Interaction of bleomycin, hyperthermia and a calmodulin inhibitor (trifluoperazine) in mouse tumor cells.

To improve the efficacy of thermochemotherapy we have investigated the individual and combined effects of hyperthermia (44 degrees C) and the calmodulin inhibitor trifluoperazine (30 micrograms/ml) on early plateau phase cultures of mouse EMT6 cells for simultaneous exposures to bleomycin. We found that a non-toxic combination of hyperthermia and trifluoperazine: enhanced the cytotoxicity of bleomycin, increased the frequency of long-lived attachment sites of cellular DNA at the nuclear matrix, and resulted in an accumulation of DNA damage (strand-breaks and alkali-labile lesions) caused by the inhibition of strand-break rejoining and the impaired processing of DNA sites involving base loss. Our findings implicate a role for calmodulin in the control of chromatin structural changes during DNA repair and the study provides a rational basis for the use of calmodulin inhibitors in thermochemotherapy.