Abstract
Hmu O, a heme degradation enzyme in Corynebacterium diphtheriae, forms a stoichiometric complex with iron protoporphyrin IX and catalyzes the oxygen-dependent conversion of hemin to biliverdin, carbon monoxide, and free iron. Using a multitude of spectroscopic techniques, we have determined the axial ligand coordination of the heme-Hmu O complex. The ferric complex shows a pH-dependent reversible transition between a water-bound hexacoordinate high spin neutral pH form and an alkaline form, having high spin and low spin states, with a pK(a) of 9. (1)H NMR, EPR, and resonance Raman of the heme-Hmu O complex establish that a neutral imidazole of a histidine residue is the proximal ligand of the complex, similar to mammalian heme oxygenase. EPR of the deoxy cobalt porphyrin IX-Hmu O complex confirms this proximal histidine coordination. Oxy cobalt-Hmu O EPR reveals a hydrogen-bonding interaction between the O(2) and an exchangeable proton in the Hmu O distal pocket and two distinct orientations for the bound O(2). Mammalian heme oxygenase has only one O(2) orientation. This difference and the mixed spin states at alkaline pH indicate structural differences in the distal environment between Hmu O and its mammalian counterpart.
Highlights
Hmu O, a heme degradation enzyme in Corynebacterium diphtheriae, forms a stoichiometric complex with iron protoporphyrin IX and catalyzes the oxygen-dependent conversion of hemin to biliverdin, carbon monoxide, and free iron
Mammalian amphipathic microsomal heme oxygenase isoforms, heme oxygenase” (HO)-1 and HO-2, catalyze the regiospecific oxidative degradation of iron protoporphyrin IX to biliverdin IX␣, iron, and CO in the presence of NADPHcytochrome P450 reductase, which serves as an electron donor [1,2,3,4]
There exist some similarities between Hmu O and mammalian HO, we have found that the structure of the Hmu O distal pocket is different from that of mammalian HO
Summary
Hmu O, a heme degradation enzyme in Corynebacterium diphtheriae, forms a stoichiometric complex with iron protoporphyrin IX and catalyzes the oxygen-dependent conversion of hemin to biliverdin, carbon monoxide, and free iron. 1H NMR, EPR, and resonance Raman of the heme-Hmu O complex establish that a neutral imidazole of a histidine residue is the proximal ligand of the complex, similar to mammalian heme oxygenase. Wilks and Schmitt [13] have constructed an Escherichia coli expression system of Hmu O and purified a 24-kDa protein that stoichiometrically binds hemin and converts it to biliverdin IX␣ and CO upon the addition of electron donors. The electronic state and the coordination structure of the heme group of the complex have not been established. Elucidation of this is essential to understanding Hmu O catalytic mechanisms. There exist some similarities between Hmu O and mammalian HO, we have found that the structure of the Hmu O distal pocket is different from that of mammalian HO
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