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Literature DB >> 24633127

Unbalanced excitability underlies offline reactivation of behaviorally activated neurons.

Mika Mizunuma¹, Hiroaki Norimoto¹, Kentaro Tao¹, Takahiro Egawa², Kenjiro Hanaoka², Tetsuya Sakaguchi¹, Hiroyuki Hioki³, Takeshi Kaneko³, Shun Yamaguchi⁴, Tetsuo Nagano², Norio Matsuki¹, Yuji Ikegaya⁵.

Abstract

Hippocampal sharp waves (SWs)/ripples represent the reactivation of neurons involved in recently acquired memory and are crucial for memory consolidation. By labeling active cells with fluorescent protein under the control of an immediate-early gene promoter, we found that neurons that had been activated while mice explored a novel environment were preferentially reactivated during spontaneous SWs in hippocampal slices in vitro. During SWs, the reactivated neurons received strong excitatory synaptic inputs as opposed to a globally tuned network balance between excitation and inhibition.

Entities: Disease Gene Species

Mesh：

Year: 2014 PMID： 24633127 DOI： 10.1038/nn.3674

Source DB: PubMed Journal: Nat Neurosci ISSN： 1097-6256 Impact factor: 24.884

15 in total

1. Memory of sequential experience in the hippocampus during slow wave sleep.

Authors: Albert K Lee; Matthew A Wilson
Journal: Neuron Date: 2002-12-19 Impact factor: 17.173

2. Coherent phasic excitation during hippocampal ripples.

Authors: Nikolaus Maier; Alvaro Tejero-Cantero; Anja L Dorrn; Jochen Winterer; Prateep S Beed; Genela Morris; Richard Kempter; James F A Poulet; Christian Leibold; Dietmar Schmitz
Journal: Neuron Date: 2011-10-06 Impact factor: 17.173

3. Muscarinic receptor activation disrupts hippocampal sharp wave-ripples.

Authors: Hiroaki Norimoto; Mika Mizunuma; Daisuke Ishikawa; Norio Matsuki; Yuji Ikegaya
Journal: Brain Res Date: 2012-04-26 Impact factor: 3.252

4. Circuit topology for synchronizing neurons in spontaneously active networks.

Authors: Naoya Takahashi; Takuya Sasaki; Wataru Matsumoto; Norio Matsuki; Yuji Ikegaya
Journal: Proc Natl Acad Sci U S A Date: 2010-05-17 Impact factor: 11.205

5. Input-output features of anatomically identified CA3 neurons during hippocampal sharp wave/ripple oscillation in vitro.

Authors: Norbert Hájos; Mária R Karlócai; Beáta Németh; István Ulbert; Hannah Monyer; Gábor Szabó; Ferenc Erdélyi; Tamás F Freund; Attila I Gulyás
Journal: J Neurosci Date: 2013-07-10 Impact factor: 6.167

6. Selective suppression of hippocampal ripples impairs spatial memory.

Authors: Gabrielle Girardeau; Karim Benchenane; Sidney I Wiener; György Buzsáki; Michaël B Zugaro
Journal: Nat Neurosci Date: 2009-09-13 Impact factor: 24.884

7. Development of a far-red to near-infrared fluorescence probe for calcium ion and its application to multicolor neuronal imaging.

Authors: Takahiro Egawa; Kenjiro Hanaoka; Yuichiro Koide; Sakiko Ujita; Naoya Takahashi; Yuji Ikegaya; Norio Matsuki; Takuya Terai; Tasuku Ueno; Toru Komatsu; Tetsuo Nagano
Journal: J Am Chem Soc Date: 2011-08-18 Impact factor: 15.419

8. Parvalbumin-producing cortical interneurons receive inhibitory inputs on proximal portions and cortical excitatory inputs on distal dendrites.

Authors: Hiroshi Kameda; Hiroyuki Hioki; Yasuyo H Tanaka; Takuma Tanaka; Jaerin Sohn; Takahiro Sonomura; Takahiro Furuta; Fumino Fujiyama; Takeshi Kaneko
Journal: Eur J Neurosci Date: 2012-03 Impact factor: 3.386

9. Cannabinoid receptor activation disrupts the internal structure of hippocampal sharp wave-ripple complexes.

Authors: Yi Sun; Hiroaki Norimoto; Xiao-Ping Pu; Norio Matsuki; Yuji Ikegaya
Journal: J Pharmacol Sci Date: 2012-02-01 Impact factor: 3.337

10. In vivo and in vitro visualization of gene expression dynamics over extensive areas of the brain.

Authors: Megumi Eguchi; Shun Yamaguchi
Journal: Neuroimage Date: 2008-11-12 Impact factor: 6.556

19 in total

1. Local generation of multineuronal spike sequences in the hippocampal CA1 region.

Authors: Eran Stark; Lisa Roux; Ronny Eichler; György Buzsáki
Journal: Proc Natl Acad Sci U S A Date: 2015-08-03 Impact factor: 11.205

2. Excitation and inhibition compete to control spiking during hippocampal ripples: intracellular study in behaving mice.

Authors: Daniel F English; Adrien Peyrache; Eran Stark; Lisa Roux; Daniela Vallentin; Michael A Long; György Buzsáki
Journal: J Neurosci Date: 2014-12-03 Impact factor: 6.167

Unbalanced excitability underlies offline reactivation of behaviorally activated neurons.

1. Memory of sequential experience in the hippocampus during slow wave sleep.

2. Coherent phasic excitation during hippocampal ripples.

3. Muscarinic receptor activation disrupts hippocampal sharp wave-ripples.

4. Circuit topology for synchronizing neurons in spontaneously active networks.

5. Input-output features of anatomically identified CA3 neurons during hippocampal sharp wave/ripple oscillation in vitro.

6. Selective suppression of hippocampal ripples impairs spatial memory.

7. Development of a far-red to near-infrared fluorescence probe for calcium ion and its application to multicolor neuronal imaging.

8. Parvalbumin-producing cortical interneurons receive inhibitory inputs on proximal portions and cortical excitatory inputs on distal dendrites.

9. Cannabinoid receptor activation disrupts the internal structure of hippocampal sharp wave-ripple complexes.

10. In vivo and in vitro visualization of gene expression dynamics over extensive areas of the brain.

1. Local generation of multineuronal spike sequences in the hippocampal CA1 region.

2. Excitation and inhibition compete to control spiking during hippocampal ripples: intracellular study in behaving mice.

Review 3. Hippocampal sharp wave-ripple: A cognitive biomarker for episodic memory and planning.

4. Ex vivo cultured neuronal networks emit in vivo-like spontaneous activity.

Review 5. Awake Reactivation of Prior Experiences Consolidates Memories and Biases Cognition.

Review 6. Mechanisms of neural organization and rhythmogenesis during hippocampal and cortical ripples.

7. UP-DOWN states and ripples differentially modulate membrane potential dynamics across DG, CA3, and CA1 in awake mice.

8. Membrane Potential Dynamics of CA1 Pyramidal Neurons during Hippocampal Ripples in Awake Mice.

9. Dopamine receptor activation reorganizes neuronal ensembles during hippocampal sharp waves in vitro.

10. Cell-specific synaptic plasticity induced by network oscillations.