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Ablative radiotherapy improves survival but does not cure autochthonous mouse models of prostate and colorectal cancer.

Communications medicine (2023-08-10)
Daniel R Schmidt, Iva Monique T Gramatikov, Allison Sheen, Christopher L Williams, Martina Hurwitz, Laura E Dodge, Edward Holupka, W S Kiger, Milton R Cornwall-Brady, Wei Huang, Howard H Mak, Kathleen S Cormier, Charlene Condon, K Dane Wittrup, Ömer H Yilmaz, Mary Ann Stevenson, Julian D Down, Scott R Floyd, Jatin Roper, Matthew G Vander Heiden
RESUMEN

Genetically engineered mouse models (GEMMs) of cancer are powerful tools to study mechanisms of disease progression and therapy response, yet little is known about how these models respond to multimodality therapy used in patients. Radiation therapy (RT) is frequently used to treat localized cancers with curative intent, delay progression of oligometastases, and palliate symptoms of metastatic disease. Here we report the development, testing, and validation of a platform to immobilize and target tumors in mice with stereotactic ablative RT (SART). Xenograft and autochthonous tumor models were treated with hypofractionated ablative doses of radiotherapy. We demonstrate that hypofractionated regimens used in clinical practice can be effectively delivered in mouse models. SART alters tumor stroma and the immune environment, improves survival in GEMMs of primary prostate and colorectal cancer, and synergizes with androgen deprivation in prostate cancer. Complete pathologic responses were achieved in xenograft models, but not in GEMMs. While SART is capable of fully ablating xenografts, it is unable to completely eradicate disease in GEMMs, arguing that resistance to potentially curative therapy can be modeled in GEMMs.

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Tamoxifen, 4-Hydroxy-, (Z)-, A cell-permeable, active metabolite of Tamoxifen that acts as a potent inhibitor of PKC. It is more potent than the parent compound and inhibits PKC by modifying its catalytic domain.