Despite its clinical efficacy in HER2-positive cancers, resistance to trastuzumab inevitably occurs. The DNA damage response (DDR) pathway is essential for maintaining genomic stability and cell survival. However, the role of the DDR pathway in HER2-positive tumors and trastuzumab resistance remains elusive. In this study, we verified that increased PARP1 expression in trastuzumab-resistant (TR) cells, owing to its augmented stability by escape from proteasomal degradation, confers tolerability to trastuzumab-induced DNA damage. Interruption of PARP1 in TR cells restrains its cellular growth, while simultaneously activating ATM to retain its genome stability. Dual inhibition of PARP and ATM induces synthetic lethality in TR cells by favoring the toxic NHEJ pathway instead of the HRR pathway. Our results highlight the potential of clinical development of DDR-targeting strategies for trastuzumab-resistant HER2-positive cancer patients.
© 2022. The Author(s), under exclusive licence to Springer Nature Limited.