Literature DB >> 24105466

MeCP2: a novel Huntingtin interactor.

Karen N McFarland1, Megan N Huizenga, Shayna B Darnell, Gavin R Sangrey, Oksana Berezovska, Jang-Ho J Cha, Tiago F Outeiro, Ghazaleh Sadri-Vakili.   

Abstract

Transcriptional dysregulation has been proposed to play a major role in the pathology of Huntington's disease (HD). However, the mechanisms that cause selective downregulation of target genes remain unknown. Previous studies have shown that mutant huntingtin (Htt) protein interacts with a number of transcription factors thereby altering transcription. Here we report that Htt directly interacts with methyl-CpG binding protein 2 (MeCP2) in mouse and cellular models of HD using complimentary biochemical and Fluorescent Lifetime Imaging to measure Förster Resonance Energy Transfer approaches. Htt-MeCP2 interactions are enhanced in the presence of the expanded polyglutamine (polyQ) tract and are stronger in the nucleus compared with the cytoplasm. Furthermore, we find increased binding of MeCP2 to the promoter of brain-derived neurotrophic factor (BDNF), a gene that is downregulated in HD, in the presence of mutant Htt. Finally, decreasing MeCP2 levels in mutant Htt-expressing cells using siRNA increases BDNF levels, suggesting that MeCP2 downregulates BDNF expression in HD. Taken together, these findings suggest that aberrant interactions between Htt and MeCP2 contribute to transcriptional dysregulation in HD.

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Year:  2013        PMID: 24105466      PMCID: PMC3900110          DOI: 10.1093/hmg/ddt499

Source DB:  PubMed          Journal:  Hum Mol Genet        ISSN: 0964-6906            Impact factor:   6.150


  54 in total

1.  Histones associated with downregulated genes are hypo-acetylated in Huntington's disease models.

Authors:  Ghazaleh Sadri-Vakili; Bérengère Bouzou; Caroline L Benn; Mee-Ohk Kim; Prianka Chawla; Ryan P Overland; Kelly E Glajch; Eva Xia; Zhihua Qiu; Steven M Hersch; Timothy W Clark; George J Yohrling; Jang-Ho J Cha
Journal:  Hum Mol Genet       Date:  2007-04-04       Impact factor: 6.150

2.  Fluorescence lifetime imaging of free and protein-bound NADH.

Authors:  J R Lakowicz; H Szmacinski; K Nowaczyk; M L Johnson
Journal:  Proc Natl Acad Sci U S A       Date:  1992-02-15       Impact factor: 11.205

3.  Transcriptional repression by the methyl-CpG-binding protein MeCP2 involves a histone deacetylase complex.

Authors:  X Nan; H H Ng; C A Johnson; C D Laherty; B M Turner; R N Eisenman; A Bird
Journal:  Nature       Date:  1998-05-28       Impact factor: 49.962

4.  Altered brain neurotransmitter receptors in transgenic mice expressing a portion of an abnormal human huntington disease gene.

Authors:  J H Cha; C M Kosinski; J A Kerner; S A Alsdorf; L Mangiarini; S W Davies; J B Penney; G P Bates; A B Young
Journal:  Proc Natl Acad Sci U S A       Date:  1998-05-26       Impact factor: 11.205

Review 5.  MeCP2 dysfunction in Rett syndrome and related disorders.

Authors:  Paolo Moretti; Huda Y Zoghbi
Journal:  Curr Opin Genet Dev       Date:  2006-05-02       Impact factor: 5.578

6.  Amyloid formation by mutant huntingtin: threshold, progressivity and recruitment of normal polyglutamine proteins.

Authors:  C C Huang; P W Faber; F Persichetti; V Mittal; J P Vonsattel; M E MacDonald; J F Gusella
Journal:  Somat Cell Mol Genet       Date:  1998-07

7.  Mouse and rat BDNF gene structure and expression revisited.

Authors:  Tamara Aid; Anna Kazantseva; Marko Piirsoo; Kaia Palm; Tõnis Timmusk
Journal:  J Neurosci Res       Date:  2007-02-15       Impact factor: 4.164

8.  Aberrant interactions of transcriptional repressor proteins with the Huntington's disease gene product, huntingtin.

Authors:  J M Boutell; P Thomas; J W Neal; V J Weston; J Duce; P S Harper; A L Jones
Journal:  Hum Mol Genet       Date:  1999-09       Impact factor: 6.150

9.  Mutant huntingtin's effects on striatal gene expression in mice recapitulate changes observed in human Huntington's disease brain and do not differ with mutant huntingtin length or wild-type huntingtin dosage.

Authors:  Alexandre Kuhn; Darlene R Goldstein; Angela Hodges; Andrew D Strand; Thierry Sengstag; Charles Kooperberg; Kristina Becanovic; Mahmoud A Pouladi; Kirupa Sathasivam; Jang-Ho J Cha; Anthony J Hannan; Michael R Hayden; Blair R Leavitt; Stephen B Dunnett; Robert J Ferrante; Roger Albin; Peggy Shelbourne; Mauro Delorenzi; Sarah J Augood; Richard L M Faull; James M Olson; Gillian P Bates; Lesley Jones; Ruth Luthi-Carter
Journal:  Hum Mol Genet       Date:  2007-05-21       Impact factor: 6.150

10.  MeCP2 interacts with HP1 and modulates its heterochromatin association during myogenic differentiation.

Authors:  Noopur Agarwal; Tanja Hardt; Alessandro Brero; Danny Nowak; Ulrich Rothbauer; Annette Becker; Heinrich Leonhardt; M Cristina Cardoso
Journal:  Nucleic Acids Res       Date:  2007-08-13       Impact factor: 16.971
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  22 in total

1.  A novel neurodevelopmental disorder associated with compound heterozygous variants in the huntingtin gene.

Authors:  Lance H Rodan; Julie Cohen; Ali Fatemi; Tammy Gillis; Diane Lucente; James Gusella; Jonathan D Picker
Journal:  Eur J Hum Genet       Date:  2016-06-22       Impact factor: 4.246

2.  Puerarin Up-regulates Methyl-CpG Binding Protein 2 Phosphorylation in Hippocampus of Vascular Dementia Rats.

Authors:  Hu-Qing Wang; Meng Zhang; Jia-Xin Zhao; Hai-Qin Wu; Zhen Gao; Gui-Lian Zhang; Ru Zhang
Journal:  Chin J Integr Med       Date:  2018-01-09       Impact factor: 1.978

Review 3.  Rett syndrome: a complex disorder with simple roots.

Authors:  Matthew J Lyst; Adrian Bird
Journal:  Nat Rev Genet       Date:  2015-03-03       Impact factor: 53.242

4.  Computational insights into missense mutations in HTT gene causing Huntington's disease and its interactome networks.

Authors:  Muneeza Qayyum Khan; Hira Mubeen; Zohaira Qayyum Khan; Ammara Masood; Asma Zafar; Javed Iqbal Wattoo; Alim Un Nisa
Journal:  Ir J Med Sci       Date:  2022-07-13       Impact factor: 2.089

Review 5.  Spermatozoan Metabolism as a Non-Traditional Model for the Study of Huntington's Disease.

Authors:  Meghan Lawlor; Michal Zigo; Karl Kerns; In Ki Cho; Charles A Easley Iv; Peter Sutovsky
Journal:  Int J Mol Sci       Date:  2022-06-28       Impact factor: 6.208

Review 6.  The expanding role for chromatin and transcription in polyglutamine disease.

Authors:  Ryan D Mohan; Susan M Abmayr; Jerry L Workman
Journal:  Curr Opin Genet Dev       Date:  2014-08-11       Impact factor: 5.578

Review 7.  Epigenetic regulation in Huntington's disease.

Authors:  Jae Wook Hyeon; Albert H Kim; Hiroko Yano
Journal:  Neurochem Int       Date:  2021-05-24       Impact factor: 4.297

Review 8.  Huntington's Disease: Mechanisms of Pathogenesis and Therapeutic Strategies.

Authors:  Maria Jimenez-Sanchez; Floriana Licitra; Benjamin R Underwood; David C Rubinsztein
Journal:  Cold Spring Harb Perspect Med       Date:  2017-07-05       Impact factor: 6.915

9.  RNA-seq analysis reveals significant transcriptome changes in huntingtin-null human neuroblastoma cells.

Authors:  Johanna Bensalel; Hongyuan Xu; Michael L Lu; Enrico Capobianco; Jianning Wei
Journal:  BMC Med Genomics       Date:  2021-07-02       Impact factor: 3.063

Review 10.  Huntington disease: new insights into molecular pathogenesis and therapeutic opportunities.

Authors:  Sarah J Tabrizi; Michael D Flower; Christopher A Ross; Edward J Wild
Journal:  Nat Rev Neurol       Date:  2020-08-14       Impact factor: 42.937
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