Literature DB >> 28867293

Global Inhibition with Specific Activation: How p53 and MYC Redistribute the Transcriptome in the DNA Double-Strand Break Response.

Joshua R Porter1, Brian E Fisher1, Laura Baranello1, Julia C Liu2, Diane M Kambach3, Zuqin Nie1, Woo Seuk Koh1, Ji Luo4, Jayne M Stommel3, David Levens1, Eric Batchelor5.   

Abstract

In response to stresses, cells often halt normal cellular processes, yet stress-specific pathways must bypass such inhibition to generate effective responses. We investigated how cells redistribute global transcriptional activity in response to DNA damage. We show that an oscillatory increase of p53 levels in response to double-strand breaks drives a counter-oscillatory decrease of MYC levels. Using RNA sequencing (RNA-seq) of newly synthesized transcripts, we found that p53-mediated reduction of MYC suppressed general transcription, with the most highly expressed transcripts reduced to a greater extent. In contrast, upregulation of p53 targets was relatively unaffected by MYC suppression. Reducing MYC during the DNA damage response was important for cell-fate regulation, as counteracting MYC repression reduced cell-cycle arrest and elevated apoptosis. Our study shows that global inhibition with specific activation of transcriptional pathways is important for the proper response to DNA damage; this mechanism may be a general principle used in many stress responses. Published by Elsevier Inc.

Entities:  

Keywords:  DNA damage; MYC; apoptosis; cell cycle; p53; transcriptome

Mesh:

Substances:

Year:  2017        PMID: 28867293      PMCID: PMC5657607          DOI: 10.1016/j.molcel.2017.07.028

Source DB:  PubMed          Journal:  Mol Cell        ISSN: 1097-2765            Impact factor:   17.970


  65 in total

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Journal:  Oncogene       Date:  2008-10-27       Impact factor: 9.867

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Review 2.  Transcriptional responses to DNA damage.

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7.  p53 Activates the Long Noncoding RNA Pvt1b to Inhibit Myc and Suppress Tumorigenesis.

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8.  Integrated requirement of non-specific and sequence-specific DNA binding in Myc-driven transcription.

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