Senescence induction dictates response to chemo- and immunotherapy in preclinical models of ovarian cancer

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Scott W. Lowe

doi:10.1073/pnas.2117754119

Significance

Efforts to understand and find new treatment options for high-grade serous ovarian cancer (HGSOC) have been confounded by a paucity of immune-competent models that accurately reflect the genetics and biology of the disease. Here, we leverage somatic tissue engineering to develop a fast and flexible immune-competent mouse model of HGSOC and reveal mechanistic insights into factors that dictate the response of ovarian tumors to conventional chemotherapy and immune checkpoint blockade. Our results identify a genotype-dependent therapy-induced senescence program that mediates sensitivity and resistance to first line chemotherapy and point to strategies to harness the senescence program to sensitize ovarian tumors to immune checkpoint blockade.

Senescence induction dictates response to chemo- and immunotherapy in preclinical models of ovarian cancer

Significance

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