Regulation of peroxo-bridge formation between cobalt(II)-carnosine complexes by histidine: Possible involvement in polycythemia

The mechanisms by which histidine stabilizes the cobalt(II)-carnosine complex from oxidation to cobalt(III) in aqueous solution are investigated with ¹H-nmr, laser Raman, and Fourier transform-infrared spectroscopy. Histidine has at least three effects on the cobalt(II)-carnosine complex. First, over the concentration range of at least 5 to 250 mM, histidine stabilizes the cobalt(II)-carnosine complex from oxidation by excluding solvent molecules from the equatorial coordination positions. Second, at the upper end of this concentration range, histidine reduces the strained nonplanarity of the equatorial coordination positions around the cobalt(II) ion that results from tridentate chelation by carnosine. Bidentate ligation by histidine causes the carnosine to bind as a bidentate ligand also. Third, bidentate ligation of two carnosine molecules to the equatorial coordination positions of Co(II) ion places the β-alanyl residues inthe vicinity of the two axial coordination positions and thereby inhibits the binding of molecular oxygen. Substitution of a molecule of histidine for one of these two carnosine molecules makes an axial coordination position available for binding oxygen. The first two effects are expected to stabilize the cobalt(II) ion from rapid oxidation, whereas the third effect is expected to give long-term stability of the peroxo-bridged complex. Since bidentate ligation of histidine is favored over monodentate ligation only when the concentration of Co(II) ion is not limiting and is inhibited by high concentrations of carnosine in the same solution, the results presented provide a possible explanation for the observation that the stability of the Co(II) complexes toward oxidation and their ability to bind molecular oxygen depend on both the relative and absolute concentrations of Co(II) ion, carnosine, and histidine in solution. Furthermore, these results provide additional support to the suggestion that the high activity of carnosinase in kidney is involved in part in regulation of the oxygen sensor in this organ.