| 6498831 |
McManus ME, Boobis AR, Minchin RF, Schwartz DM, Murray S, Davies DS, Thorgeirsson SS: Relationship between oxidative metabolism of 2-acetylaminofluorene, debrisoquine, bufuralol, and aldrin in human liver microsomes. Cancer Res. 1984 Dec;44(12 Pt 1):5692-7.
The capacity of human liver microsomes from 28 individuals to metabolize debrisoquine and bufuralol, two drugs oxidized polymorphically in humans, as well as the carcinogen 2-acetylaminofluorene (AAF), was determined. In addition, the cytochrome P-450 content and the capacity of these microsomes to carry out the epoxidation of aldrin were measured. Interindividual differences in debrisoquine 4-hydroxylation, bufuralol 1-hydroxylation, and aldrin epoxidation were 12-, 20-, and 2.4-fold, respectively. The metabolism of debrisoquine was not correlated with cytochrome P-450 content (r = 0.26), whereas both the metabolism of bufuralol (r = 0.45; r2 = 0.20) and the epoxidation of aldrin (r = 0.72; r2 = 0.52) were correlated. Rates of debrisoquine and bufuralol metabolism were significantly correlated (r = 0.73), whereas only weak correlations existed between debrisoquine:aldrin (r = 0.49) and bufuralol:aldrin (r = 0.51). Because biphasic kinetics have been observed in human liver microsomes for the 7- and 5-hydroxylation of AAF, two concentrations of this substrate were used. The disappearance of AAF at either 0.37 or 50 microM was not correlated with debrisoquine, bufuralol, or aldrin metabolism. Similarly, at 0.37 microM AAF, no correlation existed between the formation of N-, 1-, 3-, 5-, 7-, and 9-hydroxylation products of AAF and debrisoquine, bufuralol, or aldrin metabolism. At 50 microM AAF, only the 7-hydroxylation of this substrate correlated with bufuralol metabolism (r = 0.47). This lack of, or weak correlation between pathways leading to metabolic activation (N-hydroxylation) or detoxication (C-hydroxylation) of the carcinogen AAF and debrisoquine, bufuralol, and aldrin metabolism strongly suggests that different forms of cytochrome P-450 are involved in these pathways. In contrast, exceptionally high correlations (r greater than 0.94) existed between N-OH-AAF:1-OH-AAF. N-OH-AAF:7-OH-AAF, and 7-OH-AAF:1-OH-AAF at the low concentration of AAF, and imply that similar forms of cytochrome P-450 produce these metabolites. However, at 50 microM AAF, these correlations are considerably weaker and explain less than 35% of the variance in the data. It is concluded, based on these multiple cross-correlations, that common cytochrome P-450 isoenzymes are involved in the formation of AAF metabolites, while the metabolism of debrisoquine, bufuralol, and aldrin is unrelated to the metabolism of this carcinogen in human liver microsomes. |
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