Delay of gap filling during nucleotide excision repair by base excision repair: the concept of competition exemplified by the effect of propolis.

Nucleotide excision repair (NER) consists of a sequence of events including DNA damage recognition, excision of the damage containing oligonucleotide, gap filling, and ligation. We found that gap filling during the repair of ultraviolet (UV)C-induced DNA lesions was inhibited by various compounds, e.g., amoxicillin, and mixtures, e.g., propolis, the materials that could induce oxidative DNA damage in serum-supplemented cell cultures. Such inhibitory effect was also demonstrated by the immunostaining experiment and host cell reactivation assay. In this study, we link the repair of oxidative DNA damage with the inhibition of gap filling. Our experimental evidence includes the following: (1) induction of oxidative DNA damage and inhibition of gap filling were quantitatively correlated; (2) although the repair of UV-induced DNA damage was delayed in the presence of propolis, the repair of propolis-induced oxidative DNA damage proceeded regardless of preexposure to UV radiation; (3) inhibition of gap filling by propolis was absent in base excision repair (BER)-deficient cells; (4) suppression of propolis-induced oxidative DNA damage by ß-carotene abolished the inhibition of gap filling; and (5) inhibition of gap filling was also found with typical BER-inducing agents such as hydrogen peroxide, menadione, and methyl methanesulfonate. We propose that competition may occur between NER and BER, which results in delay of gap filling. Our study reveals the dominancy of BER over NER.

Deregulation of cyclin-dependent kinase 2 activity correlates with UVC-induced apoptosis in Chinese hamster ovary cells.

Progression through the cell cycle relies on the activities of cyclin-dependent kinases (Cdk), which in turn are modulated by inhibitory proteins such as p21(waf1/cip1) that are induced when genomic damage occurs. In this study, we show that exposure of normal mammalian cells, such as NIH3T3 fibroblasts, to UVC (25 J/m2, at 254 nm) induces the expression of p21 without causing significant apoptosis, whereas similar treatment of Chinese hamster ovary (CHO-K1) cells with UVC causes apoptosis without inducing p21. The absence of p21 in UV-irradiated CHO-K1 cells is accompanied by the deregulation of Cdk2 activity. The elevation of Cdk2 activity correlates with the increase of UV-induced apoptosis, which can be suppressed by small-molecule Cdk2 inhibitors such as roscovitine and pyrrolidine dithiocarbamate. The results of this study suggest that the deregulation of Cdk2 activity may be critical to UV-induced apoptosis in CHO-K1 cells.