Reaction between peroxynitrite and triphenylphosphonium-substituted arylboronic acid isomers: identification of diagnostic marker products and biological implications.

Aromatic boronic acids react rapidly with peroxynitrite (ONOO(-)) to yield phenols as major products. This reaction was used to monitor ONOO(-) formation in cellular systems. Previously, we proposed that the reaction between ONOO(-) and arylboronates (PhB(OH)2) yields a phenolic product (major pathway) and a radical pair PhB(OH)2O(•-)···(•)NO2 (minor pathway). [Sikora, A. et al. (2011) Chem. Res. Toxicol. 24, 687-697]. In this study, we investigated the influence of a bulky triphenylphosphonium (TPP) group on the reaction between ONOO(-) and mitochondria-targeted arylboronate isomers (o-, m-, and p-MitoPhB(OH)2). Results from the electron paramagnetic resonance (EPR) spin-trapping experiments unequivocally showed the presence of a phenyl radical intermediate from meta and para isomers, and not from the ortho isomer. The yield of o-MitoPhNO2 formed from the reaction between o-MitoPhB(OH)2 and ONOO(-) was not diminished by phenyl radical scavengers, suggesting a rapid fragmentation of the o-MitoPhB(OH)2O(•-) radical anion with subsequent reaction of the resulting phenyl radical with (•)NO2 in the solvent cage. The DFT quantum mechanical calculations showed that the energy barrier for the dissociation of the o-MitoPhB(OH)2O(•-) radical anion is significantly lower than that of m-MitoPhB(OH)2O(•-) and p-MitoPhB(OH)2O(•-) radical anions. The nitrated product, o-MitoPhNO2, is not formed by the nitrogen dioxide radical generated by myeloperoxidase in the presence of the nitrite anion and hydrogen peroxide, indicating that this specific nitrated product may be used as a diagnostic marker product for ONOO(-). Incubation of o-MitoPhB(OH)2 with RAW 264.7 macrophages activated to produce ONOO(-) yielded the corresponding phenol o-MitoPhOH as well as the diagnostic nitrated product, o-MitoPhNO2. We conclude that the ortho isomer probe reported here is most suitable for specific detection of ONOO(-) in biological systems.