Studies on the Nocodazole-Induced GTPase Activity of Tubulin

The tubulin dimer contains two guanine nucleotide binding sites, a nonexchangeable site occupied by GTP and an exchangeable site (E-site) occupied by GTP or GDP. Under the conditions used in this study the E-site GTP was hydrolyzed at a rate of 8 × 10−5s−1at 37°C. This rate is stimulated four- to fivefold by nocodazole, an antimitotic drug. We studied the characteristics of this drug-stimulated reaction to learn more about the hydrolytic center of tubulin. The reaction, studied using single turnover kinetics, i.e., in the absence of added GTP, has a pH optimum of 6.6 to 7.2 and an activation energy of 88 kJ·mol−1. It is first-order with respect to tubulin-GTP, indicating that hydrolysis is not dependent on an aggregation process. Divalent cations stimulate the hydrolysis three- to sixfold over the rate in the presence of EDTA. The reaction has a requirement for Na+that is not satisfied effectively by other monovalent cations. In contrast, Na+and K+are almost equally effective in the tubulin assembly reaction. Different purine nucleoside triphosphates can bind to the E-site and are hydrolyzed. GTP and ITP are hydrolyzed at equivalent rates and XTP and ATP are hydrolyzed at a rate about half as fast. Hydrolysis is inhibited by the reagents diethylpyrocarbonate andN-ethylmaleimide, although the GTPase activity is less sensitive than the assembly reaction. The reaction rate in D2O is twice the rate in H2O. This inverse isotope effect suggests the involvement of a sulfhydryl group in the rate-limiting step in the reaction.