Induction of sister chromatid exchanges by UV light and its inhibition by caffeine

Abstract

Sister chromatid exchanges in Chinese hamster chromosomes were studied after pulse-labeling cells with 3H-thymidine at various concentrations. Whereas the frequency of chromatid aberrations varied widely, depending upon tritium dose, there was no significant change in the sister chromatid exchange frequency, even with a 40-fold range of variation in the tritium concentration in the medium. When cells were exposed immediately after labeling to UV light at 40 erg/mm 2 and examined at the second mitosis, the frequency of sister chromatid exchanges was found to be 4 times higher than that of the unirradiated controls. A synchronization treatment utilizing 2 mM thymidine also caused a two-fold rise in the exchange frequency above the control level. Furthermore, when synchronized cells were irradiated with UV light at a dose of 40 erg/mm 2, the exchange frequency exceeded 5 times that of the untreated controls. However, this effect was detectable only when cells were irradiated at the earlier part of the S phase, while no change was detected when irradiated at the late S or G2 phase. A post-treatment of irradiated cells with caffeine caused a remarkable decrease in the frequency of sister chromatid exchanges. On the other hand, the frequency of chromatid aberrations of the deletion type increased strikingly after the same treatment. The results appear to suggest a certain correlation between the mechanism involved in the induction of sister chromatid exchanges and a post-replication repair of DNA damage.