Radiosensitization of human T-cell leukemia by thymidine and 41.8 degrees C hyperthermia in vitro.

This study tested whether thymidine, a naturally occurring nucleoside metabolite, could increase the sensitivity of human T-cell neoplasms to ionizing irradiation and whether adding 41.8 degrees C hyperthermia (X 1 h) to the combination of thymidine and irradiation would further enhance killing of cells by radiation. The magnitude of cytotoxicity induced directly by thymidine was also evaluated. Finally, the ability of 2'-deoxycytidine to prevent thymidine-induced cytotoxicity and radiosensitization was studied. Using JM and MOLT3, two human T-cell acute lymphoblastic leukemias, it was found that thymidine itself was cytotoxic and the toxicity appeared rapidly upon exposure to the drug (i.e., at 4 h). Thymidine caused significant radiosensitization, and thymidine plus 1 h of 41.8 degrees C hyperthermia enhanced radiation-induced killing significantly more than did thymidine or hyperthermia separately. The addition of 2'-deoxycytidine only partly reversed thymidine-induced killing and did not prevent thymidine-induced radiosensitization. The applicability of these results to the clinical management of T- and null-cell malignancies is discussed, as is the presumed mechanistic basis for these observations relative to deoxyribonucleoside metabolism, NAD metabolism, and inhibition of poly(ADP-ribose) polymerase.