Altered dopaminergic pathways and therapeutic effects of intranasal dopamine in two distinct mouse models of autism

Altered dopaminergic pathways and therapeutic effects of intranasal dopamine in two distinct mouse models of autism

Abstract The dopamine (DA) system has a profound impact on reward-motivated behavior and is critically involved in neurodevelopmental disorders, such as autism spectrum disorder (ASD). Although DA defects are found in autistic patients, it is not well defined how the DA pathways are altered in ASD a...

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Main Authors: Owen Y. Chao, Salil S. Pathak, Hao Zhang, Nathan Dunaway, Jay-Shake Li, Claudia Mattern, Susanne Nikolaus, Joseph P. Huston, Yi-Mei Yang
Format: Article
Language:English
Published: BMC 2020-08-01
Series:Molecular Brain
Subjects:
Autism
Fragile X syndrome
BTBR
Fmr1
Striatum
Social behavior
Online Access:http://link.springer.com/article/10.1186/s13041-020-00649-7
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spelling doaj-8c7c8b2c11bf46c996a63dea1d8651a52020-11-25T03:56:51ZengBMCMolecular Brain1756-66062020-08-0113111610.1186/s13041-020-00649-7Altered dopaminergic pathways and therapeutic effects of intranasal dopamine in two distinct mouse models of autismOwen Y. Chao0Salil S. Pathak1Hao Zhang2Nathan Dunaway3Jay-Shake Li4Claudia Mattern5Susanne Nikolaus6Joseph P. Huston7Yi-Mei Yang8Department of Biomedical Sciences, University of Minnesota Medical SchoolDepartment of Biomedical Sciences, University of Minnesota Medical SchoolDepartment of Biomedical Sciences, University of Minnesota Medical SchoolDepartment of Biomedical Sciences, University of Minnesota Medical SchoolDepartment of Psychology, National Chung Cheng UniversityM et P Pharma AGClinic of Nuclear Medicine, Heinrich Heine University of DüsseldorfCenter for Behavioral Neuroscience, Heinrich Heine University of DüsseldorfDepartment of Biomedical Sciences, University of Minnesota Medical SchoolAbstract The dopamine (DA) system has a profound impact on reward-motivated behavior and is critically involved in neurodevelopmental disorders, such as autism spectrum disorder (ASD). Although DA defects are found in autistic patients, it is not well defined how the DA pathways are altered in ASD and whether DA can be utilized as a potential therapeutic agent for ASD. To this end, we employed a phenotypic and a genetic ASD model, i.e., Black and Tan BRachyury T+Itpr3tf/J (BTBR) mice and Fragile X Mental Retardation 1 knockout (Fmr1-KO) mice, respectively. Immunostaining of tyrosine hydroxylase (TH) to mark dopaminergic neurons revealed an overall reduction in the TH expression in the substantia nigra, ventral tegmental area and dorsal striatum of BTBR mice, as compared to C57BL/6 J wild-type ones. In contrast, Fmr1-KO animals did not show such an alteration but displayed abnormal morphology of TH-positive axons in the striatum with higher “complexity” and lower “texture”. Both strains exhibited decreased expression of striatal dopamine transporter (DAT) and increased spatial coupling between vesicular glutamate transporter 1 (VGLUT1, a label for glutamatergic terminals) and TH signals, while GABAergic neurons quantified by glutamic acid decarboxylase 67 (GAD67) remained intact. Intranasal administration of DA rescued the deficits in non-selective attention, object-based attention and social approaching of BTBR mice, likely by enhancing the level of TH in the striatum. Application of intranasal DA to Fmr1-KO animals alleviated their impairment of social novelty, in association with reduced striatal TH protein. These results suggest that although the DA system is modified differently in the two ASD models, intranasal treatment with DA effectively rectifies their behavioral phenotypes, which may present a promising therapy for diverse types of ASD.http://link.springer.com/article/10.1186/s13041-020-00649-7AutismFragile X syndromeBTBRFmr1StriatumSocial behavior
collection DOAJ
language English
format Article
sources DOAJ
author Owen Y. Chao
Salil S. Pathak
Hao Zhang
Nathan Dunaway
Jay-Shake Li
Claudia Mattern
Susanne Nikolaus
Joseph P. Huston
Yi-Mei Yang
spellingShingle Owen Y. Chao
Salil S. Pathak
Hao Zhang
Nathan Dunaway
Jay-Shake Li
Claudia Mattern
Susanne Nikolaus
Joseph P. Huston
Yi-Mei Yang
Altered dopaminergic pathways and therapeutic effects of intranasal dopamine in two distinct mouse models of autism
Molecular Brain
Autism
Fragile X syndrome
BTBR
Fmr1
Striatum
Social behavior
author_facet Owen Y. Chao
Salil S. Pathak
Hao Zhang
Nathan Dunaway
Jay-Shake Li
Claudia Mattern
Susanne Nikolaus
Joseph P. Huston
Yi-Mei Yang
author_sort Owen Y. Chao
title Altered dopaminergic pathways and therapeutic effects of intranasal dopamine in two distinct mouse models of autism
title_short Altered dopaminergic pathways and therapeutic effects of intranasal dopamine in two distinct mouse models of autism
title_full Altered dopaminergic pathways and therapeutic effects of intranasal dopamine in two distinct mouse models of autism
title_fullStr Altered dopaminergic pathways and therapeutic effects of intranasal dopamine in two distinct mouse models of autism
title_full_unstemmed Altered dopaminergic pathways and therapeutic effects of intranasal dopamine in two distinct mouse models of autism
title_sort altered dopaminergic pathways and therapeutic effects of intranasal dopamine in two distinct mouse models of autism
publisher BMC
series Molecular Brain
issn 1756-6606
publishDate 2020-08-01
description Abstract The dopamine (DA) system has a profound impact on reward-motivated behavior and is critically involved in neurodevelopmental disorders, such as autism spectrum disorder (ASD). Although DA defects are found in autistic patients, it is not well defined how the DA pathways are altered in ASD and whether DA can be utilized as a potential therapeutic agent for ASD. To this end, we employed a phenotypic and a genetic ASD model, i.e., Black and Tan BRachyury T+Itpr3tf/J (BTBR) mice and Fragile X Mental Retardation 1 knockout (Fmr1-KO) mice, respectively. Immunostaining of tyrosine hydroxylase (TH) to mark dopaminergic neurons revealed an overall reduction in the TH expression in the substantia nigra, ventral tegmental area and dorsal striatum of BTBR mice, as compared to C57BL/6 J wild-type ones. In contrast, Fmr1-KO animals did not show such an alteration but displayed abnormal morphology of TH-positive axons in the striatum with higher “complexity” and lower “texture”. Both strains exhibited decreased expression of striatal dopamine transporter (DAT) and increased spatial coupling between vesicular glutamate transporter 1 (VGLUT1, a label for glutamatergic terminals) and TH signals, while GABAergic neurons quantified by glutamic acid decarboxylase 67 (GAD67) remained intact. Intranasal administration of DA rescued the deficits in non-selective attention, object-based attention and social approaching of BTBR mice, likely by enhancing the level of TH in the striatum. Application of intranasal DA to Fmr1-KO animals alleviated their impairment of social novelty, in association with reduced striatal TH protein. These results suggest that although the DA system is modified differently in the two ASD models, intranasal treatment with DA effectively rectifies their behavioral phenotypes, which may present a promising therapy for diverse types of ASD.
topic Autism
Fragile X syndrome
BTBR
Fmr1
Striatum
Social behavior
url http://link.springer.com/article/10.1186/s13041-020-00649-7
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