posted on 2020-01-07, 14:05authored bySilvio Uhlig, Lada Ivanova, Christopher O. Miles
Deoxynivalenol
(DON) is a trichothecene mycotoxin that is produced
by several species of Fusarium, which may infect
grain crops. DON, as well as other type-B trichothecenes, contain
an α,β-unsaturated carbonyl group that may react with
sulfhydryl groups in, for example, amino acids and peptides. Such
conjugates have been shown to occur in plants. Nucleophilic addition
of thiols to the conjugated double bond in DON afforded several isomeric
reaction products, and the thermodynamically favored isomers of DON-10-cysteine
and DON-10-glutathione have been prepared and characterized previously.
This study reports the preparation and characterization of the kinetically
favored DON-10-cysteine isomer. We subsequently studied and compared
the rate of the deconjugation reaction of the two DON-10-cysteine
isomers and the thermodynamically favored DON-10-glutathione adduct.
The deconjugation rate of the thermodynamically favored thiol conjugates
was slow with half-lives of weeks even at pH 10.7, while the kinetically
favored DON-10-cysteine isomer deconjugated within a few hours, affording
free DON. We adapted a simple and rapid oxidation protocol in which
the sulfide linkage was oxidized to a sulfoxide or sulfone that, when
treated with the base, rapidly eliminated the adducted thiol as its
sulfenate or sulfinate to afford free DON. The deconjugation reactions
of the sulfoxides and sulfones of thermodynamically favored DON-10-thiols
were complete within hours or minutes at pH 10.7, respectively. The
increase in deconjugation rates for the kinetically favored DON-10-cysteine
were less dramatic. Oxidation of sulfides to sulfoxides is known to
occur in vivo, and thus, our data show that thiol-conjugated DON might
become bioavailable via sulfide oxidation followed by elimination
to regenerate DON. The oxidation–elimination approach could
also be useful for the indirect quantification of DON-10-thiol conjugates
in plant and animal tissues.