Literature DB >> 27566829

The RNA-Binding Proteins Zfp36l1 and Zfp36l2 Enforce the Thymic β-Selection Checkpoint by Limiting DNA Damage Response Signaling and Cell Cycle Progression.

Katharina U Vogel1, Lewis S Bell2, Alison Galloway3, Helena Ahlfors4, Martin Turner4.   

Abstract

The RNA-binding proteins Zfp36l1 and Zfp36l2 act redundantly to enforce the β-selection checkpoint during thymopoiesis, yet their molecular targets remain largely unknown. In this study, we identify these targets on a genome-wide scale in primary mouse thymocytes and show that Zfp36l1/l2 regulate DNA damage response and cell cycle transcripts to ensure proper β-selection. Double-negative 3 thymocytes lacking Zfp36l1/l2 share a gene expression profile with postselected double-negative 3b cells despite the absence of intracellular TCRβ and reduced IL-7 signaling. Our findings show that in addition to controlling the timing of proliferation at β-selection, posttranscriptional control by Zfp36l1/l2 limits DNA damage responses, which are known to promote thymocyte differentiation. Zfp36l1/l2 therefore act as posttranscriptional safeguards against chromosomal instability and replication stress by integrating pre-TCR and IL-7 signaling with DNA damage and cell cycle control.
Copyright © 2016 by The American Association of Immunologists, Inc.

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Year:  2016        PMID: 27566829      PMCID: PMC5027918          DOI: 10.4049/jimmunol.1600854

Source DB:  PubMed          Journal:  J Immunol        ISSN: 0022-1767            Impact factor:   5.422


  62 in total

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4.  The ataxia telangiectasia mutated and cyclin D3 proteins cooperate to help enforce TCRβ and IgH allelic exclusion.

Authors:  Natalie C Steinel; Megan R Fisher; Katherine S Yang-Iott; Craig H Bassing
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6.  Histone H2AX phosphorylation is dispensable for the initial recognition of DNA breaks.

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Authors:  M A Bogue; C Zhu; E Aguilar-Cordova; L A Donehower; D B Roth
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8.  Genome-wide analysis identifies interleukin-10 mRNA as target of tristetraprolin.

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9.  Transcription factor RORα is critical for nuocyte development.

Authors:  See Heng Wong; Jennifer A Walker; Helen E Jolin; Lesley F Drynan; Emily Hams; Ana Camelo; Jillian L Barlow; Daniel R Neill; Veera Panova; Ute Koch; Freddy Radtke; Clare S Hardman; You Yi Hwang; Padraic G Fallon; Andrew N J McKenzie
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  19 in total

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Journal:  Cancer Discov       Date:  2018-03-06       Impact factor: 39.397

Review 2.  AU-Rich Element RNA Binding Proteins: At the Crossroads of Post-Transcriptional Regulation and Genome Integrity.

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3.  Recombinant cell-detecting RaDR-GFP in mice reveals an association between genomic instability and radiation-induced-thymic lymphoma.

Authors:  Akira Fujimori; Hirokazu Hirakawa; Cuihua Liu; Taishin Akiyama; Bevin P Engelward; Jac A Nickoloff; Masao Suzuki; Bing Wang; Mitsuru Nenoi; Sei Sai
Journal:  Am J Cancer Res       Date:  2022-02-15       Impact factor: 6.166

4.  Allergic airway recall responses require IL-9 from resident memory CD4+ T cells.

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Review 5.  RNA-binding proteins in hematopoiesis and hematological malignancy.

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Review 6.  Cell cycle RNA regulons coordinating early lymphocyte development.

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Journal:  Wiley Interdiscip Rev RNA       Date:  2017-02-23       Impact factor: 9.957

7.  Maintenance of the marginal-zone B cell compartment specifically requires the RNA-binding protein ZFP36L1.

Authors:  Rebecca Newman; Helena Ahlfors; Alexander Saveliev; Alison Galloway; Daniel J Hodson; Robert Williams; Gurdyal S Besra; Charlotte N Cook; Adam F Cunningham; Sarah E Bell; Martin Turner
Journal:  Nat Immunol       Date:  2017-04-10       Impact factor: 25.606

8.  ZFP36L2 is a cell cycle-regulated CCCH protein necessary for DNA lesion-induced S-phase arrest.

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9.  ZFP36L1 and ZFP36L2 inhibit cell proliferation in a cyclin D-dependent and p53-independent manner.

Authors:  Fat-Moon Suk; Chi-Ching Chang; Ren-Jye Lin; Shyr-Yi Lin; Shih-Chen Liu; Chia-Feng Jau; Yu-Chih Liang
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Review 10.  Uncovering the Role of RNA-Binding Proteins in Gene Expression in the Immune System.

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