ALTERED DNA TOPOISOMERASE-II ACTIVITY IN CHINESE-HAMSTER CELLS RESISTANT TO TOPOISOMERASE-II INHIBITORS

Abstract

Most DNA intercalators and epipodophyllotoxins inhibit mammalian topoisomerase II by trapping the enzyme within DNA cleavage complexes that can be detected in cells as protein-associated DNA strand breaks. We have characterized previously a line of Chinese hamster cells (DC3F/9-OHE cells) the resistance of which to the cytotoxic effect of intercalators and etoposide is associated with a reduced formation of protein-associated DNA strand breaks. In the present study, topoisomerases of these cells were compared to those of the parental sensitive cells (DC3F). NaCl extracts (0.35 M) of isolated DC3F/9-OHE nuclei did not form 4''-(-acridinylamino)methanesulfon-m-anisidide-induced DNA-protein linking, whereas DC3F nuclear extracts did. In addition, DC3F/9-OHE nuclear extract had an unusually high level of DNA linking activity in the absence of 4''-(9-acridinylamino)methanesulfon-m-anisidide. Topoisomerases II from DC3F/9-OHE and DC3F nuclei appeared similar qualitatively. DC3F/9-OHE nuclear extract had approximately twice less topoisomerase II molecules than did DC3F nuclear extract but similar topoisomerase II activity. Topoisomerase I activities appeared also similar in sensitive and resistant cells. However, part of DC3F/9-OHE topoisomerase I copurified with a DNA linking activity which was not present in DC3F nuclei. This unusual DNA linking activity was not sensitive to the stimulatory effect of 4''-(9-acridinylamino)methanesulfon-m-anisidide.