PMID: 2492524Feb 15, 1989Paper

Calcium/calmodulin inhibits direct binding of spectrin to synaptosomal membranes

The Journal of Biological Chemistry
J P SteinerV Bennett

Abstract

Brain spectrin, through its beta subunit, binds with high affinity to protein-binding sites on brain membranes quantitatively depleted of ankyrin (Steiner, J., and Bennett, V. (1988) J. Biol. Chem. 263, 14417-14425). In this study, calmodulin is demonstrated to inhibit binding of brain spectrin to synaptosomal membranes. Submicromolar concentrations of calcium are required for inhibition of binding, with half-maximal effects at pCa = 6.5. Calmodulin competitively inhibits binding of spectrin to protein(s) in stripped synaptosomal membranes, with Ki = 1.3 microM in the presence of 10 microM calcium. A reversible receptor-mediated process, and not proteolysis, is responsible for inhibition since the effect of calcium/calmodulin is reversed by the calmodulin antagonist trifluoperazine and by chelation of calcium with sodium [ethylenebis(oxyethylenenitrilo)]tetraacetic acid. The target of calmodulin is most likely the spectrin attachment protein(s) rather than spectrin itself since: (a) membrane binding of the brain spectrin beta subunit, which does not associate with calmodulin, is inhibited by calcium/calmodulin, and (b) red cell spectrin which binds calmodulin very weakly, is inhibited from interacting with membrane receptors in...Continue Reading

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