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Novel Oncogenic Transcription Factor Cooperation in RB-Deficient Cancer

Amy C. Mandigo, Ayesha A. Shafi, Jennifer J. McCann, Wei Yuan, Talya S. Laufer, Denisa Bogdan, Lewis Gallagher, Emanuela Dylgjeri, Galina Semenova, Irina A. Vasilevskaya, Matthew J. Schiewer, Chris M. McNair, Johann S. de Bono, Karen E. Knudsen

2021Cancer Research20 citationsDOIOpen Access PDF

Abstract

The retinoblastoma tumor suppressor (RB) is a critical regulator of E2F-dependent transcription, controlling a multitude of protumorigenic networks including but not limited to cell-cycle control. Here, genome-wide assessment of E2F1 function after RB loss in isogenic models of prostate cancer revealed unexpected repositioning and cooperation with oncogenic transcription factors, including the major driver of disease progression, the androgen receptor (AR). Further investigation revealed that observed AR/E2F1 cooperation elicited novel transcriptional networks that promote cancer phenotypes, especially as related to evasion of cell death. These observations were reflected in assessment of human disease, indicating the clinical relevance of the AR/E2F1 cooperome in prostate cancer. Together, these studies reveal new mechanisms by which RB loss induces cancer progression and highlight the importance of understanding the targets of E2F1 function. SIGNIFICANCE: This study identifies that RB loss in prostate cancer drives cooperation between AR and E2F1 as coregulators of transcription, which is linked to the progression of advanced disease.

Topics & Concepts

Prostate cancerRetinoblastomaTranscription factorE2F1CancerBiologyCancer researchRegulatorSuppressorAndrogen receptorLoss functionCarcinogenesisProstateDiseaseCancer cellFunction (biology)Retinoblastoma proteinTumor progressionIRF8Transcription (linguistics)Transcriptional regulationTumor suppressor geneMetastasisRegulation of gene expressionMedicineCancer-related Molecular PathwaysProstate Cancer Treatment and ResearchProtein Degradation and Inhibitors
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