Tertiary Amines Related to Brompheniramine: Preferred Conformations for N-Oxygenation by the Hog Liver Flavin-Containing Monooxygenase

Abstract

The metabolism of racemic, (D)- and (L)-brompheniramine, a widely used antihistamine, was studied with microsomes and with highly purified flavin-containing monooxygenase (FMO) from hog liver. In addition, a number of other similar tertiary amines were evaluated as substrates for FMO activity from hog liver and the kinetic constants obtained were compared with brompheniramine. Although some N-demethylation was observed, the major metabolite of brompheniramine and the other tertiary amines examined in hog liver microsomes was the metabolite containing an aliphatic nitrogen N-oxide. Brompheniramine was extensively N-oxygenated by the highly purified FMO from hog liver. N-Oxygenation of brompheniramine in both microsomes and with highly purified FMO from hog liver was enantioselective. The K_m for N-oxygenation of (D)-brompheniramine was markedly lower than the K_m for (L)-brompheniramine. (E)- and (Z)-zimeldine are less conformationally flexible model compounds of brompheniramine, and these compounds were also examined and were found to be stereoselectively N-oxygenated by the highly purified FMO from hog liver. The similarities and differences in K_m and V_max values were evaluated in terms of possible conformations of the substrates determined by SYBYL molecular mechanics calculations. Distance map data indicated that FMO preferentially accommodated selected conformations of tertiary amines. Thus, (D)-bromopheniramine and (Z)-zimeldine presumably have the aliphatic tertiary amine nitrogen atom and aromatic ring center at a defined distance and geometry and were more efficiently N-oxygenated than their respective isomers.