APE1-dependent repair of DNA single-strand breaks containing 3′-end 8-oxoguanine

DNA single-strand breaks containing 3′-8-oxoguanine (3′-8-oxoG) ends can arise as a consequence of ionizing radiation and as a result of DNA polymerase infidelity by misincorporation of 8-oxodGMP. In this study we examined the mechanism of repair of 3′-8-oxoG within a single-strand break using purified base excision repair enzymes and human whole cell extracts. We find that 3′-8-oxoG inhibits ligation by DNA ligase IIIα or DNA ligase I, inhibits extension by DNA polymerase β and that the lesion is resistant to excision by DNA glycosylases involved in the repair of oxidative lesions in human cells. However, we find that purified human AP-endonuclease 1 (APE1) is able to remove 3′-8-oxoG lesions. By fractionation of human whole cell extracts and immunoprecipitation of fractions containing 3′-8-oxoG excision activity, we further demonstrate that APE1 is the major activity involved in the repair of 3′-8-oxoG lesions in human cells and finally we reconstituted repair of the 3′-8-oxoG-containing oligonucleotide duplex with purified human enzymes including APE1, DNA polymerase β and DNA ligase IIIα.