Abstract

Dysregulation of SMAD4 (i.e. somatic mutation) is strongly associated with poor pancreatic ductal adenocarcinoma (PDAC) prognosis, yet the molecular mechanisms remain underlying this relationship obscure. Previously, we discovered that SMAD4 mutation renders pancreatic cancer resistant to radiotherapy via promotion of autophagy. In the current work, we observed a downregulation of the protein level of SMAD4 in PDAC as compared with adjacent normal tissue, and that such SMAD4low PDAC failed to benefit from chemotherapy. Furthermore, we observed that SMAD4 depletion dramatically enhanced DNA repair capacity in response to irradiation (IR) or a radiomimetic chemical. Interestingly, we found the radiomimetic chemical having induced a robust translocation of SMAD4 into the nucleus, where a direct interaction was shown to occur between the MH1 domain of SMAD4 and the DBD domain of PARP1. Functionally, the SMAD4-PARP1 interaction was found to perturb the recruitment of PARP1 to DNA damage sites. Accordingly, the combination of olaparib and radiotherapy was indicated in vivo and in vitro to specifically reduce the growth of SMAD4-deficient PDAC by attenuating PARP1 activity. Collectively, our results revealed a novel molecular mechanism for the involvement of the SMAD4-PARP1 interaction in DNA repair with a vital role in radiotherapy response in PDAC. Based on our set of findings, our findings offer a new combined therapeutic strategy for SMAD4 deficient PDAC that can significantly reduce pancreatic cancer radiotherapy resistance.

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