Basement membrane protein nidogen-1 shapes hippocampal synaptic plasticity and excitability
Basement membrane protein nidogen-1 shapes hippocampal synaptic plasticity and excitability
The basement membrane (BM) is a specialized form of extracellular matrix (ECM) underlying epithelia and endothelia and surrounding many types of mesenchymal cells. Nidogen, along with collagen IV and laminin, is a major component of BMs. Although certain ECM proteins such as laminin or reelin influence neuronal function via interactions with cell-surface receptors such as integrins, behavioral neurological impairments due to deficits of BM components have been recognized only recently. Here, alterations in neuronal network function underlying these behavioral changes are revealed. Using nidogen-1 knockout mice, with or without additional heterozygous nidogen-2 knockout (NID1-/-/NID2+/+ or NID1-/-/NID2±), we demonstrate that nidogen is essential for normal neuronal network excitability and plasticity. In nidogen-1 knockouts, seizurelike behavior occurs, and epileptiform spiking was seen in hippocampal in vivo EEG recordings. In vitro, hippocampal field potential recordings revealed that lack of nidogen-1, while not causing conspicuous morphological changes, led to the appearance of spontaneous and evoked epileptiform activity, significant increase of the input/output ratio of synaptically evoked responses in CA1 and dentate gyrus, as well as of paired pulse accentuation, and loss of perforant-path long-term synaptic potentiation. Nidogen-1 is thus essential for normal network excitability and plasticity.
608-620
Vasudevan, Anju
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Ho, Matthew S.P.
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Weiergräber, Marco
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Nischt, Roswitha
a21a90aa-1297-42f1-acff-25b2fdb890e5
Schneider, Toni
d6160fe2-9019-4e50-8b5d-a3658b513387
Lie, Ailing
4b6e7349-a050-459c-81a5-48e67d857b17
Smyth, Neil
0eba2a40-3b43-4d40-bb64-621bd7e9d505
Köhling, Rüdiger
79d54712-6daa-4dd2-a537-b1d7a7068f97
15 June 2009
Vasudevan, Anju
dc2159a0-c447-4ac9-93a3-6e2acf9cc17c
Ho, Matthew S.P.
41ef98a7-3d06-47c9-b627-595fd1b34a7b
Weiergräber, Marco
fd749361-0377-4dee-af82-31c67612a8d3
Nischt, Roswitha
a21a90aa-1297-42f1-acff-25b2fdb890e5
Schneider, Toni
d6160fe2-9019-4e50-8b5d-a3658b513387
Lie, Ailing
4b6e7349-a050-459c-81a5-48e67d857b17
Smyth, Neil
0eba2a40-3b43-4d40-bb64-621bd7e9d505
Köhling, Rüdiger
79d54712-6daa-4dd2-a537-b1d7a7068f97
Vasudevan, Anju, Ho, Matthew S.P., Weiergräber, Marco, Nischt, Roswitha, Schneider, Toni, Lie, Ailing, Smyth, Neil and Köhling, Rüdiger
(2009)
Basement membrane protein nidogen-1 shapes hippocampal synaptic plasticity and excitability.
Hippocampus, 20 (5), .
(doi:10.1002/hipo.20660).
Abstract
The basement membrane (BM) is a specialized form of extracellular matrix (ECM) underlying epithelia and endothelia and surrounding many types of mesenchymal cells. Nidogen, along with collagen IV and laminin, is a major component of BMs. Although certain ECM proteins such as laminin or reelin influence neuronal function via interactions with cell-surface receptors such as integrins, behavioral neurological impairments due to deficits of BM components have been recognized only recently. Here, alterations in neuronal network function underlying these behavioral changes are revealed. Using nidogen-1 knockout mice, with or without additional heterozygous nidogen-2 knockout (NID1-/-/NID2+/+ or NID1-/-/NID2±), we demonstrate that nidogen is essential for normal neuronal network excitability and plasticity. In nidogen-1 knockouts, seizurelike behavior occurs, and epileptiform spiking was seen in hippocampal in vivo EEG recordings. In vitro, hippocampal field potential recordings revealed that lack of nidogen-1, while not causing conspicuous morphological changes, led to the appearance of spontaneous and evoked epileptiform activity, significant increase of the input/output ratio of synaptically evoked responses in CA1 and dentate gyrus, as well as of paired pulse accentuation, and loss of perforant-path long-term synaptic potentiation. Nidogen-1 is thus essential for normal network excitability and plasticity.
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Published date: 15 June 2009
Organisations:
Biological Sciences
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Local EPrints ID: 157195
URI: http://eprints.soton.ac.uk/id/eprint/157195
ISSN: 1050-9631
PURE UUID: 7df23090-29b1-4b81-86d5-39217aab1e39
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Date deposited: 03 Jun 2010 13:42
Last modified: 14 Mar 2024 01:46
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Author:
Anju Vasudevan
Author:
Matthew S.P. Ho
Author:
Marco Weiergräber
Author:
Roswitha Nischt
Author:
Toni Schneider
Author:
Ailing Lie
Author:
Rüdiger Köhling
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