RESUMO
A new series of heteroaryl nitrones were synthesized and evaluated as free radical traps due to the results showed in our previous report. The physicochemical characterization of these new nitrones by electron spin resonance (ESR) demonstrated their high capability to trap and stabilize different atom centered free radicals generated by the Fenton reaction. Additionally, we intensely studied them in terms of their physicochemical properties. Kinetic studies, including the use of a method based on competition and the hydroxyl adduct decay, gave the corresponding rate constants and half-lives at the physiological pH of these newly synthesized nitrones. New nitrones derived from quinoxaline 1,4-dioxide heterocycles were more suitable than DMPO to trap hydroxyl free radicals with a half-life longer than two hours. We explain some of the results using computational chemistry through density functional theory (DFT).
RESUMO
The metabolism of six anti-Trypanosoma cruzi 5-phenylethenylbenzofuroxans (PhEBfx) was studied in vitro using rat hepatic microsomal and cytosolic fractions as a mammalian model and whole cells of T. cruzi as a parasitic model. Some of the expected metabolites were synthesized to provide authentic chromatographic standards. The metabolites were identified using high-performance liquid chromatography (HPLC) in comparison with the authentic standards and their proportions were determined. Their structures were confirmed using mass spectrometry (MS) and nuclear magnetic resonance (NMR) spectroscopy. The behaviour of the six PhEBfx in the three different systems was similar. The main metabolites, formed by reductive processes, were the corresponding o-nitroanilines. Two of the test compounds were studied for extended time periods in the rat liver preparations and their terminal metabolites were identified as o-phenylendiamine derivatives.
