Literature DB >> 25273096

Histone deacetylase inhibition rescues structural and functional brain deficits in a mouse model of Kabuki syndrome.

Hans T Bjornsson1, Joel S Benjamin2, Li Zhang3, Jacqueline Weissman4, Elizabeth E Gerber3, Yi-Chun Chen3, Rebecca G Vaurio5, Michelle C Potter6, Kasper D Hansen7, Harry C Dietz8.   

Abstract

Kabuki syndrome is caused by haploinsufficiency for either of two genes that promote the opening of chromatin. If an imbalance between open and closed chromatin is central to the pathogenesis of Kabuki syndrome, agents that promote chromatin opening might have therapeutic potential. We have characterized a mouse model of Kabuki syndrome with a heterozygous deletion in the gene encoding the lysine-specific methyltransferase 2D (Kmt2d), leading to impairment of methyltransferase function. In vitro reporter alleles demonstrated a reduction in histone 4 acetylation and histone 3 lysine 4 trimethylation (H3K4me3) activity in mouse embryonic fibroblasts from Kmt2d(+/βGeo) mice. These activities were normalized in response to AR-42, a histone deacetylase inhibitor. In vivo, deficiency of H3K4me3 in the dentate gyrus granule cell layer of Kmt2d(+/βGeo) mice correlated with reduced neurogenesis and hippocampal memory defects. These abnormalities improved upon postnatal treatment with AR-42. Our work suggests that a reversible deficiency in postnatal neurogenesis underlies intellectual disability in Kabuki syndrome.
Copyright © 2014, American Association for the Advancement of Science.

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Year:  2014        PMID: 25273096      PMCID: PMC4406328          DOI: 10.1126/scitranslmed.3009278

Source DB:  PubMed          Journal:  Sci Transl Med        ISSN: 1946-6234            Impact factor:   17.956


  53 in total

1.  Long-term memory requires polyADP-ribosylation.

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Journal:  Science       Date:  2004-06-18       Impact factor: 47.728

2.  Histone methyltransferase NSD2/MMSET mediates constitutive NF-κB signaling for cancer cell proliferation, survival, and tumor growth via a feed-forward loop.

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Journal:  Mol Cell Biol       Date:  2012-05-29       Impact factor: 4.272

3.  Selective anchoring of TFIID to nucleosomes by trimethylation of histone H3 lysine 4.

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Journal:  Cell       Date:  2007-09-20       Impact factor: 41.582

4.  Histone methylation regulates memory formation.

Authors:  Swati Gupta; Se Y Kim; Sonja Artis; David L Molfese; Armin Schumacher; J David Sweatt; Richard E Paylor; Farah D Lubin
Journal:  J Neurosci       Date:  2010-03-10       Impact factor: 6.167

Review 5.  The potential of HDAC inhibitors as cognitive enhancers.

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6.  Suppression of oxidative stress by β-hydroxybutyrate, an endogenous histone deacetylase inhibitor.

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Journal:  Science       Date:  2012-12-06       Impact factor: 47.728

7.  CBP histone acetyltransferase activity is a critical component of memory consolidation.

Authors:  Edward Korzus; Michael G Rosenfeld; Mark Mayford
Journal:  Neuron       Date:  2004-06-24       Impact factor: 17.173

8.  Chromatin acetylation, memory, and LTP are impaired in CBP+/- mice: a model for the cognitive deficit in Rubinstein-Taybi syndrome and its amelioration.

Authors:  Juan M Alarcón; Gaël Malleret; Khalid Touzani; Svetlana Vronskaya; Shunsuke Ishii; Eric R Kandel; Angel Barco
Journal:  Neuron       Date:  2004-06-24       Impact factor: 17.173

9.  edgeR: a Bioconductor package for differential expression analysis of digital gene expression data.

Authors:  Mark D Robinson; Davis J McCarthy; Gordon K Smyth
Journal:  Bioinformatics       Date:  2009-11-11       Impact factor: 6.937

10.  Single fluorescent protein-based Ca2+ sensors with increased dynamic range.

Authors:  Ekaterina A Souslova; Vsevolod V Belousov; John G Lock; Staffan Strömblad; Sergey Kasparov; Alexey P Bolshakov; Vsevolod G Pinelis; Yulii A Labas; Sergey Lukyanov; Lorenz M Mayr; Dmitriy M Chudakov
Journal:  BMC Biotechnol       Date:  2007-06-29       Impact factor: 2.563
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  58 in total

Review 1.  Genetic studies in intellectual disability and related disorders.

Authors:  Lisenka E L M Vissers; Christian Gilissen; Joris A Veltman
Journal:  Nat Rev Genet       Date:  2015-10-27       Impact factor: 53.242

2.  Expression pattern of Kmt2d in murine craniofacial tissues.

Authors:  Chunmin Dong; Meenakshi Umar; Garrett Bartoletti; Apurva Gahankari; Lauren Fidelak; Fenglei He
Journal:  Gene Expr Patterns       Date:  2019-06-19       Impact factor: 1.224

3.  Precocious chondrocyte differentiation disrupts skeletal growth in Kabuki syndrome mice.

Authors:  Jill A Fahrner; Wan-Ying Lin; Ryan C Riddle; Leandros Boukas; Valerie B DeLeon; Sheetal Chopra; Susan E Lad; Teresa Romeo Luperchio; Kasper D Hansen; Hans T Bjornsson
Journal:  JCI Insight       Date:  2019-10-17

Review 4.  Hijacked in cancer: the KMT2 (MLL) family of methyltransferases.

Authors:  Rajesh C Rao; Yali Dou
Journal:  Nat Rev Cancer       Date:  2015-06       Impact factor: 60.716

Review 5.  The Genetic Basis of Mendelian Phenotypes: Discoveries, Challenges, and Opportunities.

Authors:  Jessica X Chong; Kati J Buckingham; Shalini N Jhangiani; Corinne Boehm; Nara Sobreira; Joshua D Smith; Tanya M Harrell; Margaret J McMillin; Wojciech Wiszniewski; Tomasz Gambin; Zeynep H Coban Akdemir; Kimberly Doheny; Alan F Scott; Dimitri Avramopoulos; Aravinda Chakravarti; Julie Hoover-Fong; Debra Mathews; P Dane Witmer; Hua Ling; Kurt Hetrick; Lee Watkins; Karynne E Patterson; Frederic Reinier; Elizabeth Blue; Donna Muzny; Martin Kircher; Kaya Bilguvar; Francesc López-Giráldez; V Reid Sutton; Holly K Tabor; Suzanne M Leal; Murat Gunel; Shrikant Mane; Richard A Gibbs; Eric Boerwinkle; Ada Hamosh; Jay Shendure; James R Lupski; Richard P Lifton; David Valle; Deborah A Nickerson; Michael J Bamshad
Journal:  Am J Hum Genet       Date:  2015-07-09       Impact factor: 11.025

6.  Precocious neuronal differentiation and disrupted oxygen responses in Kabuki syndrome.

Authors:  Giovanni A Carosso; Leandros Boukas; Jonathan J Augustin; Ha Nam Nguyen; Briana L Winer; Gabrielle H Cannon; Johanna D Robertson; Li Zhang; Kasper D Hansen; Loyal A Goff; Hans T Bjornsson
Journal:  JCI Insight       Date:  2019-10-17

7.  Molecularly confirmed Kabuki (Niikawa-Kuroki) syndrome patients demonstrate a specific cognitive profile with extensive visuospatial abnormalities.

Authors:  J Harris; E M Mahone; H T Bjornsson
Journal:  J Intellect Disabil Res       Date:  2019-02-14

Review 8.  COMPASS and SWI/SNF complexes in development and disease.

Authors:  Bercin K Cenik; Ali Shilatifard
Journal:  Nat Rev Genet       Date:  2020-09-21       Impact factor: 53.242

Review 9.  Mendelian disorders of the epigenetic machinery: postnatal malleability and therapeutic prospects.

Authors:  Jill A Fahrner; Hans T Bjornsson
Journal:  Hum Mol Genet       Date:  2019-11-21       Impact factor: 6.150

10.  RAP1-mediated MEK/ERK pathway defects in Kabuki syndrome.

Authors:  Nina Bögershausen; I-Chun Tsai; Esther Pohl; Pelin Özlem Simsek Kiper; Filippo Beleggia; E Ferda Percin; Katharina Keupp; Angela Matchan; Esther Milz; Yasemin Alanay; Hülya Kayserili; Yicheng Liu; Siddharth Banka; Andrea Kranz; Martin Zenker; Dagmar Wieczorek; Nursel Elcioglu; Paolo Prontera; Stanislas Lyonnet; Thomas Meitinger; A Francis Stewart; Dian Donnai; Tim M Strom; Koray Boduroglu; Gökhan Yigit; Yun Li; Nicholas Katsanis; Bernd Wollnik
Journal:  J Clin Invest       Date:  2015-08-17       Impact factor: 14.808
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