Abstract
Washed microsomes from rabbit liver reduced 1-nitrosoadamantane to N-hydroxy-1-aminoadamantane in the presence of a cofactor solution under aerobic conditions; no further reduction of the hydroxylamino metabolite to 1-aminoadamantane (amantadine) occurred. Reduced pyridine nucleotide cofactors are needed for the metabolic reduction. The rate of formation of N-hydroxy-1-aminoadamantane depended upon the microsomal protein content, the time of incubation and the concentration of 1-nitrosoadamantane incubated. The metabolic reduction occurred in air as well as under nitrogen or carbon monoxide. Cupric chloride, mercuric chloride, cysteamine, FAD, and FMN decreased significantly the C-nitroso reductase. The properties of the C-nitroso reductase differed from those of other microsomal reductive pathways.
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