Enzymatic basis for the Ca2+-induced cross-linking of membrane proteins in intact human erythrocytes
- PMID: 28146
- DOI: 10.1021/bi00606a022
Enzymatic basis for the Ca2+-induced cross-linking of membrane proteins in intact human erythrocytes
Abstract
The accumulation of Ca2+ ions in intact human erythrocytes leads to the production of membrane protein polymers larger than spectrin. The polymer has a heterogeneous size distribution and is rich in gamma-glutamyl-epsilon-lysine cross-links. Isolation of this isodipeptide, in amounts as high as 6 mol/10(5) g of protein, confirms the idea [Lorand L., Weissmann, L.B., Epel, D.L., and Bruner-Lorand, J. (1976), Proc. Natl. Acad. Sci. U.S.A. 73, 4479] that the Ca2+-induced membrane protein polymerization is mediated by transglutaminase. Formation of the polymer in the intact cells is inhibited by the addition of small, water-soluble primary amines. Inasmuch as these amines are known to prevent the Ca2+-dependent loss of deformability of the membrane, it is suggested that transglutaminase-catalyzed cross-linking may be a biochemical cause of irreversible membrane stiffening.
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