Studies on the chemical reactivity of 2-phenylpropionic acid 1-O-acyl glucuronide and S-Acyl-CoA thioester metabolitest

Chemically reactive species formed from the metabolism of carboxylic acid-containing compounds have been proposed as mediators of their toxic side-effects. Two alternative metabolic pathways known to be involved in the generation of reactive acylating metabolites of carboxylic acids are acyl glucuronidation and acyl-CoA formation. Here, we present studies with 2-phenylpropionic acid focused on evaluating the relative abilities of acyl glucuronides versus acyl-CoA derivatives to transacylate the nucleophilic cysteinyl-thiol of glutathione. Thus, synthetic 2-phenylpropionyl-S-acyl-CoA (2-PPA-SCoA) and biosynthetic 2-phenylpropionyl-1-O-acyl glucuronide (2-PPA-1-O-G) were incubated separately, and at varying concentrations (15.6-500 nM as well as at 0.1 mM), with GSH (1, 5, and 10 mM) in buffer (pH 7.4, 37 degreesC), and formation of the transacylation product, 2-phenylpropionyl-S-acyl-glutathione (2-PPA-SG), was quantified by reverse-phase HPLC and LC-MS. HPLC analysis of the products from both the reaction of 2-PPA-SCoA and 2-PPA-1-O-G with GSH showed the presence of 2-PPA-SG, which was confirmed by coelution with authentic 2-PPA-SG as well as by its LC/MS mass spectrum. The formation of 2-PPA-SG was time- and concentration-dependent with a formation rate constant of (1.9 +/- 0.2) x 10(-2) M(-1.)s(-1) from reactions of GSH with 2-PPA-SCoA, and (2.7 +/- 0.4) x 10(-4) M(-1.)s(-1) from reactions of GSH with 2-PPA-1-O-G. Therefore, the reactivity of 2-PPA-SCoA with GSH was 70 times greater than the reactivity of GSH with 2-PPA-1-O-G, which was found to acyl-migrate to less reactive isomers. Analysis of the in vitro stability of 2-PPA-SCoA and 2-PPA-1-O-G in the absence of GSH showed the CoA esters to be completely stable after 24 h, whereas the acyl glucuronides decomposed by 50% in 1.3 and 2.4 h of incubation at pH 7.4 and 37 degreesC for (R)- and (S)-2-PPA-1-O-G, respectively. In addition, studies of the reactivity of 2-PPA-SCoA with bovine serum albumin showed time- and pH-dependent covalent binding to the protein in vitro. These results support the hypothesis that xenobiotic acyl-CoA thioesters are reactive acylating species that, in addition to acyl glucuronides, may contribute to xenobiotic acid-protein adduct formation in vivo.