Validation of the pharmacodynamics of BMS-247550, an analogue of epothilone B, during a phase I clinical study.

The primary aims of this study were to evaluate the timecourse and dose response of microtubule bundle formationin peripheral blood mononuclear cells (PBMCs) and to correlate these data with BMS-247550 pharmacokinetics. The data presented here were obtained from 17 patients enrolled in a Phase I trial who received five dose levels of BMS-247550 (7.4-59.2 mg/m(2)), given as a 1-h infusion once every 3 weeks. Plasma drug exposure or area under the curve (AUC), and tubulin bundle formation in PBMCs were assessed in cycles 1 and 2. Similar analyses were also performed on tumor biopsies from one eligible patient. PBMCs exhibited dramatic microtubule bundle formation 1 h after infusion that declined by 24 h, showing a positive correlation with AUC((0-24)) for cycles 1 and 2. A similar pattern of tubulin bundle formation also was observed in a smaller proportion of breast tumor cells from one patient who exhibited a partial response to BMS-247550. This patient's tumor expressed multidrug resistance (MDR1) and MDR-associated protein (MRP1), and in addition poly(ADPribose) polymerase cleavage, a marker of cell death, was observed within 23 h after drug infusion. This patient was also heterozygous for a novel polymorphism at the extreme COOH terminus of beta-tubulin (Gly 437 Gly/Ser), although the relevance of the polymorphism to the response is unknown. In summary, microtubule bundle formation in PBMCs occurs within 1 h of treatment with BMS-247550 and is related to plasma AUC. Similar bundle formation was seen in one tumor sample, despite expression of MDR1 and MRP1. Cell death occurred 23 h after peak microtubule bundle formation in these tumor cells. These findings validate in vitro pharmacodynamic observations.