David P. D. Woldbye scite author profile

Neuropeptide Y (NPY) is widely distributed in interneurons of the central nervous system (CNS), including the hippocampus and cerebral cortex, in concentrations exceeding those of any other known neuropeptides. Sequence data comparing different species show that NPY is highly conserved. This suggests a critical role in regulation of regional neuronal excitability. Kainic acid, a glutamate agonist at kainic acid receptors, causes severe limbic motor seizures culminating in status epilepticus. We here report that NPY administered into the lateral ventricle is a powerful inhibitor of motor as well as electroencephalographic (EEG) seizures induced by kainic acid. This effect was mediated via receptors with a pharmacological profile similar to the recently cloned rat Y5 receptor. The present study is the first to demonstrate that NPY possesses anticonvulsant activity. This is consistent with the concept that NPY is an endogenous anticonvulsant and suggests that agonists acting at Y5-like receptors may constitute a novel group of drugs in antiepileptic therapy.

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PICK1 Deficiency Impairs Secretory Vesicle Biogenesis and Leads to Growth Retardation and Decreased Glucose Tolerance

Holst

et al. 2013

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Reduced Cocaine Self-Administration in Muscarinic M₅Acetylcholine Receptor-Deficient Mice

Thomsen¹,

Woldbye²,

Wörtwein³

et al. 2005

J. Neurosci.

108

105

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The reinforcing effects of cocaine have been related to increased extracellular concentrations of dopamine in the ventral striatum. Several studies suggest that M 5 muscarinic receptors facilitate striatal dopamine release. We tested the hypothesis that the reinforcing effects of cocaine are decreased in M 5 receptor-deficient mice using chronic intravenous cocaine self-administration in extensively backcrossed mice. We also assessed whether operant performance generally, rather than cocaine self-administration specifically, was altered in the mutant mice. To this end, we evaluated both food-maintained operant behavior and cocaine self-administration under a fixed ratio 1 and a progressive ratio (PR) schedule of reinforcement. We also evaluated acquisition of self-administration in experimentally naive mice using several doses of cocaine. M 5 receptor deletion decreased self-administration of low to moderate doses of cocaine under a PR schedule of reinforcement and diminished acquisition of self-administration of a low dose in experimentally naive mice. We found no differences between genotypes in food-maintained behavior. The present study extends our previous findings using backcrossed mice and covering various experimental conditions. Our results indicate that M 5 receptor deletion diminished the reinforcing effects of low doses of cocaine and identified specific conditions under which this may be observed.

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The role of NPY in learning and memory

2016

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David P. D. Woldbye

A Subpopulation of Neuronal M₄Muscarinic Acetylcholine Receptors Plays a Critical Role in Modulating Dopamine-Dependent Behaviors

Powerful inhibition of kainic acid seizures by neuropeptide Y via Y5-like receptors

PICK1 Deficiency Impairs Secretory Vesicle Biogenesis and Leads to Growth Retardation and Decreased Glucose Tolerance

Reduced Cocaine Self-Administration in Muscarinic M₅Acetylcholine Receptor-Deficient Mice

The role of NPY in learning and memory

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David P. D. Woldbye

A Subpopulation of Neuronal M4Muscarinic Acetylcholine Receptors Plays a Critical Role in Modulating Dopamine-Dependent Behaviors

Powerful inhibition of kainic acid seizures by neuropeptide Y via Y5-like receptors

PICK1 Deficiency Impairs Secretory Vesicle Biogenesis and Leads to Growth Retardation and Decreased Glucose Tolerance

Reduced Cocaine Self-Administration in Muscarinic M5Acetylcholine Receptor-Deficient Mice

The role of NPY in learning and memory

Contact Info

Product

Resources

About

A Subpopulation of Neuronal M₄Muscarinic Acetylcholine Receptors Plays a Critical Role in Modulating Dopamine-Dependent Behaviors

Reduced Cocaine Self-Administration in Muscarinic M₅Acetylcholine Receptor-Deficient Mice