Copolymerization of tubulin-colchicine complex and unliganded tubulin in a nonmicrotubular polymer.

Abstract

We have shown previously [Saltarelli, D., & Pantaloni, D. (1982) Biochemistry 21, 2996-3006] that the tubulin-colchicine complex is able to polymerize in vitro into peculiar "curly" polymers, under the solution conditions permitting polymerization of unliganded tubulin into microtubules. Here it is further demonstrated that unliganded tubulin can be incorporated into these "curly" polymers. The partial critical concentration of tubulin-colchicine is decreased upon incorporation of unliganded tubulin into the copolymer. GTP hydrolysis occurs on unliganded tubulin upon incorporation in the copolymer. Tubulin-podophyllotoxin does not copolymerize with tubulin-colchicine to form a large polymer but interacts with it, preventing tubulin-colchicine polymerization. The data have been analyzed within a model of random copolymerization of unliganded tubulin and tubulin-colchicine into "curly" polymers. A corollary is that unliganded tubulin is virtually able to self-assemble into curly polymers with a critical concentration 10-fold higher than the critical concentration found for microtubule assembly. Consequently, these peculiar tubulin homopolymers cannot be observed except as transients at high concentrations, or when microtubule assembly is inhibited. Kinetic measurements of the T-TC copolymerization process and associated GTP hydrolysis at different T/TC ratios provide supplementary information about some privileged interactions between tubulin and tubulin-colchicine molecules. A comprehensive phase diagram of the various possible polymers formed in the presence of tubulin and tubulin-colchicine is presented.