CUT Domains Stimulate Pol ß Enzymatic Activities to Accelerate Completion of Base Excision Repair.

ABSTRACT

The full-length CUX1 protein isoform was previously shown to function as an auxiliary factor in base excision repair (BER). Specifically, CUT domains within CUX1 stimulate the enzymatic activities of the OGG1 DNA glycosylase and APE1 endonuclease. Moreover, ectopic expression of CUX1 or CUT domains increased the resistance of cancer cells to treatments that cause oxidative DNA damage and mono-alkylation of bases. Stimulation of OGG1 AP/lyase and APE1 endonuclease activities, however, cannot explain how CUT domains confer resistance to these treatments since these enzymes produce DNA single-strand breaks that are highly toxic to cells. In the present study, we show that CUT domains stimulate the polymerase and deoxyribose phosphate (dRP)-lyase activities of DNA polymerase ß to promote BER completion. In agreement with these results, CUX1 knockdown decreases BER completion in cell extracts and causes an increase in the number of abasic sites in genomic DNA following temozolomide treatment. We also show that CUT domains stimulate bypass of intrastrand G-crosslinks by Pol ß in vitro, while the resistance of cancer cells to cisplatin treatment is reduced by CUX1 knockdown but restored by ectopic expression of CUT domains. Altogether our results establish CUX1 as an important auxiliary factor that stimulates multiple steps of base excision repair, from the recognition and removal of altered bases to the addition of new nucleotides and removal of 5'-deoxyribose phosphate required for ligation and BER completion. These findings provide a mechanistic explanation for the observed correlation between CUX1 expression and the resistance of cancer cells to genotoxic treatments.