guanosine-diphosphate and vinflunine

We present a comparison of the energetics of spiral formation for two vinca alkaloids: a novel difluorinated vinorelbine derivative 20',20'-difluoro-3',4'-dihydrovinorelbine (F12158, or vinflunine) and the parent compound, vinorelbine. Vinca alkaloids are antineoplastic agents that halt cell division at metaphase by inhibiting microtubule assembly and inducing tubulin self-association into spiral aggregates. The overall affinities for tubulin of vincristine, vinblastine, and vinorelbine seem to correlate with their clinical doses, where vincristine with the highest overall affinity is used at the lowest doses. Doses of chemotherapeutic agents, however, also are determined by toxicities. In the physicochemical study described here, we used sedimentation velocity to compare vinorelbine- and vinflunine-induced self-association of porcine brain tubulin in the presence of 50 micro M GDP or 50 micro M GTP. Vinflunine demonstrates 3-16-fold lower overall affinity for tubulin and induces smaller polymers compared with vinorelbine. Sedimentation velocity provides the only direct evidence to date that vinflunine is a tubulin-binding drug. Stopped-flow light scattering demonstrates the shortest relaxation times for polymer redistribution for vinflunine consistent with induction of the shortest spirals. Data collected at 5 degrees, 15 degrees, 25 degrees, and 37 degrees show increasing 20,w values with increasing temperature and are consistent with an entropically driven process. These data are entirely consistent with our hypothesis that vinflunine is likely to result in reduced clinical neurotoxicity relative to vinorelbine, vinblastine, and vincristine.

Topics: Antineoplastic Agents, Phytogenic; Guanosine Diphosphate; Kinetics; Light; Protein Conformation; Scattering, Radiation; Thermodynamics; Tubulin; Vinblastine; Vinorelbine