Purpose: Etoposide is a commonly used anticancer agent that is highly schedule-dependent. The in vitro activity of etoposide (0-10 microM) was investigated in a panel of leukaemic cell lines.
Methods: Cells were cultured with etoposide in drug schedules of equal exposure duration (ED, durationxconcentration), and the effects of drug exposure on cell parameters, including cell cycle distribution, were assessed over an 8-day period.
Results: Proliferation assays indicated a concentration- and duration-dependent induction of cell death by etoposide in CEM and HL60 cells, and flow cytometric analysis indicated that this cell kill was by apoptosis. Efficacy was also dependent upon schedule, with more cell kill seen in schedules of longer duration. As an example, accumulative percent cell kill resulting from a continuous exposure to 0.05 microM etoposide was significantly greater than that in cultures involving either a 4-day exposure to 0.1 microM or a single-day exposure to 0.4 microM etoposide (193.4+/-15.9% vs 125.2+/-5.4% vs 42.3+/-5.9%, respectively; P<0.001 in all cases; equi-ED 0.4 microM.days). Efficacy was also dependent upon the ED of the schedule. At very low concentrations, the initial enhancement of cytotoxicity mediated by increasing duration would gradually and paradoxically be lost in the more protracted schedules (e.g. accumulative percent cell kill 66.4+/-7.4%, 158.3+/-12.0% and 40.1+/-6.0% with 100 n M for 2 days, 33 n M for 6 days and 25 n M for 8 days, respectively; P<0.001 in all cases; equi-ED 0.2 microM x days).
Conclusions: Our results confirm the schedule-dependency of etoposide in vitro, highlighting the importance of total duration of drug exposure in determining cytotoxicity, and emphasizing the requirement to achieve a cytotoxic concentration in longer exposures. It is therefore crucial to ensure that etoposide regimens used clinically involve doses that are effectively cytotoxic.