Metabolism of pentacarboxylate porphyrinogens by highly purified human coproporphyrinogen oxidase: Further evidence for the existence of an abnormal pathway for heme biosynthesis

An abnormal series of porphyrin tetracarboxylic acids known as the isocoproporphyrins, are commonly excreted by patients suffering from the disease porphyria cutanea tarda (PCT). These porphyrins appear to arise by bacterial degradation of dehydroisocoproporphyrinogen that is generated by the premature metabolism of the normal pentacarboxylate intermediate (5dab) by coproporphyrinogen oxidase (copro’gen oxidase). This porphyrinogen can be further metabolized by uroporphyrinogen decarboxylase to give harderoporphyrinogen, one of the usual intermediates in heme biosynthesis. Therefore, it is possible that some of the heme formed under abnormal conditions may originate from the ‘isocopro-type’ porphyrinogen intermediate. In order to investigate the feasibility of alternative pathways for heme biosynthesis, the four type III pentacarboxylate isomeric porphyrinogens were incubated with purified, cloned human copro’gen oxidase at 37 °C with various substrate concentrations under initial velocity conditions. Of the four isomers, only 5dab was a substrate for copro’gen oxidase and this gave dehydroisocoproporphyrin. The structure of the related porphyrin tetramethyl ester was confirmed by proton NMR spectroscopy and mass spectrometry. The Km value for proto’gen-IX formation from copro’gen, an indicator of molecular recognition, was similar to the Km value for monovinyl product formation with 5dab, although copro’gen-III has an approximately twofold higher Kcat value. Although 5dab is a slightly poorer substrate than copro’gen-III, these results support the hypothesis that an abnormal route for heme biosynthesis is possible in humans suffering from PCT or related syndromes such as hexachlorobenzene poisoning.

Pentacarboxylate porphyrinogen 5dab is converted to dehydroisocoproporphyrinogen by cloned human coproporphyrinogen oxidase; this result indicates that an alternative pathway for heme biosynthesis may take place in disease states such as porphyria cutanea tarda.Figure optionsDownload as PowerPoint slide