Abstract
Bisphenol A (BPA) has received considerable attention as an endocrine disrupting chemical and a possible substrate for genotoxic metabolites. BPA metabolism leads to formation of electrophilic o-quinones cable of binding to DNA and other endogenous nucleophiles. We have structurally identified the products resulting from the reaction of bisphenol A-3,4-quinone (BPAQ) with N-acetylcysteine (NAC) and glutathione (GSH). The major and minor isomers are both the result of 1,6-conjugate addition and are produced almost instantly in high yield. Reactions using 1.3 equiv of GSH showed the presence of a bis-glutathionyl adduct which was not observed using higher GSH concentration relative to BPAQ. NAC reactions with BPAQ showed no bis-N-acetylcysteinyl adducts. Stopped-flow kinetic analysis reveals the 1,6-conjugate additions to be reversible with a forward free energy of activation of 9.2 and 7.8 kcal/mol for the NAC and GSH reactions, respectively. The bimolecular forward rate constant at 19.4 °C was approximately three time faster for GSH compared to NAC, 1547 vs 496 M-1 s-1. The free energy of activation for the reverse reactions were similar, 11.7 and 11.2 kcal/mol for NAC and GSH, respectively. We plan to use this model system to further explore the mechanism of adduct formation between sulfur nucleophiles and o-quinones and the resulting chemical properties of both NAC and GSH adducts.
Highlights
Bisphenol A (BPA) is a widely used industrial chemical prominent in the manufacture of plastics and epoxy resins.[1]BPA and its metabolites can act as estrogen mimics and are classified as endocrine disrupting chemicals.[2]
When BPAQ is dissolved in methanol and an aqueous solution of NAC (1.3 equiv, phosphate buffer, pH 6.2) is added, rapid decolorization of the red BPAQ solution is observed
NAC, and the minor product was 2-NAC (11%); both products are the result of 1,6-conjugate addition
Summary
Bisphenol A (BPA) is a widely used industrial chemical prominent in the manufacture of plastics and epoxy resins.[1]BPA and its metabolites can act as estrogen mimics and are classified as endocrine disrupting chemicals.[2]. The middle fraction was subject to a second separation using a 12 g C18 SNAP Ultra column, solvents were removed, and solids dried overnight under high vacuum at 50 °C to afford a total of 319 mg (81%) of 3-hydroxy-5-NAC-BPA and 27 mg The fraction containing the 2,5-GSH/5-GSH mixture was subjected to a second separation using a Biotage 30 g C18 SANP Ultra flash column, solvents were removed, and solids dried overnight under high vacuum at 50 °C to afford a total of 151 mg of 3-hydroxy-2,5-diGSH-
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