Identification of 3-MI-derived N-centerred radicals obtained from incubation of 3-MI with microsomal-NADPH system by EPR-HPLC spin trapping

Abstract

3-Methylindole (3-MI) is a metabolite of tryptophan that causes acute pulmonary edema and emphysema in ruminants when administered orally or intravenously. Electron paramagnetic resonance (EPR) spin-trapping techniques have been used to investigate the in vitro and in vivo formation of free radicals during 3-MI metabolism by goat lung. Utilizing C-phenyl-N-tertbutyl nitrone (PBN), a nitrogen-centered free radical has been detected from 3-MI in goat lung muicrosomal incubation. The EPR spectrum of the spin adduct is identical to the observed when 3-MI is irradiated with ultraviolet light. The formation of a nitrogen-centered 3-MI free radical is followed by the appearance of a carbon-centered radical in microsomal preparations. The objective of the present study is to prove that the nitrogen-centered radical generated from the 3-MI incubation systems is a 3-MI radical utilizing [ 14C]-3 MI and the EPR-HPLC technique. The HPLC chromatogram includes three peaks that give EPR signals. These peaks are assigned to nitrogen-, oxygen- and carbon-centered radical adducts. The polarity of the three peaks follows the order: carbon-centered radical adduct > oxygen-centered radical adduct > nitrogen-centered radical adduct. The last has a polarity that is weaker tha 3-MI. Only the nitrogen-centered peak and the 3-MI peak possessef radioactivity. The retention time of the nitrogen centered radical is the same as the spin adduct generated by 3-MI irradiation with ultraviolet light. These results demonstrate that the nitrogen-centered radical is a 3-MI-PBN spin adduct, and supports the hypothesis that 3-MI-induced lung damage results from activation of 3-MI to a free radical. Also, in this study the stability of the radical spin adducts and the best conditions to produce the radicals in the incubation system was investigated.