Activity-dependent wiring of the developing hippocampal neuronal circuit

E. Hanse; G. M. Durand; O. Garaschuk; A. Konnerth

doi:10.1006/scdb.1996.0119

Activity-dependent wiring of the developing hippocampal neuronal circuit

E. Hanse
, G. M. Durand
, O. Garaschuk
, A. Konnerth

Saarland University

Research output: Contribution to journal › Article › peer-review

34 Scopus citations

Abstract

In the developing hippocampus, functional excitatory synaptic connections seem to be recruited from a preformed, initially silent synaptic network. This functional synapse induction requires presynaptic action potentials paired with postsynaptic depolarization, thus obeying Hebb's rule of association. During early postnatal development the hippocampus exhibits an endogenous form of patterned neuronal activity that is driven by GABAergic depolarization. We propose that this recurrent activity promotes the input specific induction of functional synapses in the CA1 region. Thus, activity dependent synaptic reorganization in the developing hippocampus appears to be dominated by an active recruitment of new synapses rather than an active elimination of redundant connections.

Original language	English
Pages (from-to)	35-42
Number of pages	8
Journal	Seminars in Cell and Developmental Biology
Volume	8
Issue number	1
DOIs	https://doi.org/10.1006/scdb.1996.0119
State	Published - Feb 1997
Externally published	Yes

Keywords

Calcium
GABA
Long-term potentiation
NMDA
Synapse formation

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10.1006/scdb.1996.0119

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title = "Activity-dependent wiring of the developing hippocampal neuronal circuit",

abstract = "In the developing hippocampus, functional excitatory synaptic connections seem to be recruited from a preformed, initially silent synaptic network. This functional synapse induction requires presynaptic action potentials paired with postsynaptic depolarization, thus obeying Hebb's rule of association. During early postnatal development the hippocampus exhibits an endogenous form of patterned neuronal activity that is driven by GABAergic depolarization. We propose that this recurrent activity promotes the input specific induction of functional synapses in the CA1 region. Thus, activity dependent synaptic reorganization in the developing hippocampus appears to be dominated by an active recruitment of new synapses rather than an active elimination of redundant connections.",

keywords = "Calcium, GABA, Long-term potentiation, NMDA, Synapse formation",

author = "E. Hanse and Durand, \{G. M.\} and O. Garaschuk and A. Konnerth",

note = "Funding Information: We thank Nicole Rothgerber and Erle Eilers for excellent technical help. This work was supported by grants from the DFG (SFB 246) and the BMBF to A.K., by the AvHumboldt-Stiftung and the HFSP to G.M.D., and by the Swedish Medical Research Council to E.H.",

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doi = "10.1006/scdb.1996.0119",

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AU - Hanse, E.

AU - Durand, G. M.

AU - Garaschuk, O.

AU - Konnerth, A.

N1 - Funding Information: We thank Nicole Rothgerber and Erle Eilers for excellent technical help. This work was supported by grants from the DFG (SFB 246) and the BMBF to A.K., by the AvHumboldt-Stiftung and the HFSP to G.M.D., and by the Swedish Medical Research Council to E.H.

PY - 1997/2

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N2 - In the developing hippocampus, functional excitatory synaptic connections seem to be recruited from a preformed, initially silent synaptic network. This functional synapse induction requires presynaptic action potentials paired with postsynaptic depolarization, thus obeying Hebb's rule of association. During early postnatal development the hippocampus exhibits an endogenous form of patterned neuronal activity that is driven by GABAergic depolarization. We propose that this recurrent activity promotes the input specific induction of functional synapses in the CA1 region. Thus, activity dependent synaptic reorganization in the developing hippocampus appears to be dominated by an active recruitment of new synapses rather than an active elimination of redundant connections.

AB - In the developing hippocampus, functional excitatory synaptic connections seem to be recruited from a preformed, initially silent synaptic network. This functional synapse induction requires presynaptic action potentials paired with postsynaptic depolarization, thus obeying Hebb's rule of association. During early postnatal development the hippocampus exhibits an endogenous form of patterned neuronal activity that is driven by GABAergic depolarization. We propose that this recurrent activity promotes the input specific induction of functional synapses in the CA1 region. Thus, activity dependent synaptic reorganization in the developing hippocampus appears to be dominated by an active recruitment of new synapses rather than an active elimination of redundant connections.

KW - Calcium

KW - GABA

KW - Long-term potentiation

KW - NMDA

KW - Synapse formation

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DO - 10.1006/scdb.1996.0119

M3 - Article

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EP - 42

JO - Seminars in Cell and Developmental Biology

JF - Seminars in Cell and Developmental Biology

IS - 1

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Activity-dependent wiring of the developing hippocampal neuronal circuit

Abstract

Keywords

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