M<sub>4 </sub>muscarinic receptor knockout mice display abnormal social behavior and decreased prepulse inhibition

<p>Abstract</p> <p>Background</p> <p>In the central nervous system (CNS), the muscarinic system plays key roles in learning and memory, as well as in the regulation of many sensory, motor, and autonomic processes, and is thought to be involved in the pathophysiology of...

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Main Authors: Koshimizu Hisatsugu, Leiter Lorene M, Miyakawa Tsuyoshi
Format: Article
Language:English
Published: BMC 2012-04-01
Series:Molecular Brain
Online Access:http://www.molecularbrain.com/content/5/1/10
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spelling doaj-f582df30cd03471ead2811f6289dfe062020-11-24T21:41:21ZengBMCMolecular Brain1756-66062012-04-01511010.1186/1756-6606-5-10M<sub>4 </sub>muscarinic receptor knockout mice display abnormal social behavior and decreased prepulse inhibitionKoshimizu HisatsuguLeiter Lorene MMiyakawa Tsuyoshi<p>Abstract</p> <p>Background</p> <p>In the central nervous system (CNS), the muscarinic system plays key roles in learning and memory, as well as in the regulation of many sensory, motor, and autonomic processes, and is thought to be involved in the pathophysiology of several major diseases of the CNS, such as Alzheimer's disease, depression, and schizophrenia. Previous studies reveal that M<sub>4 </sub>muscarinic receptor knockout (M<sub>4</sub>R KO) mice displayed an increase in basal locomotor activity, an increase in sensitivity to the prepulse inhibition (PPI)-disrupting effect of psychotomimetics, and normal basal PPI. However, other behaviorally significant roles of M<sub>4</sub>R remain unclear.</p> <p>Results</p> <p>In this study, to further investigate precise functional roles of M<sub>4</sub>R in the CNS, M<sub>4</sub>R KO mice were subjected to a battery of behavioral tests. M<sub>4</sub>R KO mice showed no significant impairments in nociception, neuromuscular strength, or motor coordination/learning. In open field, light/dark transition, and social interaction tests, consistent with previous studies, M<sub>4</sub>R KO mice displayed enhanced locomotor activity compared to their wild-type littermates. In the open field test, M<sub>4</sub>R KO mice exhibited novelty-induced locomotor hyperactivity. In the social interaction test, contacts between pairs of M<sub>4</sub>R KO mice lasted shorter than those of wild-type mice. In the sensorimotor gating test, M<sub>4</sub>R KO mice showed a decrease in PPI, whereas in the startle response test, in contrast to a previous study, M<sub>4</sub>R KO mice demonstrated normal startle response. M<sub>4</sub>R KO mice also displayed normal performance in the Morris water maze test.</p> <p>Conclusions</p> <p>These findings indicate that M<sub>4</sub>R is involved in regulation of locomotor activity, social behavior, and sensorimotor gating in mice. Together with decreased PPI, abnormal social behavior, which was newly identified in the present study, may represent a behavioral abnormality related to psychiatric disorders including schizophrenia.</p> http://www.molecularbrain.com/content/5/1/10
collection DOAJ
language English
format Article
sources DOAJ
author Koshimizu Hisatsugu
Leiter Lorene M
Miyakawa Tsuyoshi
spellingShingle Koshimizu Hisatsugu
Leiter Lorene M
Miyakawa Tsuyoshi
M<sub>4 </sub>muscarinic receptor knockout mice display abnormal social behavior and decreased prepulse inhibition
Molecular Brain
author_facet Koshimizu Hisatsugu
Leiter Lorene M
Miyakawa Tsuyoshi
author_sort Koshimizu Hisatsugu
title M<sub>4 </sub>muscarinic receptor knockout mice display abnormal social behavior and decreased prepulse inhibition
title_short M<sub>4 </sub>muscarinic receptor knockout mice display abnormal social behavior and decreased prepulse inhibition
title_full M<sub>4 </sub>muscarinic receptor knockout mice display abnormal social behavior and decreased prepulse inhibition
title_fullStr M<sub>4 </sub>muscarinic receptor knockout mice display abnormal social behavior and decreased prepulse inhibition
title_full_unstemmed M<sub>4 </sub>muscarinic receptor knockout mice display abnormal social behavior and decreased prepulse inhibition
title_sort m<sub>4 </sub>muscarinic receptor knockout mice display abnormal social behavior and decreased prepulse inhibition
publisher BMC
series Molecular Brain
issn 1756-6606
publishDate 2012-04-01
description <p>Abstract</p> <p>Background</p> <p>In the central nervous system (CNS), the muscarinic system plays key roles in learning and memory, as well as in the regulation of many sensory, motor, and autonomic processes, and is thought to be involved in the pathophysiology of several major diseases of the CNS, such as Alzheimer's disease, depression, and schizophrenia. Previous studies reveal that M<sub>4 </sub>muscarinic receptor knockout (M<sub>4</sub>R KO) mice displayed an increase in basal locomotor activity, an increase in sensitivity to the prepulse inhibition (PPI)-disrupting effect of psychotomimetics, and normal basal PPI. However, other behaviorally significant roles of M<sub>4</sub>R remain unclear.</p> <p>Results</p> <p>In this study, to further investigate precise functional roles of M<sub>4</sub>R in the CNS, M<sub>4</sub>R KO mice were subjected to a battery of behavioral tests. M<sub>4</sub>R KO mice showed no significant impairments in nociception, neuromuscular strength, or motor coordination/learning. In open field, light/dark transition, and social interaction tests, consistent with previous studies, M<sub>4</sub>R KO mice displayed enhanced locomotor activity compared to their wild-type littermates. In the open field test, M<sub>4</sub>R KO mice exhibited novelty-induced locomotor hyperactivity. In the social interaction test, contacts between pairs of M<sub>4</sub>R KO mice lasted shorter than those of wild-type mice. In the sensorimotor gating test, M<sub>4</sub>R KO mice showed a decrease in PPI, whereas in the startle response test, in contrast to a previous study, M<sub>4</sub>R KO mice demonstrated normal startle response. M<sub>4</sub>R KO mice also displayed normal performance in the Morris water maze test.</p> <p>Conclusions</p> <p>These findings indicate that M<sub>4</sub>R is involved in regulation of locomotor activity, social behavior, and sensorimotor gating in mice. Together with decreased PPI, abnormal social behavior, which was newly identified in the present study, may represent a behavioral abnormality related to psychiatric disorders including schizophrenia.</p>
url http://www.molecularbrain.com/content/5/1/10
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