Literature DB >> 33168647

Transcriptional Activation of MYC-Induced Genes by GCN5 Promotes B-cell Lymphomagenesis.

Aimee T Farria1,2,3, Joshua B Plummer1, Andrew P Salinger1, Jianjun Shen1,3, Kevin Lin1, Yue Lu1, Kevin M McBride1,3, Evangelia Koutelou1,2, Sharon Y R Dent4,2,3.   

Abstract

Overexpression of the MYC oncoprotein is an initiating step in the formation of several cancers. MYC frequently recruits chromatin-modifying complexes to DNA to amplify the expression of cancer-promoting genes, including those regulating cell cycle, proliferation, and metabolism, yet the roles of specific modifiers in different cancer types are not well defined. Here, we show that GCN5 is an essential coactivator of cell-cycle gene expression driven by MYC overexpression and that deletion of Gcn5 delays or abrogates tumorigenesis in the Eμ-Myc mouse model of B-cell lymphoma. Our results demonstrate that Gcn5 loss impacts both expression and downstream functions of Myc. SIGNIFICANCE: Our results provide important proof of principle for Gcn5 functions in formation and progression of Myc-driven cancers, suggesting that GCN5 may be a viable target for development of new cancer therapies. ©2020 American Association for Cancer Research.

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Year:  2020        PMID: 33168647      PMCID: PMC7744430          DOI: 10.1158/0008-5472.CAN-20-2379

Source DB:  PubMed          Journal:  Cancer Res        ISSN: 0008-5472            Impact factor:   12.701


  63 in total

1.  MYC recruits the TIP60 histone acetyltransferase complex to chromatin.

Authors:  Scott R Frank; Tiziana Parisi; Stefan Taubert; Paula Fernandez; Miriam Fuchs; Ho-Man Chan; David M Livingston; Bruno Amati
Journal:  EMBO Rep       Date:  2003-06       Impact factor: 8.807

2.  The c-myc oncogene perturbs B lymphocyte development in E-mu-myc transgenic mice.

Authors:  W Y Langdon; A W Harris; S Cory; J M Adams
Journal:  Cell       Date:  1986-10-10       Impact factor: 41.582

3.  Systematic and integrative analysis of large gene lists using DAVID bioinformatics resources.

Authors:  Da Wei Huang; Brad T Sherman; Richard A Lempicki
Journal:  Nat Protoc       Date:  2009       Impact factor: 13.491

4.  p14ARF links the tumour suppressors RB and p53.

Authors:  S Bates; A C Phillips; P A Clark; F Stott; G Peters; R L Ludwig; K H Vousden
Journal:  Nature       Date:  1998-09-10       Impact factor: 49.962

5.  Small molecule selectively suppresses MYC transcription in cancer cells.

Authors:  Claire Bouvard; Sang Min Lim; John Ludka; Nahid Yazdani; Ashley K Woods; Arnab K Chatterjee; Peter G Schultz; Shoutian Zhu
Journal:  Proc Natl Acad Sci U S A       Date:  2017-03-14       Impact factor: 11.205

6.  TAF5L and TAF6L Maintain Self-Renewal of Embryonic Stem Cells via the MYC Regulatory Network.

Authors:  Davide Seruggia; Martin Oti; Pratibha Tripathi; Matthew C Canver; Lucy LeBlanc; Dafne C Di Giammartino; Michael J Bullen; Christian M Nefzger; Yu Bo Yang Sun; Rick Farouni; Jose M Polo; Luca Pinello; Effie Apostolou; Jonghwan Kim; Stuart H Orkin; Partha Pratim Das
Journal:  Mol Cell       Date:  2019-04-17       Impact factor: 17.970

7.  The alternative product from the human CDKN2A locus, p14(ARF), participates in a regulatory feedback loop with p53 and MDM2.

Authors:  F J Stott; S Bates; M C James; B B McConnell; M Starborg; S Brookes; I Palmero; K Ryan; E Hara; K H Vousden; G Peters
Journal:  EMBO J       Date:  1998-09-01       Impact factor: 11.598

8.  MYC interacts with the human STAGA coactivator complex via multivalent contacts with the GCN5 and TRRAP subunits.

Authors:  Na Zhang; Wataru Ichikawa; Francesco Faiola; Szu-Ying Lo; Xiaohui Liu; Ernest Martinez
Journal:  Biochim Biophys Acta       Date:  2014-04-03

9.  Creating reference gene annotation for the mouse C57BL6/J genome assembly.

Authors:  Jonathan M Mudge; Jennifer Harrow
Journal:  Mamm Genome       Date:  2015-07-18       Impact factor: 2.957

10.  HTSeq--a Python framework to work with high-throughput sequencing data.

Authors:  Simon Anders; Paul Theodor Pyl; Wolfgang Huber
Journal:  Bioinformatics       Date:  2014-09-25       Impact factor: 6.937
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  7 in total

1.  CCDC65, a Gene Knockout that leads to Early Death of Mice, acts as a potentially Novel Tumor Suppressor in Lung Adenocarcinoma.

Authors:  Ziyan Zhang; Ping Xu; Zhe Hu; Zhaojian Fu; Tongyuan Deng; Xiaojie Deng; Lanzhu Peng; Yingying Xie; Lingzhi Long; Dayong Zheng; Peng Shen; Mengmin Zhang; Bin Gong; Zhibo Zhu; Junhao Lin; Rui Chen; Zhen Liu; Huilin Yang; Rong Li; Weiyi Fang
Journal:  Int J Biol Sci       Date:  2022-06-27       Impact factor: 10.750

Review 2.  The language of chromatin modification in human cancers.

Authors:  Shuai Zhao; C David Allis; Gang Greg Wang
Journal:  Nat Rev Cancer       Date:  2021-05-17       Impact factor: 60.716

3.  KMT5A-methylated SNIP1 promotes triple-negative breast cancer metastasis by activating YAP signaling.

Authors:  Bo Yu; Jun Su; Qiqi Shi; Qing Liu; Jun Ma; Guoqing Ru; Lei Zhang; Jian Zhang; Xichun Hu; Jianming Tang
Journal:  Nat Commun       Date:  2022-04-21       Impact factor: 17.694

Review 4.  Histone Modifications and Their Targeting in Lymphoid Malignancies.

Authors:  Miranda Fernández-Serrano; René Winkler; Juliana C Santos; Marguerite-Marie Le Pannérer; Marcus Buschbeck; Gaël Roué
Journal:  Int J Mol Sci       Date:  2021-12-27       Impact factor: 5.923

Review 5.  The Biological Significance of Targeting Acetylation-Mediated Gene Regulation for Designing New Mechanistic Tools and Potential Therapeutics.

Authors:  Chenise O'Garro; Loveth Igbineweka; Zonaira Ali; Mihaly Mezei; Shiraz Mujtaba
Journal:  Biomolecules       Date:  2021-03-18

Review 6.  Conservation and diversity of the eukaryotic SAGA coactivator complex across kingdoms.

Authors:  Ying-Jiun C Chen; Sharon Y R Dent
Journal:  Epigenetics Chromatin       Date:  2021-06-10       Impact factor: 4.954

7.  Acetyltransferases GCN5 and PCAF Are Required for B Lymphocyte Maturation in Mice.

Authors:  Valentyn Oksenych; Dan Su; Jeremy A Daniel
Journal:  Biomolecules       Date:  2021-12-31
  7 in total

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