Increased levels of p21CDKN1A do not inhibit the recruitment of NER factors at DNA damage sites.

P21CDK1NA is a cyclin-dependent kinase inhibitor playing multiple roles also in the DNA damage response. Therapeutic trials have been developed to contrast tumor cell proliferation, by exploiting the p21 ability to arrest the cell cycle; in particular, proteasome inhibitors increase p21 protein levels, impairing tumor cell growth. However, this approach is may be potentially dangerous because high p21 levels inhibit the apoptotic response and allow DNA repair, rendering tumor cells resistant to chemotherapy. We have investigated whether the accumulation of p21 levels, induced by the inhibitor of proteasome MG132, may affect nucleotide excision repair (NER) and apoptosis. The results have shown that MG132 induced persistent increased levels of XPC, PCNA and p21 proteins at local DNA damage sites, together with accumulation of XPG, DNA polymerase δ and CAF-1, suggesting that the presence of p21 protein did not block the recruitment of NER factors interacting with PCNA. Immunoprecipitation experiments have shown that DNA pol δ interacts with an ubiquitinated form of p21. These results indicate that p21 regulates steps of NER before degradation.