Abstract
Factors contributing to the clinical differences between sickle cell- hemoglobin C disease (SC) and the benign sickle cell trait (AS) include the higher proportion of hemoglobin (Hb) S and the higher cell Hb concentrations in SC compared with AS red cells. Reports differ, however, about whether Hb C copolymerizes more than Hb A with Hb S when measured by minimum gelling concentrations (MGCs) and polymer solubilities of the deoxy-Hb mixtures. We now show that the MGCs and solubilities of equimolar mixtures of Hb S + Hb C vary much more with the ionic strength (mu) of the solution than those of Hb S + Hb A mixtures. At mu less than or equal to 0.20, but not at mu greater than 0.25, Hb S + Hb C solubilities were significantly lower than those of Hb S + Hb A. These differences which may reflect a greater effect of the beta 6Lys+ in Hb C at lower mu, can account for the reported discrepancies. The solubility differences were similar in the presence or absence of asymmetric hybrids, and since the intratetramerically cross-linked hybrids alpha 2 beta s beta A and alpha 2 beta s beta c had similar solubilities, they did not indicate the usual mechanism, involving greater incorporation of alpha 2 beta s beta c into the polymers. The small solubility differences between the two Hb mixtures at physiologic (red cell) concentrations of Hb and 2,3- diphosphoglycerate probably play a minor role in the clinical differences between SC and AS states.
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