Interaction of Hyperthermia and Radiation in CHO Cells: Recovery Kinetics

Abstract

The sensitivity to hyperthermic damage (45.degree. C .+-. 0.05.degree.) and the interaction of hyperthermic damage with radiation damage was determined in Chinese hamster ovary (CHO) fibroblasts in monolayer culture. The survival curve for asynchronous cells heated at 45.degree. C was exponential with a shoulder (D0 [cell sensitivity] = 3.6 min, Dq [quasi-threshold dose] = 7.5 min, n [extrapolation number] = 7.3). Fractionation of 2 equal heat treatments each of 17.5 min indicated that cell survival was maximally enhanced at a fractionation interval of 12 h to a survival ratio of approximately 400. Of this, a factor of 60 was due to induction of thermotolerance in terms of an increased D0. Recovery of the capacity to accumulate sublethal damage (return of n to 7.3) was complete and occurred within the first 4 h. By 72 h the D0 returned to normal although the Dq persisted at 20 min at 45.degree. C. Heating (17.5 min at 45.degree. C) followed immediately by radiation (450 rad) or radiation followed immediately by heating did not produce significantly different survival values. Hyperthermia reduced the D0 of the radiation-survival curve by a factor of 1.9 and increased the n by a factor of 3. The Dq remained unchanged. For intervals up to 48 h, prior hyperthermia increased the n and Dq of the radiation-survival curve to approximately 1000 and 650 rad, respectively. However, the D0 remained unchanged at approximately 83 rad over the entire interval of 0-72 h. For the sequence of radiation followed by hyperthermia, the Dq of the hyperthermia-survival curve was reduced to 2.9 min at 45.degree. C by simultaneous irradiation but returned to near-normal values after a fractionation interval of 2 h. The D0 of the hyperthermia-survival curve was unaffected by prior irradiation. Hyperthermia decreased the slope and widened the shoulder of the radiation-survival curve while prior irradiation only affected the shoulder of the subsequent hyperthermia-survival curve. The recovery kinetics and extensive resistance of heated cells to a 2nd heat dose are difficult to explain solely by the rate process theory of protein denaturation. However, denaturation of membrane or chromatin proteins associated with intracellular recovery mechanisms may account for the effects of hyperthermia alone on cell survival and its modification of the radiation response.