The Journal of biological chemistry
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Dolastatin 10, a potent antimitotic peptide from a marine animal, strongly inhibits microtubule assembly, tubulin-dependent GTP hydrolysis, and the binding of vinca alkaloids to tubulin. In studies of the binding of [3H]vincristine to the protein, with vinblastine as a control for competitive inhibition (Ki, 6.6 microM), we found that the macrolide antimitotic agents maytansine and rhizoxin were also competitive inhibitors (Ki values, 3.1 and 12 microM). Dolastatin 10 and an unrelated peptide antimitotic, phomopsin A, were more potent but noncompetitive inhibitors (Ki values, 1.4 and 2.8 microM). ⋯ A tripeptide segment of dolastatin 10 also effectively inhibits tubulin polymerization and GTP hydrolysis. The tripeptide did not significantly inhibit either vincristine binding or nucleotide exchange, nor did it stabilize colchicine binding. These findings are rationalized in terms of a model with two distinct drug binding sites in close physical proximity to each other and to the exchangeable GTP site on beta-tubulin.