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Relevance of pRB Loss in Human Malignancies

Amy C. Mandigo, Scott A. Tomlins, William K. Kelly, Karen E. Knudsen

2021Clinical Cancer Research45 citationsDOIOpen Access PDF

Abstract

The retinoblastoma tumor suppressor protein (pRB) is a known regulator of cell-cycle control; however, recent studies identified critical functions for pRB in regulating cancer-associated gene networks that influence the DNA damage response, apoptosis, and cell metabolism. Understanding the impact of these pRB functions on cancer development and progression in the clinical setting will be essential, given the prevalence of pRB loss of function across disease types. Moreover, the current state of evidence supports the concept that pRB loss results in pleiotropic effects distinct from tumor proliferation. Here, the implications of pRB loss (and resultant pathway deregulation) on disease progression and therapeutic response will be reviewed, based on clinical observation. Developing a better understanding of the pRB-regulated pathways that underpin the aggressive features of pRB-deficient tumors will be essential for further developing pRB as a biomarker of disease progression and for stratifying pRB-deficient tumors into more effective treatment regimens.

Topics & Concepts

Retinoblastoma proteinRegulatorCancer researchDiseaseSuppressorBiomarkerRetinoblastomaTumor suppressor geneLoss functionCancerTumor progressionBiologyMedicineE2FClinical significanceCell cycleCell growthFunction (biology)DNA damageCellSignal transductionImmunologyBioinformaticsCell cycle checkpointTumor initiationRegulation of gene expressionHuman diseaseE2F1GeneNegative regulatorCell cycle progressionCancer-related Molecular PathwaysAdvanced Breast Cancer TherapiesTelomeres, Telomerase, and Senescence
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