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  2. Radiation and chemo-sensitizing effects of DNA-PK inhibitors are proportional in tumors and normal tissues

Radiation and chemo-sensitizing effects of DNA-PK inhibitors are proportional in tumors and normal tissues

  • Mol Cancer Ther. 2024 May 23. doi: 10.1158/1535-7163.MCT-23-0681.
Jennifer H E Baker 1 Alastair H Kyle 1 Nannan Anam Liu 1 Taixiang Wang 2 Xinhe Liu 1 Sevin Teymori 1 Judit P Banáth 1 Andrew I Minchinton 2
Affiliations

Affiliations

  • 1 BC Cancer Research Centre, Vancouver, BC, Canada.
  • 2 BC Cancer Agency, Vancouver, BC, Canada.
Abstract

Inhibitors of DNA-PK sensitize cancers to radiotherapy and DNA-damaging chemotherapies, with candidates in clinical trials. However, the degree to which DNA-PK inhibitors also sensitize normal tissues remains poorly characterized. In this study we compare tumor growth control and normal tissue sensitization following DNA-PK inhibitors in combination with radiation and etoposide. FaDu tumor xenografts implanted in mice were treated with 10 - 15Gy irradiation ± 3 - 100 mg/kg AZD7648. A dose-dependent increase in time to tumor volume doubling following AZD7648 was proportional to an increase in toxicity scores of the overlying skin. Similar effects were seen in the intestinal jejunum, tongue and FaDu tumor xenografts of mice assessed for proliferation rates at 3.5 days after treatment with etoposide or 5Gy whole body irradiation ± DNA-PK inhibitors AZD7648 or peposertib (M3814). Additional organs were examined for sensitivity to DNA-PK Inhibitor activity in ATM-deficient mice, where DNA-PK activity is indicated by surrogate marker γH2AX. Inhibition was observed in heart, brain, pancreas, thymus, tongue and salivary glands of ATM-deficient mice treated with the DNA-PK inhibitors relative to radiation alone. Similar reductions are also seen in ATM-deficient FaDu tumor xenografts where both pDNA-PK and γH2AX staining could be performed. Conclusions: DNA-PK inhibitor-mediated sensitization to radiation and DNA-damaging chemotherapy is not limited to tumor tissues, but also extends to normal tissues sustaining DNA damage. These data are useful for interpretation of the sensitizing effects of DNA damage repair inhibitors, where a therapeutic index showing greater cell-killing effects on Cancer cells is crucial for optimal clinical translation.

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