Caffeine Sensitization of Cultured Mammalian Cells and Human Lymphocytes Irradiated with γ Rays and Fast Neutrons: A Study of Relative Biological Effectiveness in Relation to Cellular Repair

Abstract

The sensitizing effects of caffeine were studied in baby hamster kidney (BHK-21) cells and human lymphocytes following irradiation with γ rays and fast neutrons. Caffeine sensitization occurred only when log-phase BHK cells and mitogen-stimulated lymphocytes were exposed to the two radiations. Noncycling (confluent) cells of BHK resulted in a shouldered survival curve following γ irradiation while a biphasic curve was obtained with the log-phase cells. Survival in the case of lymphocytes was estimated by measurement of [³ H]thymidine uptake. Prestimulated lymphocytes exhibited a biphasic thymidine uptake curve while the postirradiation-stimulated lymphocytes resulted in an exponential curve. Fast neutrons reduced both shoulder and tail of survival curves representing resistant fractions of cell populations. Consequently, the relative biological effectiveness (RBE) of fast neutrons was found to be greater at survival levels corresponding to the resistant portions of the survival curves (shoulder or resistant tail). In both cell types, no reduction in RBE was observed when caffeine was present, because caffeine affected both γ and neutron survival by the same proportion.