Abstract
Electron spin resonance spectroscopy has been used to monitor free radicals formed during CCl4 metabolism by perfused livers from phenobarbital-treated rats. Livers were perfused simultaneously with the spin trap phenyl N-t-butylnitrone and with either 12CCl4 or 13CCl4. Perfusate samples and CHCl3:CH3OH extracts of perfusate and liver samples were analyzed for phenyl N-t-butylnitrone radical adducts of reactive free radicals. In the organic extracts, hyperfine coupling constants and 13C isotope effects observed in the ESR spectra indicated the presence of the radical adduct of the trichloromethyl radical. Surprisingly, an additional free radical signal about two orders of magnitude more intense than that of the phenyl N-t-butylnitrone/CCl.3 radical adduct was observed in the aqueous liver perfusate. This adduct was also detected by ESR in rat urine 2 h after intragastric addition of spin trap and CCl4. This radical adduct had hyperfine coupling constants and 13C isotope effects identical with the radical adduct of the carbon dioxide anion radical (CO2-.). Analysis of the pH dependence of the coupling constants yielded a pK alpha of 2.8 for the CO2-. radical adduct formed either in the perfused liver or chemically. Carbon tetrachloride is converted into CCl.3 by cytochrome P-450 through a reductive dehalogenation. The trichloromethyl free radical reacts with oxygen to form the trichloromethyl peroxyl radical, CCl3OO., which may be converted into .COCl and then trapped. This radical adduct would hydrolyze to the carboxylic acid form, which is detected spectroscopically. Alternatively, the carbon dioxide anion free radical could form through complete dechlorination and then react with the spin trap to give the CO2-. radical adduct directly.
Highlights
Electron spin resonancespectroscopy has been used invariant ESR spectrum was detected and eventually assigned to monitor free radicals formed during,CCl, metabo- to a PBN radical adduct of a lipid alkoxy radical [4]
We have examined rat urine and effluent perfusate from aqueous liver perfusate
Production of CCl; by Perfused Liver-It is well established that CCl; is produced from the metabolism of CCla by cytochrome P-450 (Equation 5) [1]
Summary
Vol 261,No Issue of April 5,pp. $42-4548,1986 Prrnted m U.S.A. The Formationof a Novel Free Radical Metabolite from CCl, in the Perfused Rat Liver andin Viuo*. In by ESR in rat urine 2 h after intragastric addition of addition to detecting the trichloromethyl radical in the liver spin trap and CC14. This radicaladduct had hyperfine andinextracts of effluent perfusate, a novel free radical coupling constantsand 13C isotope effectsidentical metabolite of carbon tetrachloride was discovered in the efwith the radical adduct of the carbon dioxide anion fluent perfusate. In the study of the pH dependence of the hyperfine couplings of the PBN/13CO; radical adduct, 200 p1 of the solution described above were added to 3 ml of perfusion buffer which was pH-adjusted by the addition of 1N HC1 or NaOH. The simulations of ESR spectra were performed on a Hewlett-Packard H P 9835B computer equipped with a Varian data acquisition system
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