Hydrogen sulfide and DNA repair.

Recent evidence has revealed that exposing cells to exogenous H 2 S or inhibiting cellular H 2 S synthesis can modulate cell cycle checkpoints, DNA damage and repair, and the expression of proteins involved in the maintenance of genomic stability, all suggesting that H 2 S plays an important role in the DNA damage response (DDR). Here we review the role of H 2 S in the DRR and maintenance of genomic stability. Treatment of various cell types with pharmacologic H 2 S donors or cellular H 2 S synthesis inhibitors modulate the G 1 checkpoint, inhibition of DNA synthesis, and cause p21, and p53 induction. Moreover, in some cell models H 2 S exposure induces PARP-1 and g-H2AX foci formation, increases PCNA, CHK2, Ku70, Ku80, and DNA polymerase-d protein expression, and maintains mitochondrial genomic stability. Our group has also revealed that H 2 S bioavailability and the ATR kinase regulate each other with ATR inhibition lowering cellular H 2 S concentrations, whereas intracellular H 2 S concentrations regulate ATR kinase activity via ATR serine 435 phosphorylation. In summary, these findings have many implications for the DDR, for cancer chemotherapy, and fundamental biochemical metabolic pathways involving H 2 S.

Effect of ultraviolet B radiation on activator protein 1 constituent proteins and modulation by dietary energy restriction in SKH-1 mouse skin.

The study examined the timing of modulation of activator protein 1(AP-1):DNA binding and production of AP-1 constituent proteins by ultraviolet B (UVB) radiation and effect of dietary energy restriction [DER, 40% calorie reduction from fat and carbohydrate compared to control ad libitum (AL) diet] in SKH-1 mouse epidermis. AP-1:DNA binding by electromobility shift assay (EMSA) was increased in a biphasic manner after treatment with a tumor-promoting suberythemal dose (750 mJ/cm(2)) of UVB light (311-313 nm) with peaks at 3 and 18 h postirradiation. DER overall reduced AP-1:DNA binding in mock-treated and UVB-treated skin at 3 and 18 h after UVB treatment. The timing of modulation of production of AP-1 constituent proteins by Western blot analysis was examined at 0 h (mock treatment), 3, 9, 18, and 24 h. We found that c-jun (9 h), jun-B (9 and 18 h), phosphorylated c-jun (3 h), and fra-1 (18 h) protein levels were increased after UVB treatment compared to mock controls. In a follow-up diet experiment, animals were placed on DER or AL diet for 10-12 wk and treated with UVB as before. DER was found to completely block the UVB-induced increase in phosphorylated c-jun protein levels and decrease in fra-2 protein levels at 18 h. In addition, DER enhanced UVB-induced increase in jun B levels and lowered basal levels of c-fos seen 18 h after UVB. These data suggest that DER may be able to assist in the prevention of UVB-induced skin carcinogenesis by modulating AP-1:DNA binding and AP-1 constituent protein levels.