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Merck

Augmenting chemotherapy with low-dose decitabine through an immune-independent mechanism.

JCI insight (2022-10-14)
Wade R Gutierrez, Amanda Scherer, Jeffrey D Rytlewski, Emily A Laverty, Alexa P Sheehan, Gavin R McGivney, Qierra R Brockman, Vickie Knepper-Adrian, Grace A Roughton, Dawn E Quelle, David J Gordon, Varun Monga, Rebecca D Dodd
ABSTRAKT

The DNA methyltransferase inhibitor decitabine has classically been used to reactivate silenced genes and as a pre-treatment for anti-cancer therapies. In a new variation of this idea, this study explores the concept of adding low-dose decitabine following administration of chemotherapy to bolster therapeutic efficacy. We find that addition of decitabine following treatment with the chemotherapy gemcitabine improves survival and slows tumor growth in a mouse model of high-grade sarcoma. Unlike prior studies in epithelial tumor models, low-dose decitabine did not induce a robust anti-tumor T cell response in sarcoma. Furthermore, low-dose decitabine synergizes with gemcitabine independently of the immune system. Mechanistic analyses demonstrate that the combination therapy induces bi-phasic cell cycle arrest and apoptosis. Therapeutic efficacy was found to be sequence dependent, with gemcitabine priming cells for treatment with decitabine through inhibition of ribonucleotide reductase. This study identifies a unique application of low-dose decitabine to augment the cytotoxic effects of conventional chemotherapy in an immune-independent manner. The concepts explored in this study represent a promising new paradigm for cancer treatment by augmenting chemotherapy through addition of low-dose decitabine to increase tolerability and improve patient response. These findings have widespread implications for the treatment of sarcomas and other aggressive malignancies.

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Sigma-Aldrich
Anti-γ-Tubulin antibody, Mouse monoclonal, clone GTU-88, purified from hybridoma cell culture
Sigma-Aldrich
Camptothecin, Camptotheca acuminata, A cell-permeable DNA topoisomerase I inhibitor.