Abstract
Methionine sulfoxide reductase A is an essential enzyme in the antioxidant system which scavenges reactive oxygen species through cyclic oxidation and reduction of methionine and methionine sulfoxide. Recently it has also been shown to catalyze the reverse reaction, oxidizing methionine residues to methionine sulfoxide. A cysteine at the active site of the enzyme is essential for both reductase and oxidase activities. This cysteine has been reported to have a pK(a) of 9.5 in the absence of substrate, decreasing to 5.7 upon binding of substrate. Using three independent methods, we show that the pK(a) of the active site cysteine of mouse methionine sulfoxide reductase is 7.2 even in the absence of substrate. The primary mechanism by which the pK(a) is lowered is hydrogen bonding of the active site Cys-72 to protonated Glu-115. The low pK(a) renders the active site cysteine susceptible to oxidation to sulfenic acid by micromolar concentrations of hydrogen peroxide. This characteristic supports a role for methionine sulfoxide reductase in redox signaling.
Highlights
The active site cysteine of methionine sulfoxide reductases has been reported to be 9.5
In the course of studies on mouse methionine sulfoxide reductase A (msrA), we observed that the active site cysteine, Cys-72,3 was readily oxidized to the sulfenic acid by micromolar concentration of hydrogen peroxide
Biochemical, mutational, and structural studies have firmly established that the Cys-72 thiolate is the active site nucleophile of msrA which attacks the sulfoxide of the substrate
Summary
Levine‡1 From the ‡Laboratory of Biochemistry and §Laboratory of Molecular Biophysics, NHLBI, National Institutes of Health, Bethesda, Maryland 20892-8012
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