Identification of the Proximal Ligand His-20 in Heme Oxygenase (Hmu O) from Corynebacterium diphtheriae: OXIDATIVE CLEAVAGE OF THE HEME MACROCYCLE DOES NOT REQUIRE THE PROXIMAL HISTIDINE

Angela Wilks,Pierre Moënne-Loccoz

doi:10.1074/jbc.275.16.11686

Angela Wilks, Pierre Moënne-Loccoz

Open Access

https://doi.org/10.1074/jbc.275.16.11686

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Abstract

The coordination and spin-state of the Corynebacterium diphtheriae heme oxygenase (Hmu O) and the proximal Hmu O H20A mutant have been characterized by UV-visible and resonance Raman (RR) spectrophotometry. At neutral pH the ferric heme-Hmu O complex is a mixture of six-coordinate high spin and six-coordinate low spin species. Changes in the UV-visible and high frequency RR spectra are observed as a function of pH and temperature, with the six-coordinate high spin species being converted to six-coordinate low spin. The low frequency region of the ferrous RR spectrum identified the proximal ligand to the heme as a neutral imidazole with a Fe-His stretching mode at 222 cm(-1). The RR characterization of the heme-CO complex in wt-Hmu O confirms that the proximal imidazole is neither ionized or strongly hydrogen-bonded. Based on sequence identity with the mammalian enzymes the proximal ligand in HO-1 (His-25) and HO-2 (His-45) is conserved (His-20) in the bacterial enzyme. Site-specific mutagenesis identified His-20 as the proximal mutant based on electronic and resonance Raman spectrophotometric analysis. Titration of the heme-Hmu O complex with imidazole restored full catalytic activity to the enzyme, and the coordination of imidazole to the heme was confirmed by RR. However, in the absence of imidazole, the H20A Hmu O mutant was found to catalyze the initial alpha-meso-hydroxylation of the heme. The product of the aerobic reaction was determined to be ferrous verdoheme. Hydrolytic conversion of the verdoheme product to biliverdin concluded that oxidative cleavage of the porphyrin macrocycle was specific for the alpha-meso-carbon. The present data show that, in marked contrast to the human HO-1, the proximal ligand is not essential for the initial alpha-meso-hydroxylation of heme in the C. diphtheriae heme oxygenase-catalyzed reaction.

Highlights

The coordination and spin-state of the Corynebacterium diphtheriae heme oxygenase (Hmu O) and the proximal Hmu O H20A mutant have been characterized by UV-visible and resonance Raman (RR) spectrophotometry
The electronic absorption and resonance Raman data presented above provide evidence that the heme-Hmu O complex is coordinated by a proximal histidine
The low frequency value of 222 cmϪ1 is consistent with a neutral imidazole as the proximal ligand and is in close agreement with the value recently reported for the recombinant Hmu O [24] and the mammalian heme oxygenases [29, 32]

Summary

Introduction

The coordination and spin-state of the Corynebacterium diphtheriae heme oxygenase (Hmu O) and the proximal Hmu O H20A mutant have been characterized by UV-visible and resonance Raman (RR) spectrophotometry. Following reaction of the imidazole reconstituted heme-H20A Hmu O complex with NADPH reductase, glacial acetic acid (100 ␮l) and 5 N HCl (200 ␮l) were added to the reaction (1 ml) before extracting into chloroform.

Results

Conclusion