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  • Title: Phenobarbital-induced rat liver cytochrome P-450. Purification and characterization of two closely related isozymic forms.
    Author: Waxman DJ, Walsh C.
    Journal: J Biol Chem; 1982 Sep 10; 257(17):10446-57. PubMed ID: 6809749.
    Abstract:
    The "major" phenobarbital (PB)-induced cytochrome P-450 species present in livers of male Sprague-Dawley rats was resolved into two catalytically active heme-protein fractions on diethylaminoethyl cellulose. The two species, P-450 PB-4 (Mr = 49,000) and P-450 PB-5 (Mr = 51,000), were purified to homogeneity, and their chromatographic, spectral, catalytic, and structural properties were compared. P-450 BP-5 eluted earlier on hydroxylapatite and exhibited a more significant cholate-induced Type I spectral shift than P-450 BP-4. Very similar substrate specificity profiles were evident when the two isozymes were reconstituted with lipid, cytochrome P-450 reductase, and cytochrome b5 for oxidative metabolism of several xenobiotics, although P-450 PB-4 exhibited a higher specific catalytic activity (greater than or equal to 5-fold) with all substrates tested. Marked differences were also observed in the sensitivities of both isozymes to several P-450 inhibitors. In addition, P-450 PB-4 was greater than or equal to 10-fold more susceptible than P-450 PB-5 to suicide inactivation by two allyl-containing compounds, allylisopropylacetamide and secobarbital, providing a possible explanation of the previously observed partial inactivation by such compounds of phenobarbital-induced P-450 activity in liver microsomes. One-dimensional peptide maps of the two isoenzymes were highly similar. Antibody raised against purified Long Evans rat liver P-450b (Thomas, P. E., Korzeniowski, D., Ryan, D., and Levin, W. (1979) Arch. Biochem. Biophys. 192, 524-532) cross-reacted with P-450 PB-4 and P-450 PB-5. NH2-terminal sequence analysis demonstrated that the first 31 residues of both PB-4 and PB-5 were identical. These sequences indicated that a highly hydrophobic terminal segment, observed previously for other P-450s as well, is followed by a cluster of basic residues, suggesting that the NH2-terminal portion of these P-450s might be involved in membrane anchoring. Although it is unclear whether P-450 PB-4 and P-450 PB-5 are separate gene products or are related by post-translational modifications, this present demonstration of closely related isozymic forms suggests the possible added complexity of microheterogeneity for this family of microsomal monooxygenases.
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