Entrance channels to coproheme in coproporphyrin ferrochelatase probed by exogenous imidazole binding

铁螯合酶 化学 卟啉 血红素 铁质 咪唑 原卟啉IX 配体(生物化学) 立体化学 背景(考古学) 变构调节 光化学 生物化学 有机化学 受体 古生物学 生物 光动力疗法
作者
Andrea Dali,Thomas Gabler,Federico Sebastiani,Paul G. Furtmüller,Maurizio Becucci,Stefan Hofbauer,Giulietta Smulevich
出处
期刊:Journal of Inorganic Biochemistry [Elsevier BV]
卷期号:260: 112681-112681
标识
DOI:10.1016/j.jinorgbio.2024.112681
摘要

Iron insertion into porphyrins is an essential step in heme biosynthesis. In the coproporphyrin-dependent pathway, specific to monoderm bacteria, this reaction is catalyzed by the monomeric enzyme coproporphyrin ferrochelatase. In addition to the mechanistic details of the metalation of the porphyrin, the identification of the substrate access channel for ferrous iron to the active site is important to fully understand this enzymatic system. In fact, whether the iron reaches the active site from the distal or the proximal porphyrin side is still under debate. In this study we have thoroughly addressed this question in Listeria monocytogenes coproporphyrin ferrochelatase by X-ray crystallography, steady-state and pre-steady-state imidazole ligand binding studies, together with a detailed spectroscopic characterization using resonance Raman and UV-vis absorption spectroscopies in solution. Analysis of the X-ray structures of coproporphyrin ferrochelatase-coproporphyrin III crystals soaked with ferrous iron shows that iron is present on both sides of the porphyrin. The kinetic and spectroscopic study of imidazole binding to coproporphyrin ferrochelatase‑iron coproporphyrin III clearly indicates the presence of two possible binding sites in this monomeric enzyme that influence each other, which is confirmed by the observed cooperativity at steady-state and a biphasic behavior in the pre-steady-state experiments. The current results are discussed in the context of the entire heme biosynthetic pathway and pave the way for future studies focusing on protein-protein interactions.

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