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Endogenous H2O2 produced by Streptococcus pneumoniae controls FabF activity.

Biochimica et biophysica acta (2010-07-06)
Rachel Benisty, Aharon Yehonatan Cohen, Alexandra Feldman, Zvi Cohen, Nurith Porat
RESUMEN

FabF elongation condensing enzyme is a critical factor in determining the spectrum of products produced by the FASII pathway. Its active site contains a critical cysteine-thiol residue, which is a plausible target for oxidation by H2O2. Streptococcus pneumoniae produces exceptionally high levels of H2O2, mainly through the conversion of pyruvate to acetyl-P via pyruvate oxidase (SpxB). We present evidence showing that endogenous H2O2 inhibits FabF activity by specifically oxidizing its active site cysteine-thiol residue. Thiol trapping methods revealed that one of the three FabF cysteines in the wild-type strain was oxidized, whereas in an spxB mutant, defective in H2O2 production, none of the cysteines was oxidized, indicating that the difference in FabF redox state originated from endogenous H2O2. In vitro exposure of the spxB mutant to various H2O2 concentrations further confirmed that only one cysteine residue was susceptible to oxidation. By blocking FabF active site cysteine with cerulenin we show that the oxidized cysteine was the catalytic one. Inhibition of FabF activity by either H2O2 or cerulenin resulted in altered membrane fatty acid composition. We conclude that FabF activity is inhibited by H2O2 produced by S. pneumoniae.

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Sigma-Aldrich
Pyruvate Oxidase from microorganisms, lyophilized powder, ≥1.5 U/mg
Sigma-Aldrich
Pyruvate Oxidase from Aerococcus sp., lyophilized powder, ≥35 units/mg protein (biuret)