Citations to this article

Notch signaling suppresses neuroendocrine differentiation and alters the immune microenvironment in advanced prostate cancer
Sheng-Yu Ku, … , David W. Goodrich, Himisha Beltran
Sheng-Yu Ku, … , David W. Goodrich, Himisha Beltran
Published July 18, 2024
Citation Information: J Clin Invest. 2024;134(17):e175217. https://doi.org/10.1172/JCI175217.
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Notch signaling suppresses neuroendocrine differentiation and alters the immune microenvironment in advanced prostate cancer

Abstract

Notch signaling can have either an oncogenic or tumor-suppressive function in cancer depending on the cancer type and cellular context. While Notch can be oncogenic in early prostate cancer, we identified significant downregulation of the Notch pathway during prostate cancer progression from adenocarcinoma to neuroendocrine (NE) prostate cancer, where it functions as a tumor suppressor. Activation of Notch in NE and Rb1/Trp53-deficient prostate cancer models led to phenotypic conversion toward a more indolent, non-NE state with glandular features and expression of luminal lineage markers. This was accompanied by upregulation of MHC and type I IFN and immune cell infiltration. Overall, these data support Notch signaling as a suppressor of NE differentiation in advanced prostate cancer and provide insights into how Notch signaling influences lineage plasticity and the tumor microenvironment (TME).

Authors

Sheng-Yu Ku, Yanqing Wang, Maria Mica Garcia, Yasutaka Yamada, Kei Mizuno, Mark D. Long, Spencer Rosario, Meenalakshmi Chinnam, Majd Al Assaad, Loredana Puca, Min Jin Kim, Martin K. Bakht, Varadha Balaji Venkadakrishnan, Brian D. Robinson, Andrés M. Acosta, Kristine M. Wadosky, Juan Miguel Mosquera, David W. Goodrich, Himisha Beltran

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Year: 2025 2024 Total
Citations: 3 5 8
Citation information

Citations to this article (8)

Title and authors Publication Year
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Human-specific genomic evolution of a regulatory network enables fine-tuning of N-cadherin gene expression.
Erdmann É, Agolli S, Fix S, Cottard F, Keyser C, Zvenigorosky V, Gonzalez A, Haili Z, Kieffer B, Céraline J 		Cellular and molecular life sciences : CMLS 2025
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Verma M, Fatima S, Syed A, Elgorban AM, Abid I, Wong LS, Khan MS, Ansari IA 		Naunyn-Schmiedeberg's archives of pharmacology 2025
Current Understanding of Cardiovascular Calcification in Patients with Chronic Kidney Disease
Chen S, Tang R, Liu B 		International Journal of Molecular Sciences 2024
Neuroendocrine transdifferentiation in human cancer: molecular mechanisms and therapeutic targets
Jiang J, Han D, Wang J, Wen W, Zhang R, Qin W 		MedComm 2024
ASCL1 regulates and cooperates with FOXA2 to drive terminal neuroendocrine phenotype in prostate cancer
Shaghayegh Nouruzi, Takeshi Namekawa, Nakisa Tabrizian, Maxim Kobelev, Olena Sivak, Joshua M. Scurll, Cassandra Jingjing Cui, Dwaipayan Ganguli, Amina Zoubeidi 		JCI Insight 2024
The neuroendocrine transition in prostate cancer is dynamic and dependent on ASCL1.
Romero R, Chu T, González Robles TJ, Smith P, Xie Y, Kaur H, Yoder S, Zhao H, Mao C, Kang W, Pulina MV, Lawrence KE, Gopalan A, Zaidi S, Yoo K, Choi J, Fan N, Gerstner O, Karthaus WR, DeStanchina E, Ruggles KV, Westcott PMK, Chaligné R, Pe'er D, Sawyers CL 		Nature cancer 2024
Reciprocal inhibition of NOTCH and SOX2 shapes tumor cell plasticity and therapeutic escape in triple-negative breast cancer.
Fournier M, Javary J, Roh V, Fournier N, Radtke F 		EMBO molecular medicine 2024

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