Synaptic Plasticity-Regulated Gene Expression: a Key Event in the Long-Lasting Changes of Neuronal Function

Tabuchi, Akiko

doi:10.1248/bpb.31.327

Cited by 35 publications

(27 citation statements)

References 58 publications

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“…It has been shown that brain-derived neurotrophic factor (BDNF) induces the transport of PSD-95 to dendrites through PI3K-AKT signaling after NMDA receptor activation of neurons of the visual cortex in culture [61] . It is also known that transcriptional activation of the BDNF gene is regulated by phosphorylation of CREB (cAMP response element-binding protein) at Ser-133 and may contribute to activity-dependent neuronal survival [62] . In our earlier study, we have observed an increase in the levels of CREB mRNA and phosphorylated CREB (p-CREB) protein as well as BDNF mRNA and BDNF protein following the same sound stimulation protocol [63] .…”

Section: Discussionmentioning

confidence: 99%

Expression of Synaptic Proteins in the Hippocampus and Spatial Learning in Chicks following Prenatal Auditory Stimulation

2010

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Prenatal auditory stimulation by species-specific sound influences the expression and levels of calcium-binding proteins in the chick hippocampus, which is important to learning and memory. Stimulation by sitar music additionally produces structural changes in the hippocampus. Synapse density, which influences the synaptic plasticity, is also increased following both types of sound stimulation. Here we report the expression of mRNA as well as levels of synaptic proteins (synaptophysin, synapsin I and PSD-95) in the hippocampus of developing chicks subjected to prenatal auditory stimulation. Further, to evaluate the behavioral outcome following acoustic stimulation, posthatch day 1 (PH1) chicks were analyzed by T-maze test for spatial learning. Fertilized zero day eggs were incubated under normal conditions and subjected to patterned sounds of species-specific or sitar music at 65 dB levels for 15 min/h over 24 h at a frequency range of 100–6,300 Hz for a period of 11 days from embryonic day (E) 10 until hatching. Following both types of prenatal acoustic stimulation, a significant increase in the levels of synaptophysin mRNA and protein was found from E12, whereas that of synapsin I and PSD-95 was observed from E16, suggesting early maturation of the excitatory synapse. A significant decrease in the time taken to reach the target over the 3 trials in both sound-stimulated groups indicates improved spatial learning. In the music-stimulated group, however, the time taken to reach the target was reduced from the very first trial, which may point to an involvement of other behavioral attributes in facilitating spatial navigation.

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Section: Discussionmentioning

confidence: 99%

Expression of Synaptic Proteins in the Hippocampus and Spatial Learning in Chicks following Prenatal Auditory Stimulation

2010

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“…4A). BDNF gene is known to be upregulated by CREB activation (6,25). However, NT-3 gene expression is not up-regulated by Ca 2+ entry, suggesting that it is under CREB-independent regulation.…”

Section: Gene Expression Of Bdnf and Nt-3mentioning

confidence: 99%

“…However, NT-3 gene expression is not up-regulated by Ca 2+ entry, suggesting that it is under CREB-independent regulation. In fact, both specificity protein (Sp)3 and Sp4 are transcription factors that bind to the NT-3 promoter (25). NGF transcription is regulated via an activating protein 1 (AP-1) binding site in the first intron of the NGF gene (4), suggesting NGF to be regulated CREB-independently.…”

Section: Gene Expression Of Bdnf and Nt-3mentioning

confidence: 99%

2-Decenoic acid ethyl ester possesses neurotrophin-like activities to facilitate intracellular signals and increase synapse-specific proteins in neurons cultured from embryonic rat brain

et al. 2010

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We presently found that medium-chain fatty acids (MCFAs) with 8-12 carbons and their esters facilitated activation (phosphorylation) of mitogen-activated protein kinases (MAPK)/extracellular signal-regulated kinases (ERK) 1/2 of cultured embryonic cortical/hippocampal neurons. In particular, trans-2-decenoic acid ethyl ester (DAEE) had the most potent activity. Additionally, DAEE activated phosphatidylinositol 3-kinase and cAMP-response element binding protein (CREB), suggesting that DAEE generates similar intracellular signal as neurotrophins. Therefore, details of the signal elicited by DAEE were examined in comparison with those of a neurotrophin, brain-derived neurotrophic factor (BDNF). We found that 1) DAEE phosphorylated MAPK/ERK1/2 via MEK activation without the involvement of tyrosine kinases of neurotrophin Trk receptors; 2) DAEE activated CREB predominantly through MAPK/ERK1/2 activation, not through other pathways such as cAMP/protein kinase A; and 3) DAEE increased the expression of mRNAs of BDNF and neurotrophin-3 and the protein content of synapse-specific proteins such as synaptophysin, synapsin-1, and syntaxin. Based on these observations we propose that DAEE and some other derivatives of MCFAs having neurotrophin-like neurotrophic activities may become therapeutic tools for certain neurological or psychiatric disorders.

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“…In this context exercise, by means of excitatory glutamatergic transmission, would trigger BDNF mRNA expression following the activation of glutamate AMPA and NMDA receptors and the influx of Ca 2+ through voltage-dependent L-type channels generally located in neuronal dendritic spines. Transcriptional activation of the BDNF gene is commonly regulated by a key transcription factor denominated cAMP response element-binding protein (CREB) in cooperation with the upstream stimulatory factor (Tabuchi et al, 2002;Tabuchi, 2008). Once BDNF is released and bound to its tyrosine-kinase receptor B (TrkB), the receptor dimerizes and its intracytoplasmic domains may then phosphorylate each other at different tyrosine residues.…”

Section: Exercise Bdnf Epigenesis and Plasticity: An Illustrationmentioning

confidence: 99%

<b>Brain Plasticity, Signal Transduction and Epigenesis: a Missing Link Revealed</b>

Saldaña

Fetter-Pruneda

Farías

et al. 2009

Annu Rev Biomed Sci

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.AbstractBáez- Saldaña A, Fetter-Pruneda I, Fuentes-Farías AL, Granados-Rojas L, Gutiérrez-Ospina G, Martínez-Méndez R, Meléndez-Herrera E, Mendoza-Torreblanca J, Sandoval-Velasco M. Brain Plasticity, Signal Transduction and Epigenesis: a Missing Link Revealed. Annu Rev Biomed Sci 2009;11:T114-T122. It has been long thought that the brain reorganizes itself in response to environmental needs. Sensory experiences coded in action potentials are the mean by which information on the surroundings is introduced into neuronal networks. The information approaching the brain in the form of electrochemical codes must then be translated in biochemical, epigenetic and genetic ones. Only until recently we have begun understanding the underpinning of such informational transformations and how this process is expressed as neuronal plastic responses. Central for our comprehension of this matter is the finding that signals transduction cascades can modify gene expression by remodeling the chromatin through epigenetic mechanisms. Hence, chromatin remodeling seems to be the process by which experiences are "imprinted"

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Synaptic Plasticity-Regulated Gene Expression: a Key Event in the Long-Lasting Changes of Neuronal Function

Cited by 35 publications

References 58 publications

Expression of Synaptic Proteins in the Hippocampus and Spatial Learning in Chicks following Prenatal Auditory Stimulation

Expression of Synaptic Proteins in the Hippocampus and Spatial Learning in Chicks following Prenatal Auditory Stimulation

2-Decenoic acid ethyl ester possesses neurotrophin-like activities to facilitate intracellular signals and increase synapse-specific proteins in neurons cultured from embryonic rat brain

<b>Brain Plasticity, Signal Transduction and Epigenesis: a Missing Link Revealed</b>

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