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Transcriptional mediators of treatment resistance in lethal prostate cancer.

Nature medicine (2021-03-06)
Meng Xiao He, Michael S Cuoco, Jett Crowdis, Alice Bosma-Moody, Zhenwei Zhang, Kevin Bi, Abhay Kanodia, Mei-Ju Su, Sheng-Yu Ku, Maria Mica Garcia, Amalia R Sweet, Christopher Rodman, Laura DelloStritto, Rebecca Silver, John Steinharter, Parin Shah, Benjamin Izar, Nathan C Walk, Kelly P Burke, Ziad Bakouny, Alok K Tewari, David Liu, Sabrina Y Camp, Natalie I Vokes, Keyan Salari, Jihye Park, Sébastien Vigneau, Lawrence Fong, Joshua W Russo, Xin Yuan, Steven P Balk, Himisha Beltran, Orit Rozenblatt-Rosen, Aviv Regev, Asaf Rotem, Mary-Ellen Taplin, Eliezer M Van Allen
RESUMEN

Metastatic castration-resistant prostate cancer is typically lethal, exhibiting intrinsic or acquired resistance to second-generation androgen-targeting therapies and minimal response to immune checkpoint inhibitors1. Cellular programs driving resistance in both cancer and immune cells remain poorly understood. We present single-cell transcriptomes from 14 patients with advanced prostate cancer, spanning all common metastatic sites. Irrespective of treatment exposure, adenocarcinoma cells pervasively coexpressed multiple androgen receptor isoforms, including truncated isoforms hypothesized to mediate resistance to androgen-targeting therapies2,3. Resistance to enzalutamide was associated with cancer cell-intrinsic epithelial-mesenchymal transition and transforming growth factor-β signaling. Small cell carcinoma cells exhibited divergent expression programs driven by transcriptional regulators promoting lineage plasticity and HOXB5, HOXB6 and NR1D2 (refs. 4-6). Additionally, a subset of patients had high expression of dysfunction markers on cytotoxic CD8+ T cells undergoing clonal expansion following enzalutamide treatment. Collectively, the transcriptional characterization of cancer and immune cells from human metastatic castration-resistant prostate cancer provides a basis for the development of therapeutic approaches complementing androgen signaling inhibition.

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2- Mercaptoetanol, BioUltra, for molecular biology, ≥99.0% (GC)
Sigma-Aldrich
Anti-HOXB5 antibody produced in rabbit, Prestige Antibodies® Powered by Atlas Antibodies, affinity isolated antibody