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Nitrobenzyl radical metabolites from microsomal reduction of nitrobenzyl chlorides.

The Journal of biological chemistry (1986-06-15)
S N Moreno, J Schreiber, R P Mason
RESUMEN

The o-, m-, and p-nitrobenzyl chlorides are reduced aerobically and anaerobically by NADPH and rat hepatic microsomes. Under aerobic conditions, these nitro anion radicals reduce oxygen to superoxide as demonstrated by oxygen consumption and spin trapping of superoxide with 5,5-dimethyl-1-pyrroline N-oxide. At low oxygen concentration, the p- and o-nitro anion radicals undergo intramolecular electron transfer and decompose to carbon-centered nitrobenzyl radicals, which can be spin-trapped with t-nitrosobutane. The p-nitrobenzyl (o-nitrobenzyl) radical adduct was characterized by a nitrogen hyperfine splitting of 16.5 G (17.1 G) and two equivalent beta-hydrogen hyperfine splittings of 10.6 G (14.4 G). The spin trap 5,5-dimethyl-1-pyrroline N-oxide also yields adducts characteristic of carbon-centered free radicals. This unimolecular decomposition is much faster than the disproportionation decay, which is characteristic of most nitro anion radicals, and the primary o- and p-nitrobenzyl chloride anion radicals never achieve detectable concentrations. The nitrobenzyl radical trapping is not inhibited by metyrapone or CO. In contrast, the m-nitrobenzyl anion radical does achieve a detectable steady-state concentration, which is increased 20% by either metyrapone or a CO atmosphere.

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Sigma-Aldrich
4-Nitrobenzyl chloride, 99%