The microRNA miR-124 antagonizes the anti-neural REST/SCP1 pathway during embryonic CNS development

Jaya Visvanathan; Seunghee Lee; Bora Lee; Jae W. Lee; Soo Kyung Lee

doi:10.1101/gad.1519107

The microRNA miR-124 antagonizes the anti-neural REST/SCP1 pathway during embryonic CNS development

Jaya Visvanathan, Seunghee Lee, Bora Lee, Jae W. Lee, Soo Kyung Lee

Research output: Contribution to journal › Article › peer-review

579 Scopus citations

Abstract

Neuronal gene expression is tightly regulated in developing CNS. Here, we demonstrate the anti-neural function of phosphatase SCP1 (small C-terminal domain phosphatase 1) during development. We further show that the neuron-enriched microRNA miR-124 directly targets SCP1-3′ untranslated region (UTR) to suppress SCP1 expression. In developing spinal cord, expression of miR-124 and SCP1 is complementary, and miR-124 antagonism phenocopies SCP1 overexpression and vice versa. In P19 cells, miR-124 suppresses SCP1 expression and induces neurogenesis, and SCP1 counteracts this proneural activity of miR-124. Our results suggest that, during CNS development, timely down-regulation of SCP1 is critical for inducing neurogenesis, and miR-124 contributes to this process at least in part by down-regulating SCP1 expression.

Original language	English (US)
Pages (from-to)	744-749
Number of pages	6
Journal	Genes and Development
Volume	21
Issue number	7
DOIs	https://doi.org/10.1101/gad.1519107
State	Published - Apr 1 2007
Externally published	Yes

Keywords

Neural tube development
Neurogenesis
SCP1
miR-124

ASJC Scopus subject areas

Medicine(all)

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10.1101/gad.1519107

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title = "The microRNA miR-124 antagonizes the anti-neural REST/SCP1 pathway during embryonic CNS development",

abstract = "Neuronal gene expression is tightly regulated in developing CNS. Here, we demonstrate the anti-neural function of phosphatase SCP1 (small C-terminal domain phosphatase 1) during development. We further show that the neuron-enriched microRNA miR-124 directly targets SCP1-3′ untranslated region (UTR) to suppress SCP1 expression. In developing spinal cord, expression of miR-124 and SCP1 is complementary, and miR-124 antagonism phenocopies SCP1 overexpression and vice versa. In P19 cells, miR-124 suppresses SCP1 expression and induces neurogenesis, and SCP1 counteracts this proneural activity of miR-124. Our results suggest that, during CNS development, timely down-regulation of SCP1 is critical for inducing neurogenesis, and miR-124 contributes to this process at least in part by down-regulating SCP1 expression.",

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author = "Jaya Visvanathan and Seunghee Lee and Bora Lee and Lee, {Jae W.} and Lee, {Soo Kyung}",

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AU - Visvanathan, Jaya

AU - Lee, Seunghee

AU - Lee, Bora

AU - Lee, Jae W.

AU - Lee, Soo Kyung

PY - 2007/4/1

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N2 - Neuronal gene expression is tightly regulated in developing CNS. Here, we demonstrate the anti-neural function of phosphatase SCP1 (small C-terminal domain phosphatase 1) during development. We further show that the neuron-enriched microRNA miR-124 directly targets SCP1-3′ untranslated region (UTR) to suppress SCP1 expression. In developing spinal cord, expression of miR-124 and SCP1 is complementary, and miR-124 antagonism phenocopies SCP1 overexpression and vice versa. In P19 cells, miR-124 suppresses SCP1 expression and induces neurogenesis, and SCP1 counteracts this proneural activity of miR-124. Our results suggest that, during CNS development, timely down-regulation of SCP1 is critical for inducing neurogenesis, and miR-124 contributes to this process at least in part by down-regulating SCP1 expression.

AB - Neuronal gene expression is tightly regulated in developing CNS. Here, we demonstrate the anti-neural function of phosphatase SCP1 (small C-terminal domain phosphatase 1) during development. We further show that the neuron-enriched microRNA miR-124 directly targets SCP1-3′ untranslated region (UTR) to suppress SCP1 expression. In developing spinal cord, expression of miR-124 and SCP1 is complementary, and miR-124 antagonism phenocopies SCP1 overexpression and vice versa. In P19 cells, miR-124 suppresses SCP1 expression and induces neurogenesis, and SCP1 counteracts this proneural activity of miR-124. Our results suggest that, during CNS development, timely down-regulation of SCP1 is critical for inducing neurogenesis, and miR-124 contributes to this process at least in part by down-regulating SCP1 expression.

KW - Neural tube development

KW - Neurogenesis

KW - SCP1

KW - miR-124

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The microRNA miR-124 antagonizes the anti-neural REST/SCP1 pathway during embryonic CNS development

Abstract

Keywords

ASJC Scopus subject areas

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