Literature DB >> 22939983

Repression of transcription by WT1-BASP1 requires the myristoylation of BASP1 and the PIP2-dependent recruitment of histone deacetylase.

Eneda Toska1, Hayley A Campbell, Jayasha Shandilya, Sarah J Goodfellow, Paul Shore, Kathryn F Medler, Stefan G E Roberts.   

Abstract

The Wilms' tumor 1 protein WT1 is a transcriptional regulator that is involved in cell growth and differentiation. The transcriptional corepressor BASP1 interacts with WT1 and converts WT1 from a transcriptional activator to a repressor. Here, we demonstrate that the N-terminal myristoylation of BASP1 is required in order to elicit transcriptional repression at WT1 target genes. We show that myristoylated BASP1 binds to nuclear PIP2, which leads to the recruitment of PIP2 to the promoter regions of WT1-dependent target genes. BASP1's myristoylation and association with PIP2 are required for the interaction of BASP1 with HDAC1, which mediates the recruitment of HDAC1 to the promoter and elicits transcriptional repression. Our findings uncover a role for myristoylation in transcription, as well as a critical function for PIP2 in gene-specific transcriptional repression through the recruitment of histone deacetylase.
Copyright © 2012 The Authors. Published by Elsevier Inc. All rights reserved.

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Year:  2012        PMID: 22939983      PMCID: PMC3500702          DOI: 10.1016/j.celrep.2012.08.005

Source DB:  PubMed          Journal:  Cell Rep            Impact factor:   9.423


  37 in total

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Authors:  Miguel N Rivera; Daniel A Haber
Journal:  Nat Rev Cancer       Date:  2005-09       Impact factor: 60.716

Review 2.  Transcriptional regulation by WT1 in development.

Authors:  Stefan G E Roberts
Journal:  Curr Opin Genet Dev       Date:  2005-10       Impact factor: 5.578

3.  The BASP1 family of myristoylated proteins abundant in axonal termini. Primary structure analysis and physico-chemical properties.

Authors:  M I Mosevitsky; J P Capony; V A Novitskaya; V V Zakharov
Journal:  Biochimie       Date:  1997-06       Impact factor: 4.079

4.  Rapid and phosphoinositol-dependent binding of the SWI/SNF-like BAF complex to chromatin after T lymphocyte receptor signaling.

Authors:  K Zhao; W Wang; O J Rando; Y Xue; K Swiderek; A Kuo; G R Crabtree
Journal:  Cell       Date:  1998-11-25       Impact factor: 41.582

Review 5.  Wilms' tumours: about tumour suppressor genes, an oncogene and a chameleon gene.

Authors:  Vicki Huff
Journal:  Nat Rev Cancer       Date:  2011-01-20       Impact factor: 60.716

6.  Identification of novel aberrant methylation of BASP1 and SRD5A2 for early diagnosis of hepatocellular carcinoma by genome-wide search.

Authors:  Toyoki Moribe; Norio Iizuka; Toshiaki Miura; Markus Stark; Shigeru Tamatsukuri; Hideo Ishitsuka; Yoshihiko Hamamoto; Kazuhiko Sakamoto; Takao Tamesa; Masaaki Oka
Journal:  Int J Oncol       Date:  2008-11       Impact factor: 5.650

Review 7.  The many facets of the Wilms' tumour gene, WT1.

Authors:  Peter Hohenstein; Nicholas D Hastie
Journal:  Hum Mol Genet       Date:  2006-10-15       Impact factor: 6.150

8.  WT1 and its transcriptional cofactor BASP1 redirect the differentiation pathway of an established blood cell line.

Authors:  Sarah J Goodfellow; Michelle R Rebello; Eneda Toska; Leo A H Zeef; Sean G Rudd; Kathryn F Medler; Stefan G E Roberts
Journal:  Biochem J       Date:  2011-04-01       Impact factor: 3.857

9.  Dynamic interaction between WT1 and BASP1 in transcriptional regulation during differentiation.

Authors:  Laura M Green; Kate J Wagner; Hayley A Campbell; Kelly Addison; Stefan G E Roberts
Journal:  Nucleic Acids Res       Date:  2008-12-02       Impact factor: 16.971

10.  GAP43, MARCKS, and CAP23 modulate PI(4,5)P(2) at plasmalemmal rafts, and regulate cell cortex actin dynamics through a common mechanism.

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  35 in total

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Journal:  Sci Transl Med       Date:  2015-04-15       Impact factor: 17.956

2.  Utilizing Yeast Surface Human Proteome Display Libraries to Identify Small Molecule-Protein Interactions.

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Journal:  Methods Mol Biol       Date:  2015

3.  BASP1 and its N-end fragments (BNEMFs) dynamics in rat brain during development.

Authors:  Ekaterina Kropotova; Boris Klementiev; Mark Mosevitsky
Journal:  Neurochem Res       Date:  2013-04-12       Impact factor: 3.996

Review 4.  A role of WT1 in cell division and genomic stability.

Authors:  Jayasha Shandilya; Stefan G E Roberts
Journal:  Cell Cycle       Date:  2015       Impact factor: 4.534

5.  Protein Lipidation: Occurrence, Mechanisms, Biological Functions, and Enabling Technologies.

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Review 6.  Fatty acylation of proteins: The long and the short of it.

Authors:  Marilyn D Resh
Journal:  Prog Lipid Res       Date:  2016-05-24       Impact factor: 16.195

Review 7.  Phospholipids and inositol phosphates linked to the epigenome.

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Journal:  Histochem Cell Biol       Date:  2018-07-07       Impact factor: 4.304

8.  Alterations in the MA and NC domains modulate phosphoinositide-dependent plasma membrane localization of the Rous sarcoma virus Gag protein.

Authors:  Shorena Nadaraia-Hoke; Darrin V Bann; Timothy L Lochmann; Nicole Gudleski-O'Regan; Leslie J Parent
Journal:  J Virol       Date:  2013-01-16       Impact factor: 5.103

9.  WT1 regulates the development of the posterior taste field.

Authors:  Yankun Gao; Eneda Toska; Dane Denmon; Stefan G E Roberts; Kathryn F Medler
Journal:  Development       Date:  2014-05-06       Impact factor: 6.868

Review 10.  Nuclear lipid mediators: Role of nuclear sphingolipids and sphingosine-1-phosphate signaling in epigenetic regulation of inflammation and gene expression.

Authors:  Panfeng Fu; David L Ebenezer; Alison W Ha; Vidyani Suryadevara; Anantha Harijith; Viswanathan Natarajan
Journal:  J Cell Biochem       Date:  2018-05-08       Impact factor: 4.429
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