Coproporphyrinogen oxidase (copro'gen oxidase), which catalyses the conversion of coproporphyrinogen-III via a monovinylic intermediate to protoporphyrinogen-IX, is one of the least well
understood enzymes in the heme biosynthetic pathway. To develop a model for the substrate
recognition and binding recognition for this enzyme, a series of substrate analogues were prepared
with two alkyl substituents on positions 13 and 17 in place of the usual propionate residues.
Although the required substrate probes are porphyrinogens (hexahydroporphyrins), the corresponding porphyrin methyl esters were initialy synthesized via a,c-biladiene intermediates. These
were hydrolyzed and reduced with 3% sodium amalgam to give the unstable porphyrinogens needed
for the biochemical investigations. These modified structures were metabolized by avian preparations of copro'gen oxidase to give monovinylic products, but the second propionate residue was not
further metabolized. In three cases, the metabolites were isolated and further characterized by
proton NMR spectroscopy and mass spectrometry. When methyl or ethyl groups were placed at
the 13 and 17 positions, the resulting porphyrinogens were very good substrates (although the
ethyl version, mesoporphyrinogen-VI, gave slightly better results), but when propyl units were
introduced metabolism was significantly inhibited and the butyl-substituted structure was only
slightly transformed after long incubation periods. These results suggest the presence of an active-site lipophobic region near the catalytic site for copro'gen oxidase. The observation that the related
3-vinyl- and 3-ethylporphyrinogens with 13,17-diethyl substituents were not substrates for this
enzyme confirmed the need for a second propionate residue to hold the substrate in place at the
catalytic site.
Condensation of methyl 4‐oxobutanoate with nitroethane in the presence of 4‐dimethylaminopyridine, followed by treatment with acetic anhydride, afforded a nitroacetoxyester 10b. Subsequent reaction with isocyanoacetate esters and DBU in refluxing tetrahydrofuran gave the synthetically valuable pyrroles 1a and 1b.
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ChemInform is a weekly Abstracting Service, delivering concise information at a glance that was extracted from about 100 leading journals. To access a ChemInform Abstract of an article which was published elsewhere, please select a “Full Text” option. The original article is trackable via the “References” option.
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