Raman characterization of human leukocyte myeloperoxidase and bovine spleen green haemoprotein. Insight into chromophore structure and evidence that the chromophores of myeloperoxidase are equivalent

Abstract

Soret excitation resonance Raman spectroscopy has been used to characterize dimeric human leukocyte myeloperoxidase (donor:hydrogen peroxide oxidoreductase, EC 1.11.1.7) and monomeric bovine spleen green haemoprotein. The spectra of the two proteins, under the same conditions of iron valence and ligation, are essentially identical. Owing to strong symmetry reduction effects, the spectra are more complex than usually observed for haemoproteins. It is possible, however, to assign the high-frequency vibrations and, from these assignments, to determine structural features of the iron chromophores. In the resting protein, the iron adopts a six-coordinate high-spin configuration in both proteins; cyanide addition produces six-coordinate low-spin species, and in the ferrous enzymes the iron appears to be five-coordinate and high-spin. The proteins are stable to laser excitation and do not photoreduce under illumination. No evidence is found for unusual peripheral substituents, such as formyl or protonated Schiff's base group, in conjugation with the main chromophore in the native protein. The vibrational data are consistent with an iron chlorin chromophore, although other electronic effects, in addition to those produced by porphyrin ring reduction, are necessary to account for the optical properties of the proteins. The similarity in Raman spectra for myeloperoxidase and green haemoprotein indicates that the two iron sites in myeloperoxidase are equivalent.