4NQO- or MNNG-resistant variants established from a human cell line, RSb, with high sensitivity to both agents.

From a human cell line, RSb, with high sensitivity to the killing effects of 4-nitroquinoline 1-oxide (4NQO), N-methyl-N'-nitro-N-nitrosoguanidine (MNNG) and 254-nm ultraviolet light, a 4NQO-resistant variant, Qr-10, and an MNNG-resistant one, Gr-10, were established using ethyl methanesulfonate as the mutagen. Cell proliferation studies and colony-formation assays revealed that Qr-10 and Gr-10 cells actively proliferated under conditions where RSb cell proliferation was greatly inhibited by 4NQO and MNNG, respectively. Total cellular DNA synthesis, as estimated by [Me-3H]thymidine uptake into acid-insoluble cell materials, was depressed in 4NQO-treated Qr-10 and MNNG-treated Gr-10 cells as it was in chemical-treated RSb cells, but recovered more markedly from such inhibition in the variants. 4NQO- and MNNG-induced DNA-repair replication synthesis was enhanced to a greater extent in Qr-10 and Gr-10 cells, respectively, than in RSb cells. The Qr-10 and Gr-10 cells showed the same respective susceptibility to the effects of MNNG and 4NQO, on cell growth and DNA synthesis and DNA-repair synthesis as did the parent cells. But, Qr-10 cells had more resistance to UV-killing and higher levels of UV-induced DNA-repair synthesis than did RSb cells, while UV-susceptibility of Gr-10 cells was the same as that of the latter.