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A Multiscale Map of the Stem Cell State in Pancreatic Adenocarcinoma.

Cell (2019-04-09)
Nikki K Lytle, L Paige Ferguson, Nirakar Rajbhandari, Kathryn Gilroy, Raymond G Fox, Anagha Deshpande, Christian M Schürch, Michael Hamilton, Neil Robertson, Wei Lin, Pawan Noel, Martin Wartenberg, Inti Zlobec, Micha Eichmann, José A Galván, Eva Karamitopoulou, Tami Gilderman, Lourdes Adriana Esparza, Yutaka Shima, Philipp Spahn, Randall French, Nathan E Lewis, Kathleen M Fisch, Roman Sasik, Sara Brin Rosenthal, Marcie Kritzik, Daniel Von Hoff, Haiyong Han, Trey Ideker, Aniruddha J Deshpande, Andrew M Lowy, Peter D Adams, Tannishtha Reya
ZUSAMMENFASSUNG

Drug resistance and relapse remain key challenges in pancreatic cancer. Here, we have used RNA sequencing (RNA-seq), chromatin immunoprecipitation (ChIP)-seq, and genome-wide CRISPR analysis to map the molecular dependencies of pancreatic cancer stem cells, highly therapy-resistant cells that preferentially drive tumorigenesis and progression. This integrated genomic approach revealed an unexpected utilization of immuno-regulatory signals by pancreatic cancer epithelial cells. In particular, the nuclear hormone receptor retinoic-acid-receptor-related orphan receptor gamma (RORγ), known to drive inflammation and T cell differentiation, was upregulated during pancreatic cancer progression, and its genetic or pharmacologic inhibition led to a striking defect in pancreatic cancer growth and a marked improvement in survival. Further, a large-scale retrospective analysis in patients revealed that RORγ expression may predict pancreatic cancer aggressiveness, as it positively correlated with advanced disease and metastasis. Collectively, these data identify an orthogonal co-option of immuno-regulatory signals by pancreatic cancer stem cells, suggesting that autoimmune drugs should be evaluated as novel treatment strategies for pancreatic cancer patients.