Hereditary spherocytosis of man. Defective cytoskeletal interactions in the erythrocyte membrane

Abstract

Hereditary spherocytosis (HS) is an inherited abnormality of red cell shape and results from defective interactions amongst the components of the cytoskeleton. It is known that spectrin/actin dissociates in low ionic strength media from ghosts and cytoskeletons at a rate which is slower for HS than normal preparations. Hybridization experiments have established that this behaviour is not due to a defective spectrin or actin but resides in a spectrin-binding component of the membrane [Hill, Sawyer, Howlett & Wiley (1981) Biochem. J. 201, 259-266]. In the present study erythrocyte shells have been examined in low ionic strength media and a similar difference in the rate of solubilization has been revealed. Since band 4.1 (but not band 2.1) is a common component of cytoskeletons and shells it is possible that 4.1 may be abnormal in the HS condition. The interaction of band 4.1 with spectrin/actin was examined by low shear falling ball viscometry. The addition of a mixture of band 2.1 and 4.1 to a solution of actin and spectrin tetramer increased the viscosity due to cross-linking of the cytoskeletal elements by band 4.1. When band 2.1/4.1 mixtures were derived from five HS families the viscosity was increased to a greater extent than in the normal controls. This difference was not a result of alterations in the calcium dependence of the spectrin/actin-band 4.1 interaction. The results imply that band 4.1 may be defective in the HS condition.