Abstract
The role of chloride in the stabilization of the deoxy conformation of hemoglobin (Hb), the low oxygen affinity state, has been studied in order to identify the nature of this binding. Previous studies have shown that arginines 141alpha could be involved in the binding of this ion to the protein. Thus, des-Arg Hb, human hemoglobin modified by removal of the alpha-chain C-terminal residue Arg141alpha, is a possible model for studies of these interactions. The loss of Arg141alpha and all the salt bridges in which it participates is associated with subtle structural perturbations of the alpha-chains, which include an increase in the conformational flexibility and further shift to the oxy state, increasing oxygen affinity. Thus, this Hb has been the target of many studies of structural and functional behavior along with medical applications. In the present study, we describe the biochemical characterization of des-Arg Hb by electrophoresis, high-performance liquid chromatography and mass spectroscopy. The effects of chloride binding on the oxygen affinity and on the cooperativity to des-Arg Hb and to native human hemoglobin, HbA, were measured and compared. We confirm that des-Arg Hb presents high oxygen affinity and low cooperativity in the presence of bound chloride and show that the binding of chloride to des-Arg does not change its functional characteristics as observed with HbA. These results indicate that Arg141alpha may be involved in the chloride effect on Hb oxygenation. Moreover, they show that these residues contribute to lower Hb oxygen affinity to a level compatible with its biological function.
Highlights
Hemoglobin (Hb) is an allosteric protein found mainly in red cells whose main function is to deliver oxygen from the lungs to the tissues
2,3-diphosphoglycerate is the main allosteric effector of hemoglobin A (HbA), whose binding has been very well described in the literature
It has been shown that HbA binds monovalent anions that stabilize the deoxy form, reducing its affinity for O2
Summary
Hemoglobin (Hb) is an allosteric protein found mainly in red cells whose main function is to deliver oxygen from the lungs to the tissues. Hb assumes different structural conformations with distinct O2 affinities The shift between these states is regulated by the presence of allosteric effectors such as organic phosphates and monovalent anions. 2,3-diphosphoglycerate is the main allosteric effector of hemoglobin A (HbA), whose binding has been very well described in the literature. This phosphate has high affinity for HbA, with binding occurring at a very specific site that consists of eight cationic residues located in the central cavity of the protein [3]. The most abundant of these physiological ions is the chloride ion [4]
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