Interaction between PARP-1 and ATR in mouse fibroblasts is blocked by PARP inhibition

Inhibition of PARP activity results in extreme sensitization to MMS-induced cell killing in cultured mouse fibroblasts. In these MMS-treated cells, PARP inhibition is accompanied by an accumulation of S-phase cells that requires signaling by the checkpoint kinase ATR [J.K. Horton, D.F. Stefanick, J.M. Naron, P.S. Kedar, S.H. Wilson, Poly(ADP-ribose) polymerase activity prevents signaling pathways for cell cycle arrest following DNA methylating agent exposure, J. Biol. Chem. 280 (2005) 15773-15785]. Here, we examined mouse fibroblast extracts for formation of a complex that may reflect association between the damage responsive proteins PARP-1 and ATR. Co-immunoprecipitation of PARP-1 and ATR was observed in extracts prepared from MMS-treated cells, but not under conditions of PARP inhibition. Further, our experiments demonstrated PAR-adduction of ATR in extracts from control and MMS-treated cells. An interaction between purified ATR and PARP-1 was similarly demonstrated, suggesting that the observed co-immunoprecipitation of ATR and PARP-1 from cell extracts may be due to a direct interaction between the two enzymes. In addition, purified recombinant ATR is a substrate for poly(ADP-ribosyl)ation by PARP-1, and poly(ADP-ribose) adduction of PARP-1 and ATR resulted in an increase in PARP-1 and ATR co-immunoprecipitation.