Rapid signaling at inhibitory synapses in a dentate gyrus interneuron network.

Bartos M, Vida I, Frotscher M, Geiger J, Jonas PM. 2001. Rapid signaling at inhibitory synapses in a dentate gyrus interneuron network. Journal of Neuroscience. 21(8), 2687–2698.

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Journal Article | Published | English
Author
Bartos, Marlene; Vida, Imre; Frotscher, Michael; Geiger, Jörg; Jonas, Peter MISTA
Abstract
Mutual synaptic interactions between GABAergic interneurons are thought to be of critical importance for the generation of network oscillations and for temporal encoding of information in the hippocampus. However, the functional properties of synaptic transmission between hippocampal interneurons are largely unknown. We have made paired recordings from basket cells (BCs) in the dentate gyrus of rat hippocampal slices, followed by correlated light and electron microscopical analysis. Unitary GABAAreceptor-mediated IPSCs at BC–BC synapses recorded at the soma showed a fast rise and decay, with a mean decay time constant of 2.5 ± 0.2 msec (32°C). Synaptic transmission at BC–BC synapses showed paired-pulse depression (PPD) (32 ± 5% for 10 msec interpulse intervals) and multiple-pulse depression during repetitive stimulation. Detailed passive cable model simulations based on somatodendritic morphology and localization of synaptic contacts further indicated that the conductance change at the postsynaptic site was even faster, decaying with a mean time constant of 1.8 ± 0.6 msec. Sequential triple recordings revealed that the decay time course of IPSCs at BC–BC synapses was approximately twofold faster than that at BC–granule cell synapses, whereas the extent of PPD was comparable. To examine the consequences of the fast postsynaptic conductance change for the generation of oscillatory activity, we developed a computational model of an interneuron network. The model showed robust oscillations at frequencies >60 Hz if the excitatory drive was sufficiently large. Thus the fast conductance change at interneuron–interneuron synapses may promote the generation of high-frequency oscillations observed in the dentate gyrusin vivo.
Publishing Year
Date Published
2001-04-15
Journal Title
Journal of Neuroscience
Publisher
Society for Neuroscience
Acknowledgement
This work was supported by grants of the Deutsche Forschungsgemeinschaft (SFB 505/C6) and the Human Frontiers Science Program Organization (RG0017/1998-B). We thank Drs. M. V. Jones, J. Bischofberger, and U. Kraushaar for critically reading this manuscript. We also thank B. Taskin and A. Roth for advice in the use of reconstruction and modeling software, and S. Nestel, M. Winter, and A. Blomenkamp for technical assistance.
Volume
21
Issue
8
Page
2687 - 2698
ISSN
IST-REx-ID

Cite this

Bartos M, Vida I, Frotscher M, Geiger J, Jonas PM. Rapid signaling at inhibitory synapses in a dentate gyrus interneuron network. Journal of Neuroscience. 2001;21(8):2687-2698. doi:10.1523/JNEUROSCI.21-08-02687.2001
Bartos, M., Vida, I., Frotscher, M., Geiger, J., & Jonas, P. M. (2001). Rapid signaling at inhibitory synapses in a dentate gyrus interneuron network. Journal of Neuroscience. Society for Neuroscience. https://doi.org/10.1523/JNEUROSCI.21-08-02687.2001
Bartos, Marlene, Imre Vida, Michael Frotscher, Jörg Geiger, and Peter M Jonas. “Rapid Signaling at Inhibitory Synapses in a Dentate Gyrus Interneuron Network.” Journal of Neuroscience. Society for Neuroscience, 2001. https://doi.org/10.1523/JNEUROSCI.21-08-02687.2001.
M. Bartos, I. Vida, M. Frotscher, J. Geiger, and P. M. Jonas, “Rapid signaling at inhibitory synapses in a dentate gyrus interneuron network.,” Journal of Neuroscience, vol. 21, no. 8. Society for Neuroscience, pp. 2687–2698, 2001.
Bartos M, Vida I, Frotscher M, Geiger J, Jonas PM. 2001. Rapid signaling at inhibitory synapses in a dentate gyrus interneuron network. Journal of Neuroscience. 21(8), 2687–2698.
Bartos, Marlene, et al. “Rapid Signaling at Inhibitory Synapses in a Dentate Gyrus Interneuron Network.” Journal of Neuroscience, vol. 21, no. 8, Society for Neuroscience, 2001, pp. 2687–98, doi:10.1523/JNEUROSCI.21-08-02687.2001.
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