MicroRNA pathways in neural development and plasticity

Ngan Vo; Xiaolu Cambronne; Richard H. Goodman

doi:10.1016/j.conb.2010.04.002

MicroRNA pathways in neural development and plasticity

Ngan Vo, Xiaolu Cambronne, Richard H. Goodman

Research output: Contribution to journal › Review article › peer-review

70 Scopus citations

Abstract

MicroRNAs contribute significantly to the development, survival, function, and plasticity of neurons. They silence expression of target genes by reducing mRNA stability and translation. Production of microRNAs is controlled via developmental and environmental cues and these small molecules, in concert with classical transcriptional regulators, amplify changes in neuronal maturation, dendrite morphogenesis, and synaptogenesis. Neurons compartmentalize mRNAs and microRNAs within specific subcellular domains to facilitate control of local protein synthesis in response to neuronal stimuli and to modulate synaptic plasticity. This review addresses issues relevant to microRNA function in neurons, in particular, their ability to reinforce developmental decisions and promote synaptic plasticity.

Original language	English (US)
Pages (from-to)	457-465
Number of pages	9
Journal	Current Opinion in Neurobiology
Volume	20
Issue number	4
DOIs	https://doi.org/10.1016/j.conb.2010.04.002
State	Published - Aug 2010

ASJC Scopus subject areas

Neuroscience(all)

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10.1016/j.conb.2010.04.002

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title = "MicroRNA pathways in neural development and plasticity",

abstract = "MicroRNAs contribute significantly to the development, survival, function, and plasticity of neurons. They silence expression of target genes by reducing mRNA stability and translation. Production of microRNAs is controlled via developmental and environmental cues and these small molecules, in concert with classical transcriptional regulators, amplify changes in neuronal maturation, dendrite morphogenesis, and synaptogenesis. Neurons compartmentalize mRNAs and microRNAs within specific subcellular domains to facilitate control of local protein synthesis in response to neuronal stimuli and to modulate synaptic plasticity. This review addresses issues relevant to microRNA function in neurons, in particular, their ability to reinforce developmental decisions and promote synaptic plasticity.",

author = "Ngan Vo and Xiaolu Cambronne and Goodman, {Richard H.}",

note = "Funding Information: We would like to thank Gail Mandel and Stephen Magill for critical review of this manuscript. This work was supported by grants from the NIH. ",

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N2 - MicroRNAs contribute significantly to the development, survival, function, and plasticity of neurons. They silence expression of target genes by reducing mRNA stability and translation. Production of microRNAs is controlled via developmental and environmental cues and these small molecules, in concert with classical transcriptional regulators, amplify changes in neuronal maturation, dendrite morphogenesis, and synaptogenesis. Neurons compartmentalize mRNAs and microRNAs within specific subcellular domains to facilitate control of local protein synthesis in response to neuronal stimuli and to modulate synaptic plasticity. This review addresses issues relevant to microRNA function in neurons, in particular, their ability to reinforce developmental decisions and promote synaptic plasticity.

AB - MicroRNAs contribute significantly to the development, survival, function, and plasticity of neurons. They silence expression of target genes by reducing mRNA stability and translation. Production of microRNAs is controlled via developmental and environmental cues and these small molecules, in concert with classical transcriptional regulators, amplify changes in neuronal maturation, dendrite morphogenesis, and synaptogenesis. Neurons compartmentalize mRNAs and microRNAs within specific subcellular domains to facilitate control of local protein synthesis in response to neuronal stimuli and to modulate synaptic plasticity. This review addresses issues relevant to microRNA function in neurons, in particular, their ability to reinforce developmental decisions and promote synaptic plasticity.

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MicroRNA pathways in neural development and plasticity

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