Reduced effect of NMDA glutamate receptor antagonist on ethanol-induced ataxia and striatal glutamate levels in mice lacking ENT1

Hyung Wook Nam; Moonnoh R. Lee; David J. Hinton; Doo Sup Choi

doi:10.1016/j.neulet.2010.05.079

Reduced effect of NMDA glutamate receptor antagonist on ethanol-induced ataxia and striatal glutamate levels in mice lacking ENT1

Hyung Wook Nam, Moonnoh R. Lee, David J. Hinton, Doo Sup Choi

Pharmacology

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

16 Scopus citations

Abstract

Alcohol-sensitive type 1 equilibrative nucleotide transporter (ENT1) is known to regulate glutamate signaling in the striatum as well as ethanol intoxication. However, it was unclear whether altered extracellular glutamate levels in ENT1^-/- mice contribute to ethanol-induced behavioral changes. Here we report that altered glutamate signaling in ENT1^-/- mice is implicated in the ethanol-induced locomotion and ataxia by NMDA receptor antagonist, CGP37849. ENT1^-/- mice appear less intoxicated following sequential treatment with CGP37849 and ethanol, compared to ENT1^+/+ littermates on the rotarod. These results indicate that inhibiting NMDA glutamate receptors is critical to regulate the response and susceptibility of alcohol related behaviors. Interestingly, a microdialysis experiment showed that the ventral striatum of ENT1^-/- mice is less sensitive to the glutamate-reducing effect of the NMDA receptor antagonist compared to the dorsal striatum. Our findings suggest that differential glutamate neurotransmission in the striatum regulates ethanol intoxication.

Original language	English (US)
Pages (from-to)	277-281
Number of pages	5
Journal	Neuroscience Letters
Volume	479
Issue number	3
DOIs	https://doi.org/10.1016/j.neulet.2010.05.079
State	Published - Aug 2010

Keywords

Alcoholism
Ataxia
CGP37849
Caudate-putamen
ENT1
Glutamate neurotransmission
Microdialysis
Nucleus accumbens

ASJC Scopus subject areas

Neuroscience(all)

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10.1016/j.neulet.2010.05.079

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title = "Reduced effect of NMDA glutamate receptor antagonist on ethanol-induced ataxia and striatal glutamate levels in mice lacking ENT1",

abstract = "Alcohol-sensitive type 1 equilibrative nucleotide transporter (ENT1) is known to regulate glutamate signaling in the striatum as well as ethanol intoxication. However, it was unclear whether altered extracellular glutamate levels in ENT1-/- mice contribute to ethanol-induced behavioral changes. Here we report that altered glutamate signaling in ENT1-/- mice is implicated in the ethanol-induced locomotion and ataxia by NMDA receptor antagonist, CGP37849. ENT1-/- mice appear less intoxicated following sequential treatment with CGP37849 and ethanol, compared to ENT1+/+ littermates on the rotarod. These results indicate that inhibiting NMDA glutamate receptors is critical to regulate the response and susceptibility of alcohol related behaviors. Interestingly, a microdialysis experiment showed that the ventral striatum of ENT1-/- mice is less sensitive to the glutamate-reducing effect of the NMDA receptor antagonist compared to the dorsal striatum. Our findings suggest that differential glutamate neurotransmission in the striatum regulates ethanol intoxication.",

keywords = "Alcoholism, Ataxia, CGP37849, Caudate-putamen, ENT1, Glutamate neurotransmission, Microdialysis, Nucleus accumbens",

author = "Nam, {Hyung Wook} and Lee, {Moonnoh R.} and Hinton, {David J.} and Choi, {Doo Sup}",

note = "Funding Information: We thank S. Choi for mouse husbandry and D. Frederixon for preparing the manuscript. This research was supported by the Samuel Johnson Foundation for Genomics of Addiction Program at Mayo Clinic and by grants from the National Institutes of Health (NIH) to D.-S.C. ( R01 AA015164 and R01 AA018779 ). H.W.N. received postdoctoral fellowship from Korea Research Foundation.",

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AU - Lee, Moonnoh R.

AU - Hinton, David J.

AU - Choi, Doo Sup

N1 - Funding Information: We thank S. Choi for mouse husbandry and D. Frederixon for preparing the manuscript. This research was supported by the Samuel Johnson Foundation for Genomics of Addiction Program at Mayo Clinic and by grants from the National Institutes of Health (NIH) to D.-S.C. ( R01 AA015164 and R01 AA018779 ). H.W.N. received postdoctoral fellowship from Korea Research Foundation.

PY - 2010/8

Y1 - 2010/8

N2 - Alcohol-sensitive type 1 equilibrative nucleotide transporter (ENT1) is known to regulate glutamate signaling in the striatum as well as ethanol intoxication. However, it was unclear whether altered extracellular glutamate levels in ENT1-/- mice contribute to ethanol-induced behavioral changes. Here we report that altered glutamate signaling in ENT1-/- mice is implicated in the ethanol-induced locomotion and ataxia by NMDA receptor antagonist, CGP37849. ENT1-/- mice appear less intoxicated following sequential treatment with CGP37849 and ethanol, compared to ENT1+/+ littermates on the rotarod. These results indicate that inhibiting NMDA glutamate receptors is critical to regulate the response and susceptibility of alcohol related behaviors. Interestingly, a microdialysis experiment showed that the ventral striatum of ENT1-/- mice is less sensitive to the glutamate-reducing effect of the NMDA receptor antagonist compared to the dorsal striatum. Our findings suggest that differential glutamate neurotransmission in the striatum regulates ethanol intoxication.

AB - Alcohol-sensitive type 1 equilibrative nucleotide transporter (ENT1) is known to regulate glutamate signaling in the striatum as well as ethanol intoxication. However, it was unclear whether altered extracellular glutamate levels in ENT1-/- mice contribute to ethanol-induced behavioral changes. Here we report that altered glutamate signaling in ENT1-/- mice is implicated in the ethanol-induced locomotion and ataxia by NMDA receptor antagonist, CGP37849. ENT1-/- mice appear less intoxicated following sequential treatment with CGP37849 and ethanol, compared to ENT1+/+ littermates on the rotarod. These results indicate that inhibiting NMDA glutamate receptors is critical to regulate the response and susceptibility of alcohol related behaviors. Interestingly, a microdialysis experiment showed that the ventral striatum of ENT1-/- mice is less sensitive to the glutamate-reducing effect of the NMDA receptor antagonist compared to the dorsal striatum. Our findings suggest that differential glutamate neurotransmission in the striatum regulates ethanol intoxication.

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Reduced effect of NMDA glutamate receptor antagonist on ethanol-induced ataxia and striatal glutamate levels in mice lacking ENT1

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