Literature DB >> 22019057

Neurotrophin-3 mRNA a putative target of miR21 following status epilepticus.

Rashmi M Risbud1, Carolyn Lee, Brenda E Porter.   

Abstract

Status epilepticus induces a cascade of protein expression changes contributing to the subsequent development of epilepsy. By identifying the cascade of molecular changes that contribute to the development of epilepsy we hope to be able to design therapeutics for preventing epilepsy. MicroRNAs influence gene expression by altering mRNA stability and/or translation and have been implicated in the pathology of multiple diseases. MiR21 and its co-transcript miR21, microRNAs produced from either the 5' or 3' ends of the same precursor RNA strand, are increased in the hippocampus following status epilepticus. We have identified a miR21 binding site, in the 3' UTR of neurotrophin-3 that inhibits translation. Neurotrophin-3 mRNA levels decrease in the hippocampus following SE concurrent with the increase in miR21. MiR21 levels in cultured hippocampal neurons inversely correlate with neurotrophin-3 mRNA levels. Treatment of hippocampal neuronal cultures with excess K(+)Cl(-), a depolarizing agent mimicking the episode of status epilepticus, also results in an increase in miR21 and a decrease in neurotrophin-3 mRNA. MiR21 is a candidate for regulating neurotrophin-3 signaling in the hippocampus following status epilepticus. Copyright Â
© 2011 Elsevier B.V. All rights reserved.

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Year:  2011        PMID: 22019057      PMCID: PMC4410817          DOI: 10.1016/j.brainres.2011.09.039

Source DB:  PubMed          Journal:  Brain Res        ISSN: 0006-8993            Impact factor:   3.252


  33 in total

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3.  Smad proteins bind a conserved RNA sequence to promote microRNA maturation by Drosha.

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4.  Continuous infusion of neurotrophin-3 triggers sprouting, decreases the levels of TrkA and TrkC, and inhibits epileptogenesis and activity-dependent axonal growth in adult rats.

Authors:  B Xu; B Michalski; R J Racine; M Fahnestock
Journal:  Neuroscience       Date:  2002       Impact factor: 3.590

5.  A signature pattern of stress-responsive microRNAs that can evoke cardiac hypertrophy and heart failure.

Authors:  Eva van Rooij; Lillian B Sutherland; Ning Liu; Andrew H Williams; John McAnally; Robert D Gerard; James A Richardson; Eric N Olson
Journal:  Proc Natl Acad Sci U S A       Date:  2006-11-15       Impact factor: 11.205

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Authors:  Mateo Ziu; Lauren Fletcher; Shushan Rana; David F Jimenez; Murat Digicaylioglu
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8.  SMAD proteins control DROSHA-mediated microRNA maturation.

Authors:  Brandi N Davis; Aaron C Hilyard; Giorgio Lagna; Akiko Hata
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9.  MicroRNA-21 targets Sprouty2 and promotes cellular outgrowths.

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  13 in total

Review 1.  MicroRNAs and Child Neuropsychiatric Disorders: A Brief Review.

Authors:  Sujay Paul; Paula Roxana Reyes; Betsabé Sánchez Garza; Ashutosh Sharma
Journal:  Neurochem Res       Date:  2019-11-26       Impact factor: 3.996

2.  Increased precursor microRNA-21 following status epilepticus can compete with mature microRNA-21 to alter translation.

Authors:  Kayam Chak; Biswajoy Roy-Chaudhuri; Hak Kyun Kim; Kayla C Kemp; Brenda E Porter; Mark A Kay
Journal:  Exp Neurol       Date:  2016-10-08       Impact factor: 5.330

3.  Expression patterns of miR-124, miR-134, miR-132, and miR-21 in an immature rat model and children with mesial temporal lobe epilepsy.

Authors:  Jing Peng; Ahmed Omran; Muhammad Usman Ashhab; Huimin Kong; Na Gan; Fang He; Fei Yin
Journal:  J Mol Neurosci       Date:  2013-01-15       Impact factor: 3.444

4.  Expressions of tumor necrosis factor alpha and microRNA-155 in immature rat model of status epilepticus and children with mesial temporal lobe epilepsy.

Authors:  Muhammad Usman Ashhab; Ahmed Omran; Huimin Kong; Na Gan; Fang He; Jing Peng; Fei Yin
Journal:  J Mol Neurosci       Date:  2013-05-01       Impact factor: 3.444

5.  Differential expression and clinical significance of three inflammation-related microRNAs in gangliogliomas.

Authors:  A S Prabowo; J van Scheppingen; A M Iyer; J J Anink; W G M Spliet; P C van Rijen; A Y N Schouten-van Meeteren; E Aronica
Journal:  J Neuroinflammation       Date:  2015-05-20       Impact factor: 8.322

6.  Changes in microRNA expression in the whole hippocampus and hippocampal synaptoneurosome fraction following pilocarpine induced status epilepticus.

Authors:  Rashmi M Risbud; Brenda E Porter
Journal:  PLoS One       Date:  2013-01-07       Impact factor: 3.240

7.  Crosstalk among Epigenetic Pathways Regulates Neurogenesis.

Authors:  Emily M Jobe; Andrea L McQuate; Xinyu Zhao
Journal:  Front Neurosci       Date:  2012-05-08       Impact factor: 4.677

8.  The microRNA miR-21 conditions the brain to protect against ischemic and traumatic injuries.

Authors:  Mary S Lopez; Robert J Dempsey; Raghu Vemuganti
Journal:  Cond Med       Date:  2017-12-15

Review 9.  MicroRNAs: new insights into chronic childhood diseases.

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Journal:  Biomed Res Int       Date:  2013-06-27       Impact factor: 3.411

10.  Identification of endogenous reference genes for the analysis of microRNA expression in the hippocampus of the pilocarpine-induced model of mesial temporal lobe epilepsy.

Authors:  Mykaella Andrade de Araújo; Thalita Ewellyn Batista Sales Marques; Jamile Taniele-Silva; Fernanda Maria de Araújo Souza; Tiago Gomes de Andrade; Norberto Garcia-Cairasco; Maria Luisa Paçó-Larson; Daniel Leite Góes Gitaí
Journal:  PLoS One       Date:  2014-06-25       Impact factor: 3.240
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