In this paper, we describe the biochemical
reconstitution of a
cysteine salvage pathway and the biochemical characterization of each
of the five enzymes involved. The salvage begins with amine acetylation
of S-alkylcysteine, followed by thioether oxidation.
The C–S bond of the resulting sulfoxide is cleaved using a
new flavoenzyme catalytic motif to give N-acetylcysteine
sulfenic acid. This is then reduced to the thiol and deacetylated
to complete the salvage pathway. We propose that this pathway is important
in the catabolism of alkylated cysteine generated by proteolysis of
alkylated glutathione formed in the detoxification of a wide range
of electrophiles.
Flavoenzymes are highly versatile and participate in
the catalysis
of a wide range of reactions, including key reactions in the metabolism
of sulfur-containing compounds. S-Alkyl cysteine is formed primarily
by the degradation of S-alkyl glutathione generated during electrophile
detoxification. A recently discovered S-alkyl cysteine salvage pathway
uses two flavoenzymes (CmoO and CmoJ) to dealkylate this metabolite
in soil bacteria. CmoO catalyzes a stereospecific sulfoxidation, and
CmoJ catalyzes the cleavage of one of the sulfoxide C–S bonds
in a new reaction of unknown mechanism. In this paper, we investigate
the mechanism of CmoJ. We provide experimental evidence that eliminates
carbanion and radical intermediates and conclude that the reaction
proceeds via an unprecedented enzyme-mediated modified Pummerer rearrangement.
The elucidation of the mechanism of CmoJ adds a new motif to the flavoenzymology
of sulfur-containing natural products and demonstrates a new strategy
for the enzyme-catalyzed cleavage of C–S bonds.
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