Sequence requirements for cytochromes P450IIA1 and P450IIA2 catalytic activity: evidence for both specific and non-specific substrate binding interactions through use of chimeric cDNAs and cDNA expression |
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Authors: | Hanioka, Nobumitsu Korzekwa, Kenneth Gonzalez, Frank J. |
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Affiliation: | 1Laboratory of Chemical Pharmacology, National Heart, Lung and Blood Institute, National Institutes of Health Bethesda, MD 20892, USA Laboratory of Molecular Carcinogenesis, National Cancer Institute Bethesda, MD 20892, USA |
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Abstract: | Cytochrome P450s IIA1 and IIA2, encoded by the CYP2A1 and CYP2A2genes, display 88% amino acid sequence similarities. The dissimilaritiesof sequence between these two enzymes are primarily localizedwithin four discrete regions of the polypeptides that are separatedby regions of absolute sequence identity. IIA1 specificallyhydroxylates the prototype substrate testosterone at the 7 and6 position with a predominance of 7 metabolite. IIA2, on theother hand, hydroxylates this steroid at eight positions onthe molecule, with one of the most abundant metabolites being15hydroxytestosterone. To determine those amino acids responsiblefor the difference in testosterone hydroxylation specificities,chimeras were constructed between IIA1 and IIA2 cDNAs and expressedin cell culture using vaccinia-virus-mediated cDNA expression.Chimeras, in which the first 355 amino acids correspond to asingle enzyme, maintain the specificity associated with thatenzyme. Of six chimeras which have substitutions between aminoacids 161 and 276, two are inactive and the remaining four givesimilar metabolite profiles, in which both 7 and 15 hydroxylationspecificities have been lost. Two of these four chimeras arediametric apposites, suggesting that modification of eitherthe N-terminal or central regions of the enzymes results inconformational changes that prevent the specific binding interactionsresponsible for the narrow regioselectivity associated withIIA1 and 15-hydroxytestosterone formation associated with IIA2. |
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Keywords: | chimera/ cDNA expression/ cytochrome P450 |
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