Literature DB >> 24311694

MicroRNA-128 governs neuronal excitability and motor behavior in mice.

Chan Lek Tan1, Joshua L Plotkin, Morten T Venø, Melanie von Schimmelmann, Philip Feinberg, Silas Mann, Annie Handler, Jørgen Kjems, D James Surmeier, Dónal O'Carroll, Paul Greengard, Anne Schaefer.   

Abstract

The control of motor behavior in animals and humans requires constant adaptation of neuronal networks to signals of various types and strengths. We found that microRNA-128 (miR-128), which is expressed in adult neurons, regulates motor behavior by modulating neuronal signaling networks and excitability. miR-128 governs motor activity by suppressing the expression of various ion channels and signaling components of the extracellular signal-regulated kinase ERK2 network that regulate neuronal excitability. In mice, a reduction of miR-128 expression in postnatal neurons causes increased motor activity and fatal epilepsy. Overexpression of miR-128 attenuates neuronal responsiveness, suppresses motor activity, and alleviates motor abnormalities associated with Parkinson's-like disease and seizures in mice. These data suggest a therapeutic potential for miR-128 in the treatment of epilepsy and movement disorders.

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Year:  2013        PMID: 24311694      PMCID: PMC3932786          DOI: 10.1126/science.1244193

Source DB:  PubMed          Journal:  Science        ISSN: 0036-8075            Impact factor:   47.728


  38 in total

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Journal:  Mol Biol Cell       Date:  2000-09       Impact factor: 4.138

2.  Large-scale identification and characterization of human genes that activate NF-kappaB and MAPK signaling pathways.

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Journal:  Oncogene       Date:  2003-05-22       Impact factor: 9.867

3.  A microRNA array reveals extensive regulation of microRNAs during brain development.

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Review 4.  MAPK cascade signalling and synaptic plasticity.

Authors:  Gareth M Thomas; Richard L Huganir
Journal:  Nat Rev Neurosci       Date:  2004-03       Impact factor: 34.870

5.  Regulation of parkinsonian motor behaviours by optogenetic control of basal ganglia circuitry.

Authors:  Alexxai V Kravitz; Benjamin S Freeze; Philip R L Parker; Kenneth Kay; Myo T Thwin; Karl Deisseroth; Anatol C Kreitzer
Journal:  Nature       Date:  2010-07-07       Impact factor: 49.962

6.  A CamKIIalpha iCre BAC allows brain-specific gene inactivation.

Authors:  E Casanova; S Fehsenfeld; T Mantamadiotis; T Lemberger; E Greiner; A F Stewart; G Schütz
Journal:  Genesis       Date:  2001-09       Impact factor: 2.487

7.  A network of control mediated by regulator of calcium/calmodulin-dependent signaling.

Authors:  S V Rakhilin; P A Olson; A Nishi; N N Starkova; A A Fienberg; A C Nairn; D J Surmeier; P Greengard
Journal:  Science       Date:  2004-10-22       Impact factor: 47.728

8.  D1 dopamine receptor supersensitivity in the dopamine-depleted striatum results from a switch in the regulation of ERK1/2/MAP kinase.

Authors:  Charles R Gerfen; Shigehiro Miyachi; Ronald Paletzki; Pierre Brown
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9.  A gene expression atlas of the central nervous system based on bacterial artificial chromosomes.

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Journal:  Nature       Date:  2003-10-30       Impact factor: 49.962

10.  Genome wide high density SNP-based linkage analysis of childhood absence epilepsy identifies a susceptibility locus on chromosome 3p23-p14.

Authors:  Barry A Chioza; Jean Aicardi; Harald Aschauer; Oebele Brouwer; Petra Callenbach; Athanasios Covanis; Joseph M Dooley; Olivier Dulac; Martina Durner; Orvar Eeg-Olofsson; Martha Feucht; Mogens Laue Friis; Renzo Guerrini; Marianne Juel Kjeldsen; Rima Nabbout; Lina Nashef; Thomas Sander; Auli Sirén; Elaine Wirrell; Paul McKeigue; Robert Robinson; R Mark Gardiner; Kate V Everett
Journal:  Epilepsy Res       Date:  2009-10-17       Impact factor: 3.045
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  127 in total

1.  MiR-219 Protects Against Seizure in the Kainic Acid Model of Epilepsy.

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Journal:  Mol Neurobiol       Date:  2014-11-15       Impact factor: 5.590

Review 2.  The roles of microRNAs in mouse development.

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Journal:  Nat Rev Genet       Date:  2021-01-15       Impact factor: 53.242

3.  Neurological disorders: microRNA gets motoring.

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Journal:  Nat Rev Neurosci       Date:  2013-12-27       Impact factor: 34.870

4.  Rationally Designed MicroRNA-Based Genetic Classifiers Target Specific Neurons in the Brain.

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Journal:  ACS Synth Biol       Date:  2015-04-13       Impact factor: 5.110

5.  Profiling of Argonaute-2-loaded microRNAs in a mouse model of frontotemporal dementia with parkinsonism-17.

Authors:  Aidan Kenny; Félix Hernández; Jesús Avila; José J Lucas; David C Henshall; Jochen Hm Prehn; Eva M Jiménez-Mateos; Tobias Engel
Journal:  Int J Physiol Pathophysiol Pharmacol       Date:  2018-12-25

6.  Sex hormones regulate cerebral drug metabolism via brain miRNAs: down-regulation of brain CYP2D by androgens reduces the analgesic effects of tramadol.

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Journal:  Br J Pharmacol       Date:  2015-08-26       Impact factor: 8.739

7.  Neurotransmitter Switching Regulated by miRNAs Controls Changes in Social Preference.

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Review 8.  The biological functions of miRNAs: lessons from in vivo studies.

Authors:  Joana A Vidigal; Andrea Ventura
Journal:  Trends Cell Biol       Date:  2014-12-04       Impact factor: 20.808

Review 9.  Sex, epilepsy, and epigenetics.

Authors:  Irfan A Qureshi; Mark F Mehler
Journal:  Neurobiol Dis       Date:  2014-07-04       Impact factor: 5.996

Review 10.  MicroRNA-induced silencing in epilepsy: Opportunities and challenges for clinical application.

Authors:  Durgesh Tiwari; Katrina Peariso; Christina Gross
Journal:  Dev Dyn       Date:  2017-10-04       Impact factor: 3.780
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