BACKGROUND: The epothilones are natural substances that are potently cytotoxic, having an almost identical mode of action to Taxoltrade mark as tubulin-polymerization and microtubule-stabilizing agents. The development of detailed structure-activity relationships for these compounds and the further elucidation of their mechanism of action is of high priority. RESULTS: The chemical synthesis of the C12,13-cyclopropyl analog of epothilone A and its C12,13-trans-diastereoisomer has been accomplished. These compounds and several other epothilone analogs have been screened for their ability to induce tubulin polymerization and death of a number of tumor cells. Several interesting structure-activity trends within this family of compounds were identified. CONCLUSIONS: The results of the biological tests conducted in this study have demonstrated that, although a number of positions on the epothilone skeleton are amenable to modification without significant loss of biological activity, the replacement of the epoxide moiety of epothilone A with a cyclopropyl group leads to total loss of activity.
BACKGROUND: The epothilones are natural substances that are potently cytotoxic, having an almost identical mode of action to Taxoltrade mark as tubulin-polymerization and microtubule-stabilizing agents. The development of detailed structure-activity relationships for these compounds and the further elucidation of their mechanism of action is of high priority. RESULTS: The chemical synthesis of the C12,13-cyclopropyl analog of epothilone A and its C12,13-trans-diastereoisomer has been accomplished. These compounds and several other epothilone analogs have been screened for their ability to induce tubulin polymerization and death of a number of tumor cells. Several interesting structure-activity trends within this family of compounds were identified. CONCLUSIONS: The results of the biological tests conducted in this study have demonstrated that, although a number of positions on the epothilone skeleton are amenable to modification without significant loss of biological activity, the replacement of the epoxide moiety of epothilone A with a cyclopropyl group leads to total loss of activity.
Authors: P Giannakakou; R Gussio; E Nogales; K H Downing; D Zaharevitz; B Bollbuck; G Poy; D Sackett; K C Nicolaou; T Fojo Journal: Proc Natl Acad Sci U S A Date: 2000-03-14 Impact factor: 11.205