Abstract

Neuronal Per Arnt Sim domain protein 4 (NPAS4), a brain-specific basic helix-loop-helix transcription factor, has recently been shown to regulate the development of the GABAergic inhibitory synapses and transcription program for contextual memory formation in the hippocampus. We previously reported that chronic social isolation or restriction stress in mice resulted in an impairment in memory and emotional behavior, which was associated with a decrease in Npas4 mRNA levels. In this study, we investigated the role of NPAS4 in neuronal function in vitro and in vivo. Differentiation medium-induced neurite outgrowth was inhibited in Npas4 knockdown Neuro2a cells, whereas overexpression of NPAS4 accelerated the neurite outgrowth in Neuro2a cells. Furthermore, depolarization-induced neurite outgrowth was abolished in Npas4 KO hippocampal neurons. NPAS4 overexpression increased cyclin-dependent kinase 5 (CDK5)-dependent synapsin I phosphorylation in Neuro2a cells and primary cultured hippocampal neurons. A CDK5 inhibitor, roscovitine, inhibited the neurite outgrowth and the increase in phosphorylated synapsin I (p-SYN I) levels in Npas4-overexpressed Neuro2a cells. Interaction of NPAS4 with promoters of Cdk5 and NeuN genes was demonstrated by a chromatin immunoprecipitation assay. In an in vivo study, pentylenetetrazole-induced convulsions in mice resulted in an increase in NPAS4 and p-SYN I levels in the prefrontal cortex of wild-type mice, although no changes in p-SYN I levels were observed in Npas4 knock-out mice. These results suggest that NPAS4 plays an important role in the structural and functional plasticity of neurons.

Highlights

  • Neuronal Per Arnt Sim domain protein 4 (NPAS4) is involved in memory formation, but its roles in neuronal function remain to be fully elucidated

  • We investigated whether neurite outgrowth of Neuro2a cells and the increase in phosphorylated synapsin I (p-SYN I) levels induced by differentiation medium (DM) were associated with changes in Npas4 mRNA levels

  • Effect of Npas4 Knockdown by siRNA Treatment on Neurite Outgrowth in Neuro2a Cells—To study the causal relationship between the DM-induced increase in NPAS4 expression and the neurite outgrowth in Neuro2a cells, we examined whether knockdown of Npas4 expression by siRNA treatment suppressed neurite outgrowth induced by DM treatment

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Summary

Background

NPAS4 is involved in memory formation, but its roles in neuronal function remain to be fully elucidated. A CDK5 inhibitor, roscovitine, inhibited the neurite outgrowth and the increase in phosphorylated synapsin I (p-SYN I) levels in Npas4-overexpressed Neuro2a cells. In an in vivo study, pentylenetetrazole-induced convulsions in mice resulted in an increase in NPAS4 and p-SYN I levels in the prefrontal cortex of wild-type mice, no changes in p-SYN I levels were. JANUARY 25, 2013 VOLUME 288 NUMBER 4 observed in Npas knock-out mice These results suggest that NPAS4 plays an important role in the structural and functional plasticity of neurons. To investigate a possible role for NPAS4 in structural and functional plasticity of neurons, we examined the effect of knockdown or overexpression of NPAS4 on neurite outgrowth in Neuro2a cells. Regulation of Neurite Outgrowth by Npas the phosphorylation of a synaptic vesicle-associated protein, Syn I,3 via cyclin-dependent kinase 5 (CDK5). We conducted an in vivo study to see if the NPAS4-induced CDK5/ SYN I pathway could be operated under physiological and pathophysiological conditions using a pentylenetetrazole (PTZ)-induced epilepsy model in mice

EXPERIMENTAL PROCEDURES
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RESULTS
DISCUSSION

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