Evidence for rapid loss of newly synthesized haemoglobin S molecules in sickle cell anaemia and sickle cell trait.

The present study indicates that newly completed haemoglobin S molecules rather than free betas-chains are preferentially bound to the reticulocyte stroma of individuals with sickle cell trait and sickle cell anaemia. Reticulocytes from indivdiuals with HbAA, AS and SS were incubated with [3H]eucine from 1.25 min to 120 min. Unlike the stroma-free haemolysates, the stroma of all individuals contained an excess of labelled beta-chains relative to alpha-chains after short incubation times. In haemoglobin AA and AS individuals, the stromal betaA radioactivity was 1--2% of the total cellular betaA radioactivity. In haemoglobin AS and SS individuals, the stromal betaS radioactivity was 3--5% and 10--20% of the total cellular betaS radioactivity, respectively. All of the stroma beta-chain radioactivity was associated with completed haemoglobin molecules. Because of the unlabelled free alpha-chain pool found in reticulocytes, after short incubation times newly completed haemoglobin molecules have predominantly labelled beta-chains and unlabelled alpha-chains. These findings suggest that part of the discrepancy between the stroma and stroma-free haemolysate alpha/beta radioactivities seen in HbAS and HbSS individuals may result from normal labelling kinetics. A pulse chase experiment performed on an individual with HbSS revealed that comleted HbS molecules, in addition to being associated with the stroma, were lost from the cell.