PARP-1-dependent 3-nitrotyrosine protein modification after DNA damage.

3-nitrotyrosine (NO2-Tyr) is thought to be a specific marker of cell injury during oxidative damage. We have evaluated the role of poly(ADP-ribose)polymerase-1 (PARP-1) in protein nitration after treatment of immortalized fibroblasts parp-1+/+ and parp-1-/- with the alkylating agent 2'-methyl-2'-nitroso-urea (MNU). Both cell lines showed increased iNOS expression following MNU treatment in parallel with a selective induction of tyrosine nitration of different proteins. PARP-1 deficient cells displayed a delayed iNOS accumulation, reduced number of nitrated proteins, and a lower global nitrotyrosine "footprint." We have identified the mitochondrial compartment as the major site of oxidative stress during DNA damage, being MnSOD one of the NO2-Tyr-modified proteins, but not in parp-1-/- cells. These results suggest that NO-derived injury can be modulated by proteins involved in the response to genotoxic damage, such as PARP-1, and may account for the limited oxidative injury in parp-1 knockout mice during carcinogenesis and inflammation.