Literature DB >> 33400923

Hyperosmotic stress alters the RNA polymerase II interactome and induces readthrough transcription despite widespread transcriptional repression.

Nicolle A Rosa-Mercado1, Joshua T Zimmer1, Maria Apostolidi2, Jesse Rinehart2, Matthew D Simon1, Joan A Steitz3.   

Abstract

Stress-induced readthrough transcription results in the synthesis of downstream-of-gene (DoG)-containing transcripts. The mechanisms underlying DoG formation during cellular stress remain unknown. Nascent transcription profiles during DoG induction in human cell lines using TT-TimeLapse sequencing revealed widespread transcriptional repression upon hyperosmotic stress. Yet, DoGs are produced regardless of the transcriptional level of their upstream genes. ChIP sequencing confirmed that stress-induced redistribution of RNA polymerase (Pol) II correlates with the transcriptional output of genes. Stress-induced alterations in the Pol II interactome are observed by mass spectrometry. While certain cleavage and polyadenylation factors remain Pol II associated, Integrator complex subunits dissociate from Pol II under stress leading to a genome-wide loss of Integrator on DNA. Depleting the catalytic subunit of Integrator using siRNAs induces hundreds of readthrough transcripts, whose parental genes partially overlap those of stress-induced DoGs. Our results provide insights into the mechanisms underlying DoG production and how Integrator activity influences DoG transcription.
Copyright © 2020 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  Integrator complex; RNA polymerase II; Transient Transcriptome TimeLapse sequencing; downstream-of-gene transcripts; hyperosmotic stress; stress response

Mesh:

Substances:

Year:  2021        PMID: 33400923      PMCID: PMC7867636          DOI: 10.1016/j.molcel.2020.12.002

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


  68 in total

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  19 in total

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Review 3.  It's a DoG-eat-DoG world-altered transcriptional mechanisms drive downstream-of-gene (DoG) transcript production.

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