Abstract
Heme oxygenase, a central monooxygenase enzyme of the heme catabolism and the associated generation of carbon monoxide, forms a 1:1 stoichiometric complex with iron protoporphyrin IX, which is a prosthetic active center and at the same time the substrate of the enzyme. By using EPR, resonance Raman, and optical absorption spectroscopic techniques, we have determined the axial ligand coordination of the enzyme-heme complex. The ferric heme iron in the heme-enzyme complex at neutral pH is six-coordinate high spin, while at alkaline pH (pKa 7.6), the complex becomes low spin. Spectra of ferrous forms of the complex indicate that histidine serves as the iron proximal axial ligand and that the residue is in its neutral imidazole rather than its imidazolate protonation state. Thus, the active site of the heme-heme oxygenase complex has a myoglobin-like structure rather than an active site similar to the large cytochrome P-450 class of monooxygenases. As a consequence, the activated form of the heme-heme oxygenase complex, a peroxo intermediate, is different from that of the cytochrome P-450 monooxygenases, in which the activated form is an oxo intermediate. The overall catalytic mechanism is probably more closely related to that of other monooxygenases with myoglobin-like active sites, such as secondary amine monooxygenase.
Highlights
A central monooxygenase enzyomf e The enzyme itself is not a hemoprotein, but bindsone equivathe heme catabolism and the associated generation of lent of heme resulting in the formation of the heme-enzyme carbonmonoxide,formsa 1:l stoichiometriccomplex complex, which exhibits lightabsorption spectral propertiesof with iron protoporphyrin IX,which is a prosthetic ac- hemoproteins [6, 10]
By using EPR, resonance Raman, and optical established: heme oxygenase-1, which is inducible and highly absorptionspectroscopictechniques, we havedeter- expressed in liver and spleen tissues, and heme oxygenase-2, mined the axial ligand coordination of the enzyme-hwemhiceh is constitutive and distributed throughout thboedy [11]
Carbon monoxide derstand the molecular mechanism of the enzymeaction of is formed by the action of the enzyme hemeoxygenase, which heme oxygenase, it is essential to determine the axial ligand has been known as the centralenzyme of heme catabolism [3]. coordination structure of the heme iron in the enzyme-heme
Summary
A central monooxygenase enzyomf e The enzyme itself is not a hemoprotein, but bindsone equivathe heme catabolism and the associated generation of lent of heme resulting in the formation of the heme-enzyme carbonmonoxide,formsa 1:l stoichiometriccomplex complex, which exhibits lightabsorption spectral propertiesof with iron protoporphyrin IX,which is a prosthetic ac- hemoproteins [6, 10]. The ferric heme iron in the heme-enzyme cTomhe-two isoforms have differenmt olecular masses (-33 kDa for plex at neutralpH is six-coordinate high spin, whialet alkaline pH(pK, 7.6), the complex becomes low spin.
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