Elliptical erythrocyte membrane skeletons and heat-sensitive spectrin in hereditary elliptocytosis.

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RESUMO

Erythrocyte membranes (ghosts) and membrane skeletons (submembranous reticula of spectrin, actin, and protein 4.1 prepared by extracting ghosts with Triton X-100) from 15 patients with hereditary elliptocytosis (HE) were elliptical, which indicates that the primary defect responsible for the abnormal shape of these cells resides in the skeleton. The protein composition of HE skeletons was normal, but in three kindreds purified spectrin heterodimer from 7/7 HE patients was heat sensitive and denatured at 48.0 +/- 0.1 degrees C instead of 49.0 +/- 0.3 degrees C (P less than 0.0005). Heat sensitivity was detected by precipitation and, in the spectrin from one patient, by changes in circular dichroism. In one other kindred spectrin dimer from 3/3 patients denatured at the normal temperature. In two of the three kindreds with heat-sensitive spectrin, intact erythrocytes exhibited budding and fragmentation at the temperature at which spectrin denatured. In the third kindred spectrin was heat sensitive, but erythrocytes were not. The symptoms in the latter kindred were clinically more severe (hemolytic HE with spherocytosis) than in the other three (mild HE). We conclude that defects in the erythrocyte membrane skeleton may be a common feature of HE. As judged by heat denaturation of erythrocytes and purified spectrin dimer, three phenotypically distinct forms of HE exist, two of which are characterized by defective, heat-sensitive spectrin. It remains to be determined whether the molecular defect in spectrin responsible for heat sensitivity is the primary genetic defect responsible for HE.

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