3 research outputs found
Survey of Human Oxidoreductases and Cytochrome P450 Enzymes Involved in the Metabolism of Xenobiotic and Natural Chemicals
Analyzing the literature resources
used in our previous reports,
we calculated the fractions of the oxidoreductase enzymes FMO (microsomal
flavin-containing monooxygenase), AKR (aldo-keto reductase), MAO (monoamine
oxidase), and cytochrome P450 participating in metabolic reactions.
The calculations show that the fractions of P450s involved in the
metabolism of all chemicals (general chemicals, natural, and physiological
compounds, and drugs) are rather consistent in the findings that >90%
of enzymatic reactions are catalyzed by P450s. Regarding drug metabolism,
three-fourths of the human P450 reactions can be accounted for by
a set of five P450s: 1A2, 2C9, 2C19, 2D6, and 3A4, and the largest
fraction of the P450 reactions is catalyzed by P450 3A enzymes. P450
3A4 participation in metabolic reactions of drugs varied from 13%
for general chemicals to 27% for drugs
Survey of Human Oxidoreductases and Cytochrome P450 Enzymes Involved in the Metabolism of Xenobiotic and Natural Chemicals
Analyzing the literature resources
used in our previous reports,
we calculated the fractions of the oxidoreductase enzymes FMO (microsomal
flavin-containing monooxygenase), AKR (aldo-keto reductase), MAO (monoamine
oxidase), and cytochrome P450 participating in metabolic reactions.
The calculations show that the fractions of P450s involved in the
metabolism of all chemicals (general chemicals, natural, and physiological
compounds, and drugs) are rather consistent in the findings that >90%
of enzymatic reactions are catalyzed by P450s. Regarding drug metabolism,
three-fourths of the human P450 reactions can be accounted for by
a set of five P450s: 1A2, 2C9, 2C19, 2D6, and 3A4, and the largest
fraction of the P450 reactions is catalyzed by P450 3A enzymes. P450
3A4 participation in metabolic reactions of drugs varied from 13%
for general chemicals to 27% for drugs
Contributions of Human Enzymes in Carcinogen Metabolism
Considerable support exists for the roles of metabolism
in modulating the carcinogenic properties of chemicals. In particular,
many of these compounds are pro-carcinogens that require activation
to electrophilic forms to exert genotoxic effects. We systematically
analyzed the existing literature on the metabolism of carcinogens
by human enzymes, which has been developed largely in the past 25
years. The metabolism and especially bioactivation of carcinogens
are dominated by cytochrome P450 enzymes (66% of bioactivations).
Within this group, six P450sî—¸1A1, 1A2, 1B1, 2A6, 2E1, and 3A4î—¸accounted
for 77% of the P450 activation reactions. The roles of these P450s
can be compared with those estimated for drug metabolism and should
be considered in issues involving enzyme induction, chemoprevention,
molecular epidemiology, interindividual variations, and risk assessment