Ankyrin is an extrinsic membrane protein in human erythrocytes that links the αß-spectrin-based extrinsic membrane skeleton to the membrane by binding simultaneously to the ß-spectrin subunit and to the transmembrane anion transporter. To analyse the temporal and spatial regulation of assembly of this membrane skeleton, we investigated the kinetics of synthesis and assembly of ankyrin (goblin) with respect to those of spectrin in chicken embryo erythroid cells.
Electrophoretic analysis of Triton X-100 soluble and cytoskeletal fractions show that at steady state both ankyrin and spectrin are detected exclusively in the cytoskeleton . In contrast, continuous labeling of erythroid cells with [(^35)S]methionine, and immunoprecipitation of ankyrin and α- and ß-
spectrin, reveals that newly synthesized ankyrin and spectrin are partitioned into both the cytoskeletal and Triton X-100 soluble fractions . The soluble pools of ankyrin and ß-spectrin reach a plateau of labeling within 1 h, whereas the soluble pool of α-spectrin is substantially larger and reaches a plateau more slowly, reflecting an approximately 3:1 ratio of synthesis of α- to ß-spectrin. Ankyrin
and ß-spectrin enter the cytoskeletal fraction within 10 min of labeling, and the amount assembled into the cytoskeletal fraction exceeds the amount present in their respective soluble pools within 1 h of labeling. Although α-spectrin enters the cytoskeletal fraction with similar kinetics to ß-spectrin and ankyrin, and in amounts equimolar to ß-spectrin, the amount of cytoskeletal α-spectrin does not
exceed the amount of soluble α-spectrin even after 3 h of labeling. Pulse-chase labeling experiments reveal that ankyrin and α- and ß-spectrin assembled into the cytoskeleton exhibit no detectable turnover, whereas the Triton X-100 soluble polypeptides are rapidly catabolized, suggesting that stable assembly of the three polypeptides is dependent upon their association with their respective
membrane receptor(s). The existence in the detergent-soluble compartment of newly synthesized
ankyrin and α- and ß-spectrin that are catabolized, rather than assembled, suggests that ankyrin and
spectrin are synthesized in excess of available respective membrane binding sites, and that the
assembly of these polypeptides, while rapid, is not tightly coupled to their synthesis. We hypothesize
that the availability of the high affinity receptor(s) localized on the membrane mediates posttranslationally
the extent of assembly of the three cytoskeletal proteins in the correct stoichiometry, their
stability, and their spatial localization