Modification of radiation-induced genetic damage in Drosophila melanogaster male germ cells with nucleic acid precursors II. Effects on post-meiotic cells

Abstract

Following the observation that the nucleoside pre-treatment reduced the radiation-induced dominant lethality in the post-meiotic germ cells, similar experiments were conducted using the same treatment conditions to study the influence of the nucleoside(s) pre-treatment on the radiation-induced (1.2 kR) incidence of sex-linked recessive lethals and translocation events in the post-meiotic male germ cells of 1-day-old D. melanogaster. The nucleoside pre-treatment reduced the translocation frequency (not statistically significant) and the lethal mutation frequency (statistically significant) in the post-meiotic cells (pre-injection DNA synthesis cells) especially in the mature sperms sampled in brood a (br a). The radio-protective effect of the nucleosides on the mature sperms was confirmed using 7-day-old virgin males and different radiation doses (2.4 kR and 3.6 kR). The frequency of lethal mutation was lowest when irradiation was preceded by the injection of an equimolar solution of thymidine (TdR), deoxyadenosine (AdR), deoxycytidine (CdR) and deoxyguanosine (GdR). However, when the nucleosides were injected after irradiation (within 10–30 min) there was no change in the yield of radiation-induced lethals. The possible mechanisms for the radioprotective action of the nucleosides in the post-meiotic germ cells such as ( a) “protection” by a radiochemical action of nucleosides competing for short-lived radicals that might otherwise cause damage to DNA and ( b) biochemical-physiological mechanisms such as metabolic events increasing the radioresistance of the cells, providing excess energy for repair or favoring and partaking in the DNA repair synthesis were discussed. Further studies were felt necessary to elucidate this phenomenon.