3-Aminobenzamide is lethal to MMS-damaged human fibroblasts primarily during S phase.

3-Aminobenzamide (3-AB) interferes with DNA repair and enhances lethality in growing MMS (methyl methane sulfonate)-treated human fibroblasts. This sensitivity to 3-AB disappears slowly; MMS-treated cells are sensitive to 3-AB for up to 36 hours (Boorstein and Pardee, 1984). Evidence is now presented that 3-AB potentiates the effects of MMS primarily during S phase. When cells were synchronized at the G1/S boundary, released, and then treated with MMS, 3-AB caused very substantial lethality in only 4 hours, and a 12-hour treatment gave maximum lethality. These cells also lost sensitivity to 3-AB within 12 hours of growth minus 3-AB. In contrast, MMS-treated quiescent (G0) cells did not lose sensitivity to 3-AB nor did 3-AB cause lethality during G0. Enhanced lethality occurred when damaged G0-arrested cells were subsequently allowed to proceed through S phase in the presence of 3-AB; this 3-AB sensitivity was removed only during growth in the absence of 3-AB. The lethality of 3-AB to a population of asynchronously cycling cells treated with MMS is thus the summation of effects on the cells as they traverse S phase. Aphidicolin prevented lethality of 3-AB to cells released from G1/S and treated with MMS. It also inhibited the loss of sensitivity to added 3-AB later. Correlation with the inhibition of DNA synthesis by this drug suggests that DNA synthesis is essential for the lethality enhancement by 3-AB. Cells treated first with MMS and then with 3-AB accumulated in G2. This G2 arrest depended on S-phase events and correlated with cell lethality. Cells treated with a nonlethal dose of MMS at the G1/S boundary were delayed briefly (3 hours) in their passage through S and G2. These cells, when also exposed to 3-AB, were delayed 6-9 hours in S and they became arrested in G2. There was no G2 arrest when 3-AB was added only after these cells had reached G2. Treatment with 3-AB during S phase thus resulted in both enhanced lethality and G2 arrest. 3-AB inhibited repair of DNA single-strand damage, shown by alkaline elution analysis, in both S-phase and quiescent cells. Aphidicolin inhibited disappearance of breaks and eliminated the difference between 3-AB-treated and untreated cells. Lethality did not correlate well with the measured single-strand damage.(ABSTRACT TRUNCATED AT 400 WORDS)