ABSTRACT
Two haemoglobin components have been identified and purified from fallow-deer (Dama dama) erythrocytes. They are present in similar amounts and the two tetrameric molecules share the same alpha chain, while two different beta chains are detected in the two components. The beta chains differ by 14 residues, even though they both have 145 amino-acid residues, which account for a molecular mass of 16,023 and 16,064 Da, respectively, while alpha chain has 141 residues, yielding a molecular mass of 15,142 Da. Compared with human Hb, the N-terminal region of both beta chains shows deletion of Val beta 1 and the replacement of His beta 2 by a methionyl residue, a modification which is common to most ruminant haemoglobins. Although both isolated components show a low intrinsic affinity for oxygen, meaningful differences between the two haemoglobins have been found with respect to the effect of heterotropic effectors, such as 2,3-diphosphoglycerate and chloride ions. In view of the high sequence homology between the two components, the different effect of heterotropic ligands has been tentatively correlated to possible localized structural variations between beta chains of the two haemoglobin components.
Subject(s)
2,3-Diphosphoglycerate/pharmacology , Chlorides/pharmacology , Erythrocytes/metabolism , Hemoglobins/metabolism , Amino Acid Sequence , Animals , Chlorides/metabolism , Chromatography, High Pressure Liquid , Deer , Gene Deletion , Hemoglobins/chemistry , Hemoglobins/genetics , Hemoglobins/isolation & purification , Humans , Ligands , Molecular Sequence Data , Oxygen/metabolism , Phosphates/chemistry , Phylogeny , Protein Binding , Protein Structure, Tertiary , Sequence Analysis, Protein , Sequence Homology, Amino Acid , Software , Temperature , Time FactorsABSTRACT
In a previous study we have shown that bringing horseradish peroxidase to pH 3.0 induces a spectroscopic transition (G. Smulevich et al., Biochemistry 36 (1997) 640). We have extended the investigation on this pH-linked conformational change to different experimental conditions, such as (i) in phosphate alone, (ii) in HCl alone and (iii) in phosphate + NaCl. The data obtained allow a number of conclusions to be drawn, namely: (a) the exposure to pH 3.0 under all conditions brings about an alteration of the distal portion of the heme pocket, leading to the rapid formation of a hexa-coordinated species; (b) only in the presence of phosphate is the hexa-coordination followed by a slow cleavage (or severe weakening) of the proximal Fe-His bond, and (c) the rate of this second process is speeded up in the presence of Cl- ions. Such observations underline the presence of a communication pathway between the two opposite sides of the heme pocket, such that any alteration of the structural arrangement on one side of the heme cavity is transmitted to the other, inducing a corresponding conformational change.
Subject(s)
Horseradish Peroxidase/chemistry , Horseradish Peroxidase/metabolism , Anions , Hydrochloric Acid/pharmacology , Hydrogen-Ion Concentration , Isoenzymes/chemistry , Isoenzymes/metabolism , Kinetics , Phosphates/pharmacology , Protein Conformation/drug effects , SpectrophotometryABSTRACT
The energetics of signal propagation between different functional domains (i.e. the binding sites for O2, inositol hexakisphospate (IHP), and bezafibrate (BZF)) of human HbA0 was analyzed at different heme ligation states and through the use of a stable, partially heme ligated intermediate. Present data allow three main conclusions to be drawn, and namely: (i) IHP and BZF enhance each others binding as the oxygenation proceeds, the coupling free energy going from close to zero in the deoxy state to -3.4 kJ/mol in the oxygenated form; (ii) the simultaneous presence of IHP and BZF stabilizes the hemoglobin T quaternary structure at very low O2 pressures, but as oxygenation proceeds it does not impair the transition toward the R structure, which indeed occurs also under these conditions; (iii) under room air pressure (i.e. pO2 = 150 torr), IHP and BZF together induce the formation of an asymmetric dioxygenated hemoglobin tetramer, whose features appear reminiscent of those suggested for transition state species (i.e. T- and R-like tertiary conformation(s) within a quaternary R-like structure).
Subject(s)
Bezafibrate/metabolism , Hemoglobin A/metabolism , Oxygen/metabolism , Phytic Acid/metabolism , Allosteric Regulation , Heme/metabolism , Humans , Kinetics , Protein Binding , Spectrum Analysis , ThermodynamicsABSTRACT
The effect of allosteric effectors, such as inositol hexakisphosphate and/or bezafibrate, has been investigated on the unliganded human adult hemoglobin both spectroscopically (employing electronic absorption, circular dichroism, resonance Raman, and x-ray absorption near-edge spectroscopies) and functionally (following the kinetics of the first CO binding step up to a final 4% ligand saturation degree). All data indicate that the unliganded T-state is not perturbed by the interaction with either one or both effectors, suggesting that their functional influence is only exerted when a ligand molecule is bound to the heme. This is confirmed by the observation that CO dissociation from partially liganded hemoglobin ( = 0.04) is strongly altered by the presence of either effector, and the effect is enhanced whenever the two effectors are simultaneously present. Altogether, these data are a direct demonstration of the occurrence of a strain induced by the presence of a ligand molecule bound to the heme, and for the first time there is a clear indication that the expression of the functional heterotropic effect by these non-heme ligands requires this strain, which is not present in the unliganded molecule.