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Title: The p53 transcriptional response across tumor types reveals core and senescence-specific signatures modulated by long noncoding RNAs.

Authors: Tesfaye, Ephrath; Martinez-Terroba, Elena; Bendor, Jordan; Winkler, Lauren; Olivero, Christiane; Chen, Kevin; Feldser, David M; Zamudio, Jesse R; Dimitrova, Nadya

Published In Proc Natl Acad Sci U S A, (2021 08 03)

Abstract: The p53 pathway is a universal tumor suppressor mechanism that limits tumor progression by triggering apoptosis or permanent cell cycle arrest, called senescence. In recent years, efforts to reactivate p53 function in cancer have proven to be a successful therapeutic strategy in murine models and have gained traction with the development of a range of small molecules targeting mutant p53. However, knowledge of the downstream mediators of p53 reactivation in different oncogenic contexts has been limited. Here, we utilized a panel of murine cancer cell lines from three distinct tumor types susceptible to alternative outcomes following p53 restoration to define unique and shared p53 transcriptional signatures. While we found that the majority of p53-bound sites and p53-responsive transcripts are tumor-type specific, analysis of shared targets identified a core signature of genes activated by p53 across all contexts. Furthermore, we identified repression of E2F and Myc target genes as a key feature of senescence. Characterization of p53-induced transcripts revealed core and senescence-specific long noncoding RNAs (lncRNAs) that are predominantly chromatin associated and whose production is coupled to cis-regulatory activities. Functional investigation of the contributions of p53-induced lncRNAs to p53-dependent outcomes highlighted Pvt1b, the p53-dependent isoform of Pvt1, as a mediator of p53-dependent senescence via Myc repression. Inhibition of Pvt1b led to decreased activation of senescence markers and increased levels of markers of proliferation. These findings shed light on the core and outcome-specific p53 restoration signatures across different oncogenic contexts and underscore the key role of the p53-Pvt1b-Myc regulatory axis in mediating proliferative arrest.

PubMed ID: 34326251 Exiting the NIEHS site

MeSH Terms: Animals; Carcinogenesis; Cell Line, Tumor; Cell Proliferation; Cellular Senescence/physiology*; DNA Damage; E2F Transcription Factors/genetics; E2F Transcription Factors/metabolism; Gene Expression Regulation, Neoplastic/physiology*; Genome-Wide Association Study; Mice; Neoplasms/metabolism*; Proto-Oncogene Proteins c-myc/genetics; Proto-Oncogene Proteins c-myc/metabolism; RNA, Long Noncoding/genetics; RNA, Long Noncoding/metabolism*; Signal Transduction; Stress, Physiological; Tumor Suppressor Protein p53/genetics; Tumor Suppressor Protein p53/metabolism*

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