Literature DB >> 17204350

Neuropeptide Y in the recurrent mossy fiber pathway.

J Victor Nadler1, Bin Tu, Olga Timofeeva, Yiqun Jiao, Herbert Herzog.   

Abstract

In the epileptic brain, hippocampal dentate granule cells become synaptically interconnected through the sprouting of mossy fibers. This new circuitry is expected to facilitate epileptiform discharge. Prolonged seizures induce the long-lasting neoexpression of neuropeptide Y (NPY) in mossy fibers. NPY is released spontaneously from recurrent mossy fiber terminals, reduces glutamate release from those terminals by activating presynaptic Y2 receptors, and depresses granule cell epileptiform activity dependent on the recurrent pathway. These effects are much greater in rats than in C57BL/6 mice, despite apparently equivalent mossy fiber sprouting and neoexpression of NPY. This species difference can be explained by contrasting changes in the expression of mossy fiber Y2 receptors; seizures upregulate Y2 receptors in rats but downregulate them in mice. The recurrent mossy fiber pathway may synchronize granule cell discharge more effectively in humans and mice than in rats, due to its lower expression of either NPY (humans) or Y2 receptors (mice).

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Year:  2007        PMID: 17204350      PMCID: PMC1853293          DOI: 10.1016/j.peptides.2006.07.026

Source DB:  PubMed          Journal:  Peptides        ISSN: 0196-9781            Impact factor:   3.750


  55 in total

1.  Spontaneous release of neuropeptide Y tonically inhibits recurrent mossy fiber synaptic transmission in epileptic brain.

Authors:  Bin Tu; Olga Timofeeva; Yiqun Jiao; J Victor Nadler
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2.  Neuropeptide Y1 receptors inhibit N-type calcium currents and reduce transient calcium increases in rat dentate granule cells.

Authors:  A R McQuiston; J J Petrozzino; J A Connor; W F Colmers
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Journal:  Peptides       Date:  2001-03       Impact factor: 3.750

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7.  Aging and excitotoxic stress exacerbate neural circuit reorganization in amyloid precursor protein intracellular domain transgenic mice.

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8.  Experimental neonatal status epilepticus and the development of temporal lobe epilepsy with unilateral hippocampal sclerosis.

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9.  Bilateral reorganization of the dentate gyrus in hippocampal sclerosis: a postmortem study.

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