Purpose: Highly 5-HT(3)-receptor-specific antiemetic agents may have different effects on ion transport of tumour cells during treatment with cytotoxic drugs. Cell volume regulation, which is dependent on potassium ion (K(+)) flux, is involved the control of cell growth, proliferation, and apoptosis. K(+)-flux response mechanisms to the antiemetics ondansetron and granisetron were therefore correlated to malignant glioma cell (Mg251) volume response to estramustine phosphate (EMP) in vitro.
Methods: We quantified the influx and efflux of potassium ions (using the K(+) analogue (86)Rb(+)) as well as cell volume changes (with image analysis) of glioma cells incubated with the 5-HT(3)-receptor antagonists ondansetron and granisetron (0.1 micro mol/l) combined with 40 mg/l EMP.
Results: The EMP-induced cell volume increase was fully inhibited by ondansetron but not affected by granisetron. Ondansetron retained high cellular K(+)-efflux and reduced Na(+), K(+), 2Cl(-)-cotransport activity, whereas granisetron (0.1 micro mol/l) reduced K(+)-efflux and retained an augmented Na(+), K(+), 2Cl(-)-cotransport activity in the presence of 40 mg/l EMP.
Conclusions: Ondansetron affects K(+) transport with ensuing effects on cell volume of tumour cells treated with EMP, whereas granisetron does not. Since ondansetron and other 5-HT(3)-receptor antagonists are used routinely to prevent nausea during anticancer treatment, an increased awareness of possible interactions with the antitumour efficacy of anticancer drugs seems warranted.