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SA McCluskey, RA Whitney and GS Marks
Department of Pharmacology, Queen's University, Kingston, Ontario, Canada.
3,5-Diethoxycarbonyl-1,4-dihydro-2,6-dimethyl-4-ethylpyridine and its 4- propyl analogue were administered to phenobarbital-pretreated rats. The N-alkylprotoporphyrins (N-alkylPPs) that were isolated from rat livers, viz., N-ethylPP and N-propylPP, were found to have greater ferrochelatase-inhibitory potency than the corresponding synthetic N- alkylPPs. The N-ethylPP that was isolated from rat liver was found to contain 72% of the NB plus NA regioisomers, whereas synthetic N-ethylPP contained 40% of the NB plus NA regioisomers. In contrast, the N- propylPP that was isolated from rat liver contained the same amount of the NB/A regioisomer(s) as synthetic N-propylPP (33%). The NB plus NA regioisomers of N-ethylPP and the NB/A regioisomer(s) of N-propylPP that were isolated from rat liver were found to be significantly more potent than the corresponding synthetic regioisomers. We conclude that 1) the ferrochelatase-inhibitory potency of N-ethylPP that is isolated from rat liver is greater than that of synthetic N-ethylPP, due to differences in both regioisomer composition and the inhibitory potency of the NB plus NA regioisomers and stereoisomers, and 2) the ferrochelatase-inhibitory potency of N-propylPP that is isolated from rat liver is greater than that of synthetic N-propylPP, due solely to the difference in the ferrochelatase-inhibitory potency of the NB/A regioisomer(s) and stereoisomers. From the enhanced ferrochelatase- inhibitory potency of the NB plus NA regioisomers of N-ethylPP and the NB/A regioisomer(s) of N-propylPP that were isolated from rat liver, relative to the corresponding synthetic N-alkyllPP regioisomers, it was inferred that 2- and 4-vinyl substituents located on pyrrole rings A and B contribute to the optimal binding of N-alkylPPs to the ferrochelatase active site.
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  J. T. Gamble, H. A. Dailey, and G. S. Marks N-Methylprotoporphyrin Is a More Potent Inhibitor of Recombinant Human Than of Recombinant Chicken Ferrochelatase Drug Metab. Dispos., April 1, 2000; 28(4): 373 - 375. [Abstract] [Full Text]
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