Mechanism of cytoskeletal regulation (I): functional differences correlate with antigenic dissimilarity in human brain and erythrocyte spectrin.

Human erythrocyte and brain spectrin (fodrin, calspectin) have been compared quantitatively with respect to the extent and sites of antigenic and functional similarity. Brain spectrin cross-reacts strongly with approx. 1% of the epitopes in erythrocyte spectrin, but weakly with at least 50%. The distribution of shared determinants is not uniform. Brain spectrin is most deficient in epitopes characteristic of the 80 kDa and 52 kDa domains of the alpha-subunit (alpha-I and alpha-III) and of terminal portions of the 28 kDa and 74 kDa domains of the beta-subunit (beta-I and beta-IV). The functions associated with these domains also differ between the two proteins. Brain spectrin does not undergo extensive polymerization and binds calmodulin at a different site. The unique ability of erythrocyte spectrin to oligomerize beyond the tetramer reflects its role in the membrane skeleton. Non-erythroid spectrins probably function as specific linkers between membrane receptors and the filamentous cytoskeleton. In this sense, they may act as regulated transducers of information flow between the membrane and the cytoplasmic matrix.