Abstract
Baccatin III, which is used as a precursor for the semisynthesis of taxol, showed cytotoxic activity against a variety of cancer cell lines in culture, with ED 50 values ranging from approximately 8 to 50 μM. Although the potency of this response is much lower than that mediated by taxol, it was interesting to note that any significant cytotoxic response could be mediated by this compound. Thus, it was considered of potential value to investigate the mechanism of cytotoxic action. Consistent with an antimitotic mode of action, baccatin III induced cultured cells to accumulate in the G 2 + M phases of the cell cycle. However, unlike taxol, which potentiates the polymerization of tubulin, baccatin III mediated an antimitotic response through inhibition of the polymerization reaction, similar to colchicine, podophyllotoxin, or vinblastine. Accordingly, baccatin III was unable to reduce the extent of Ca 2+-induced depolymerization, a hallmark of the biological response mediated by taxol. To further explore the mode of antimitotic activity facilitated by baccatin III, competitive interactions with the colchicine, podophyllotoxin, and vinblastine binding sites of tubulin were investigated. Baccatin III displaced the binding of radiolabeled colchicine or radiolabeled podophyllotoxin, but did not displace the binding of radiolabeled vinblastine. Greater affinity with the colchicine binding site was observed and the kinetics of inhibition were shown to be mixed. The side chain of taxol, which differentiates the molecule from baccatin III and is known to be of requisite importance for the unique activity mediated by taxol, is not by itself active in any of these processes. Thus, the baccatin III nucleus of taxol may lead to an interaction with tubulin through traditional binding sites. Facilitated by this interaction, the intact molecule of taxol may thereby be permitted to potentiate tubulin polymerization and block cells in the mitotic phase of the cell cycle.
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