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Vol. 28, Issue 9, 1051-1057, September 2000
Department of Pharmacology (H.C., M.R.J.) and Department of
Pediatrics (A.G.F.), School of Medicine, University of Washington,
Seattle, Washington
Cytochrome P4503A7 (CYP3A7) is the primary CYP isoform expressed in
human fetal hepatic microsomes, and its potential role in human
embryotoxicity has attracted considerable investigative attention. In
this study, we investigated the 4-hydroxylation of highly embryotoxic
and teratogenic retinoic acids (RA) as catalyzed by human fetal liver
microsomes (HFLM) and demonstrated that CYP3A7 is an efficient RA
hydroxylase. When all-trans-retinoic acid
(tRA), 9-cis-retinoic acid (9cRA), or
13-cis-retinoic acid (13cRA) were incubated with HFLM
(54-109 gestational days) plus NADPH, each of these three retinoic
acids was rapidly converted to its corresponding 4-hydroxy and 4-oxo
metabolites. The reactions were strongly inhibited by CO
(CO:O2, 80:20) and were NADPH-dependent, indicating that the reactions were catalyzed by P450 isoenzymes. At 54 to 89 gestational days, 4-hydroxylase activities were relatively low.
However, at gestational days 96 to 109, activities were much higher.
Selective inhibitors were employed for elucidation of the roles of
individual CYP isoenzymes in HFLM. 
-Naphthoflavone, paclitaxel, and
diethyldithiocarbamate showed little or no effects on HFLM-catalyzed
reactions, indicating that CYP1A1, CYP1A2, CYP1B1, CYP2C8, and CYP2E1
did not play significant roles in the catalysis. By contrast,
troleandomycin strongly inhibited the reaction (70-75% inhibition),
suggesting that CYP3A7 was primarily responsible for the observed
catalysis. It was also discovered that CYP3A7 SUPERSOMES efficiently
catalyzed the 4-hydroxylations of tRA, 9cRA, and 13cRA. Because
4-hydroxylated metabolites of RA are much less potent embryotoxins and
teratogens, the results indicated that the 4-hydroxylation of RA,
catalyzed prenatally by CYP3A7, might play an important role in
protecting the human fetus against RA-induced embryotoxicity.
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