Taxoid metabolism:: Taxoid 14β-hydroxylase is a cytochrome P450-dependent monooxygenase

The production of the anticancer drug Taxol in Taxus (yew) cell cultures is often accompanied by the formation of side-route polyoxygenated taxoid metabolites bearing a 14beta-hydroxyl group. The recent acquisition of several new semisynthetic taxoid intermediates enabled the screening of a family of Taxus cytochrome P450 cDNA clones for the 14beta-hydroxylase and additional taxoid oxygenases. The candidate cytochrome P450 clones were functionally expressed in yeast and tested by in vivo feeding of radiolabeled 5alpha-acetoxy-10beta-hydroxy taxadiene and 5alpha,13alpha-dihydroxy taxadiene. One clone efficiently and specifically transformed the 5alpha-acetoxy-10beta-ol, but not the 5alpha,13alpha-diol, to a more polar product with the chromatographic properties of a taxoid triol monoacetate, and the identity of this product was confirmed by spectroscopic means as 5alpha-acetoxy-10beta,14beta-dihydroxy taxadiene. Microsome preparation from the transformed yeast allowed characterization of this new hydroxylase, which was shown to resemble other cytochrome P450 taxoid hydroxylases with pH optimum at 7.5 and a K-m value for the taxoid substrate of about 50 muM. Because Taxol is unsubstituted at C 14, the 14beta-hydroxylase cannot reside on the pathway to the target drug but rather appears to be responsible for diversion of the pathway to 14-hydroxy taxoids that are prominent metabolites of Taxus cell cultures. Manipulation of this hydroxylase gene could permit redirection of the pathway to increase flux toward Taxol and could allow the preparation of 13alpha.14beta-hydroxy taxoids as new therapeutic agents. (C) 2003 Elsevier Science (USA). All rights reserved.