Laboratory for Neuron-Glia Circuitry

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Laboratory Head
Hajime HIRASE (Ph.D.)

Research Areas

The mammalian brain consists of neurons, glia, and vasculature. Among glial cells, astrocytes provide maintenance of extracellular space and metabolic support to neurons. In addition to the supportive roles of astrocytes, it has been hypothesized that astrocytes actively participate in neural information processing by releasing neurotransmitters such as glutamate and ATP. Although much of cellular and subcellular physiology of neurons and glia has been studied in great detail using in vitro preparations, network dynamics of neuron-glia circuitry remains largely unexplored in in vivo conditions. The overall goal of the Laboratory for Neuron-Glia Circuitry is to investigate neuronal and glial microcircuitry in the neocortex and hippocampus in vivo.

Research Subject

Intracellular recording and imaging of rodent CNS astrocytes in vivo
Multi-channel recording of cortical and hippocampal local field potential

Related links

Press release

October 22, 2008

Regulation of neuronal activity by S100B protein, secreted by the brain glial cells, supporting the presence of a signaling pathway, mediated by the secreted protein, from glial cells to neurons

RIKEN RESEARCH

March 27, 2009

Reciprocal communication
Brain cells called astrocytes secrete the S100B protein to modulate the network activity of neurons

List of Selected Publications

Shinohara Y, Hosoya A, Yahagi K, Ferecsko AS, Yaguchi K, Sik A, Itakura M, Takahashi M, Hirase H.:
" Hippocampal CA3 and CA2 have distinct bilateral innervation patterns to CA1 in rodents"
European Journal of Neuroscience, 35:702-710 (2012)
Takata N, Mishima T, Hisatsune C, Nagai T, Ebisui E, Mikoshiba K, Hirase H.:
" Astrocyte calcium signaling transforms cholinergic modulation to cortical plasticity in vivo"
Journal of Neuroscience, Vol 31, pp 18155-18165 (2011)
Mishima T, Hirase H.:
" In vivo intracellular recording suggests that gray matter astrocytes in mature cerebral cortex and hippocampus are electrophysiologically homogeneous"
Journal of Neuroscience, Vol 30, pp 3093-3100 (2010)
Sakatani S, Seto-Ohshima A, Shinohara Y, Yamamoto Y, Yamamoto H, Itohara S, Hirase H.:
" Neural-activity-dependent release of S100B from astrocytes enhances kainate-induced gamma oscillations in vivo"
Journal of Neuroscience, Vol.28, pp10928-36 (2008)
Takata N, Hirase H.:
" Cortical layer 1 and layer 2/3 astrocytes exhibit distinct calcium dynamics in vivo"
PLoS ONE. 2008 Vol.3, e2525 (2008)
Gulyas AI, Buzsaki G, Freund TF, Hirase H.:
" Populations of hippocampal inhibitory neurons express different levels of cytochrome c"
European Journal of Neuroscience Vol.23, pp2581-2594 (2006)

Members

Principal Investigator

Hajime HIRASE: Laboratory Head

Members

Tsuneko MISHIMA: Research Scientist

Youichi IWAI: Research Scientist

Yoshiaki SHINOHARA: Research Scientist

Yuki OE: Research Scientist

Kazuko YAHAGI: Technical Staff I

Aki HOSOYA: Technical Staff II

Terumi NAGAI: Technical Staff II

Katsuya OZAWA: Technical Staff II

Akiko ASHIKARI: Assistant

Tomomi AIDA: Visiting Scientist

Norio TAKATA: Visiting Scientist

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