Literature DB >> 16782889

Gene expression analysis exposes mitochondrial abnormalities in a mouse model of Rett syndrome.

Skirmantas Kriaucionis1, Andrew Paterson, John Curtis, Jacky Guy, Nikki Macleod, Adrian Bird.   

Abstract

Rett syndrome (RTT) is a severe neurological disorder caused by mutations in the X-linked MECP2 gene, which encodes a methyl-CpG binding transcriptional repressor. Using the Mecp2-null mouse (an animal model for RTT) and differential display, we found that mice with neurological symptoms overexpress the nuclear gene for ubiquinol-cytochrome c reductase core protein 1 (Uqcrc1). Chromatin immunoprecipitation demonstrated that MeCP2 interacts with the Uqcrc1 promoter. Uqcrc1 encodes a subunit of mitochondrial respiratory complex III, and isolated mitochondria from the Mecp2-null brain showed elevated respiration rates associated with respiratory complex III and an overall reduction in coupling. A causal link between Uqcrc1 gene overexpression and enhanced complex III activity was established in neuroblastoma cells. Our findings raise the possibility that mitochondrial dysfunction contributes to pathology of the Mecp2-null mouse and may contribute to the long-known resemblance between Rett syndrome and certain mitochondrial disorders.

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Year:  2006        PMID: 16782889      PMCID: PMC1489175          DOI: 10.1128/MCB.01665-05

Source DB:  PubMed          Journal:  Mol Cell Biol        ISSN: 0270-7306            Impact factor:   4.272


  38 in total

1.  Purification, sequence, and cellular localization of a novel chromosomal protein that binds to methylated DNA.

Authors:  J D Lewis; R R Meehan; W J Henzel; I Maurer-Fogy; P Jeppesen; F Klein; A Bird
Journal:  Cell       Date:  1992-06-12       Impact factor: 41.582

2.  Rett syndrome and mitochondrial enzyme deficiencies.

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3.  Use of polarography to detect respiration defects in cell cultures.

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Journal:  Methods Enzymol       Date:  1996       Impact factor: 1.600

4.  MeCP2 is a transcriptional repressor with abundant binding sites in genomic chromatin.

Authors:  X Nan; F J Campoy; A Bird
Journal:  Cell       Date:  1997-02-21       Impact factor: 41.582

5.  DNA methylation specifies chromosomal localization of MeCP2.

Authors:  X Nan; P Tate; E Li; A Bird
Journal:  Mol Cell Biol       Date:  1996-01       Impact factor: 4.272

6.  MethPrimer: designing primers for methylation PCRs.

Authors:  Long-Cheng Li; Rajvir Dahiya
Journal:  Bioinformatics       Date:  2002-11       Impact factor: 6.937

Review 7.  The neuropathology of the Rett syndrome.

Authors:  D D Armstrong
Journal:  Brain Dev       Date:  1992-05       Impact factor: 1.961

8.  Elevated CSF lactate in the Rett syndrome: cause or consequence?

Authors:  R Lappalainen; R S Riikonen
Journal:  Brain Dev       Date:  1994 Sep-Oct       Impact factor: 1.961

9.  Quantification of oxidative phosphorylation enzymes after blue native electrophoresis and two-dimensional resolution: normal complex I protein amounts in Parkinson's disease conflict with reduced catalytic activities.

Authors:  H Schägger
Journal:  Electrophoresis       Date:  1995-05       Impact factor: 3.535

10.  Mitochondrial dysfunction in Rett syndrome. An ultrastructural and biochemical study.

Authors:  M T Dotti; L Manneschi; A Malandrini; N De Stefano; F Caznerale; A Federico
Journal:  Brain Dev       Date:  1993 Mar-Apr       Impact factor: 1.961
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  88 in total

1.  Mitochondrial Electron Transport Chain Complex Dysfunction in MeCP2 Knock-Down Astrocytes: Protective Effects of Quercetin Hydrate.

Authors:  Arpita Dave; Foram Shukla; Hemendra Wala; Prakash Pillai
Journal:  J Mol Neurosci       Date:  2018-12-06       Impact factor: 3.444

2.  Normal mitral cell dendritic development in the setting of Mecp2 mutation.

Authors:  A M Palmer; A L Degano; M J Park; S Ramamurthy; G V Ronnett
Journal:  Neuroscience       Date:  2011-11-28       Impact factor: 3.590

3.  The MeCP2/YY1 interaction regulates ANT1 expression at 4q35: novel hints for Rett syndrome pathogenesis.

Authors:  Greta Forlani; Elisa Giarda; Ugo Ala; Ferdinando Di Cunto; Monica Salani; Rossella Tupler; Charlotte Kilstrup-Nielsen; Nicoletta Landsberger
Journal:  Hum Mol Genet       Date:  2010-05-26       Impact factor: 6.150

Review 4.  Mitochondrial dysfunction can connect the diverse medical symptoms associated with autism spectrum disorders.

Authors:  Richard E Frye; Daniel A Rossignol
Journal:  Pediatr Res       Date:  2011-05       Impact factor: 3.756

Review 5.  Breathing dysfunction in Rett syndrome: understanding epigenetic regulation of the respiratory network.

Authors:  Michael Ogier; David M Katz
Journal:  Respir Physiol Neurobiol       Date:  2008-12-10       Impact factor: 1.931

6.  Oxidative stress in Rett syndrome: natural history, genotype, and variants.

Authors:  Silvia Leoncini; Claudio De Felice; Cinzia Signorini; Alessandra Pecorelli; Thierry Durand; Giuseppe Valacchi; Lucia Ciccoli; Joussef Hayek
Journal:  Redox Rep       Date:  2011       Impact factor: 4.412

7.  Enhanced cell death in MeCP2 null cerebellar granule neurons exposed to excitotoxicity and hypoxia.

Authors:  J C Russell; M E Blue; M V Johnston; S Naidu; M A Hossain
Journal:  Neuroscience       Date:  2007-10-11       Impact factor: 3.590

8.  Global transcriptional and translational repression in human-embryonic-stem-cell-derived Rett syndrome neurons.

Authors:  Yun Li; Haoyi Wang; Julien Muffat; Albert W Cheng; David A Orlando; Jakob Lovén; Show-Ming Kwok; Danielle A Feldman; Helen S Bateup; Qing Gao; Dirk Hockemeyer; Maisam Mitalipova; Caroline A Lewis; Matthew G Vander Heiden; Mriganka Sur; Richard A Young; Rudolf Jaenisch
Journal:  Cell Stem Cell       Date:  2013-10-03       Impact factor: 24.633

Review 9.  Mitochondria, bioenergetics, and the epigenome in eukaryotic and human evolution.

Authors:  D C Wallace
Journal:  Cold Spring Harb Symp Quant Biol       Date:  2009-12-02

10.  Correcting deregulated Fxyd1 expression ameliorates a behavioral impairment in a mouse model of Rett syndrome.

Authors:  Valerie Matagne; Sarojini Budden; Sergio R Ojeda; Jacob Raber
Journal:  Brain Res       Date:  2012-12-14       Impact factor: 3.252
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