosynthesis in Gram positive bacteria

The pathway for assembling heme ends with a unique set of enzymes in Gram-positive bacteria. Substrates for these reactions include coproporphyrin III, Fe(II), and H2O2, which are highly reactive and toxic. Because these bacteria lack membranous compartments, we hypothesized that metabolite flux may occur via a transient protein–protein interaction between the final two pathway enzymes, coproporphyrin ferrochelatase (CpfC) and coproheme decarboxylase (ChdC). This hypothesis was tested using enzymes from the pathogen Staphylococcus aureus and a corresponding ΔchdC knockout strain. The ultraviolet–visible spectral features of coproporphyrin III served as an in vitro indicator of a protein–protein interaction. A CpfC–ChdC KD of 17 ± 7 μM was determined, consistent with transient complexation and supported by the observation that the catalytic competence of both enzymes was moderately suppressed in the stable complex. The ΔchdC S. aureus was transformed with plasmids containing single-amino acid mutants in th...