Plasticity of neuropeptide Y in the dentate gyrus alter seizures, and its relevance to seizure-induced neurogenesis
Plasticity of neuropeptide Y in the dentate gyrus alter seizures, and its relevance to seizure-induced neurogenesis
In summary, NPY is clearly an important peptide in the adult rat dentate gyrus because it has the potential to influence synaptic transmission and neurogenesis. It may even have other functions, as yet undiscovered, mediated by glia or vasculature. The remarkable plasticity of NPY puts it in a position to allow dentate gyrus function to be modified in a changing environment. The importance of this plasticity in the context of epilepsy cannot be emphasized enough. It could help explain a range of observations about epilepsy that currently is poorly understood. For example, rapid increases in NPY could mediate postictal depression, the period of depression that can last for several hours after generalized seizures. It may mediate the "priming effect," which is a reduction in seizure threshold following an initial period of seizures. Finally, it could contribute to the resistance of dentate granule cells to degeneration after seizures. However, despite the focus in this review on seizure-induced changes, the changes described here also appear to occur after other types of manipulations, which considerably broadens the scope of NPY's role in the brain
193-211
Scharfman, H.E.
dfad23c7-0ee4-47a7-9056-9a3cbbff22cf
Gray, W.P.
e0ba5a65-bd74-4a4f-b640-5abf64fbb377
2006
Scharfman, H.E.
dfad23c7-0ee4-47a7-9056-9a3cbbff22cf
Gray, W.P.
e0ba5a65-bd74-4a4f-b640-5abf64fbb377
Scharfman, H.E. and Gray, W.P.
(2006)
Plasticity of neuropeptide Y in the dentate gyrus alter seizures, and its relevance to seizure-induced neurogenesis.
EXS, 95, .
Abstract
In summary, NPY is clearly an important peptide in the adult rat dentate gyrus because it has the potential to influence synaptic transmission and neurogenesis. It may even have other functions, as yet undiscovered, mediated by glia or vasculature. The remarkable plasticity of NPY puts it in a position to allow dentate gyrus function to be modified in a changing environment. The importance of this plasticity in the context of epilepsy cannot be emphasized enough. It could help explain a range of observations about epilepsy that currently is poorly understood. For example, rapid increases in NPY could mediate postictal depression, the period of depression that can last for several hours after generalized seizures. It may mediate the "priming effect," which is a reduction in seizure threshold following an initial period of seizures. Finally, it could contribute to the resistance of dentate granule cells to degeneration after seizures. However, despite the focus in this review on seizure-induced changes, the changes described here also appear to occur after other types of manipulations, which considerably broadens the scope of NPY's role in the brain
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Published date: 2006
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Local EPrints ID: 27707
URI: http://eprints.soton.ac.uk/id/eprint/27707
ISSN: 1023-294X
PURE UUID: 5f6e5029-2769-462f-9ae9-9d79454a750d
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Date deposited: 14 Jun 2006
Last modified: 11 Dec 2021 15:05
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Author:
H.E. Scharfman
Author:
W.P. Gray
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