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Brain mGluR5 in Shank3B(−/−) Mice Studied With in vivo [(18)F]FPEB PET Imaging and ex vivo Immunoblotting

Although several studies have found that metabotropic glutamate 5 receptor (mGluR5) may play an important role in autism spectrum disorders (ASD), the mechanisms remain unclear. Here, we used a Shank3 gene complete knockout mouse model (Shank3B(−/−)) to explore the change in mGluR5 in the brain. To...

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Autores principales: Cai, Guohong, Wang, Mengmeng, Wang, Shuailiang, Liu, Yi, Zhao, Yan, Zhu, Yuanyuan, Zhao, Suo, Zhang, Ming, Guo, Baolin, Yao, Han, Wang, Wenting, Wang, Jing, Wu, Shengxi
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2019
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6379301/
https://www.ncbi.nlm.nih.gov/pubmed/30809159
http://dx.doi.org/10.3389/fpsyt.2019.00038
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author Cai, Guohong
Wang, Mengmeng
Wang, Shuailiang
Liu, Yi
Zhao, Yan
Zhu, Yuanyuan
Zhao, Suo
Zhang, Ming
Guo, Baolin
Yao, Han
Wang, Wenting
Wang, Jing
Wu, Shengxi
author_facet Cai, Guohong
Wang, Mengmeng
Wang, Shuailiang
Liu, Yi
Zhao, Yan
Zhu, Yuanyuan
Zhao, Suo
Zhang, Ming
Guo, Baolin
Yao, Han
Wang, Wenting
Wang, Jing
Wu, Shengxi
author_sort Cai, Guohong
collection PubMed
description Although several studies have found that metabotropic glutamate 5 receptor (mGluR5) may play an important role in autism spectrum disorders (ASD), the mechanisms remain unclear. Here, we used a Shank3 gene complete knockout mouse model (Shank3B(−/−)) to explore the change in mGluR5 in the brain. To assess whether deletion of Shank3 in mice results in ASD-like behavior, we conducted a battery of behavioral experiments to characterize Shank3B(−/−) mice, including repetitive grooming behavior tests, three-chamber tests and resident-intruder tests. Wild-type C57/BL6 and Shank3B(−/−) mice underwent PET scans with [(18)F]FPEB, which was highly specific to mGluR5. Mouse brains were extracted post-scan, and mGluR5 protein levels were assessed by immunoblotting. The binding potential (BPnd) of mGluR5 was rich in the hippocampus, thalamus, striatum, and amygdala. More importantly, Shank3B(−/−) mice showed significantly increased BPnd compared to the control mice in these brain regions. Immunoblotting revealed elevated mGluR5 levels in the hippocampus, thalamus, and amygdala but not in the striatum compared with control mice. These findings indicated that [(18)F]FPEB could visualize mGluR5 in the mouse brain. The deficiency of Shank3 can impair mGluR5 expression in multiple brain regions. Future work is also needed to understand the reasons for different results between in vivo PET and ex vivo immunoblotting.
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spelling pubmed-63793012019-02-26 Brain mGluR5 in Shank3B(−/−) Mice Studied With in vivo [(18)F]FPEB PET Imaging and ex vivo Immunoblotting Cai, Guohong Wang, Mengmeng Wang, Shuailiang Liu, Yi Zhao, Yan Zhu, Yuanyuan Zhao, Suo Zhang, Ming Guo, Baolin Yao, Han Wang, Wenting Wang, Jing Wu, Shengxi Front Psychiatry Psychiatry Although several studies have found that metabotropic glutamate 5 receptor (mGluR5) may play an important role in autism spectrum disorders (ASD), the mechanisms remain unclear. Here, we used a Shank3 gene complete knockout mouse model (Shank3B(−/−)) to explore the change in mGluR5 in the brain. To assess whether deletion of Shank3 in mice results in ASD-like behavior, we conducted a battery of behavioral experiments to characterize Shank3B(−/−) mice, including repetitive grooming behavior tests, three-chamber tests and resident-intruder tests. Wild-type C57/BL6 and Shank3B(−/−) mice underwent PET scans with [(18)F]FPEB, which was highly specific to mGluR5. Mouse brains were extracted post-scan, and mGluR5 protein levels were assessed by immunoblotting. The binding potential (BPnd) of mGluR5 was rich in the hippocampus, thalamus, striatum, and amygdala. More importantly, Shank3B(−/−) mice showed significantly increased BPnd compared to the control mice in these brain regions. Immunoblotting revealed elevated mGluR5 levels in the hippocampus, thalamus, and amygdala but not in the striatum compared with control mice. These findings indicated that [(18)F]FPEB could visualize mGluR5 in the mouse brain. The deficiency of Shank3 can impair mGluR5 expression in multiple brain regions. Future work is also needed to understand the reasons for different results between in vivo PET and ex vivo immunoblotting. Frontiers Media S.A. 2019-02-12 /pmc/articles/PMC6379301/ /pubmed/30809159 http://dx.doi.org/10.3389/fpsyt.2019.00038 Text en Copyright © 2019 Cai, Wang, Wang, Liu, Zhao, Zhu, Zhao, Zhang, Guo, Yao, Wang, Wang and Wu. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Psychiatry
Cai, Guohong
Wang, Mengmeng
Wang, Shuailiang
Liu, Yi
Zhao, Yan
Zhu, Yuanyuan
Zhao, Suo
Zhang, Ming
Guo, Baolin
Yao, Han
Wang, Wenting
Wang, Jing
Wu, Shengxi
Brain mGluR5 in Shank3B(−/−) Mice Studied With in vivo [(18)F]FPEB PET Imaging and ex vivo Immunoblotting
title Brain mGluR5 in Shank3B(−/−) Mice Studied With in vivo [(18)F]FPEB PET Imaging and ex vivo Immunoblotting
title_full Brain mGluR5 in Shank3B(−/−) Mice Studied With in vivo [(18)F]FPEB PET Imaging and ex vivo Immunoblotting
title_fullStr Brain mGluR5 in Shank3B(−/−) Mice Studied With in vivo [(18)F]FPEB PET Imaging and ex vivo Immunoblotting
title_full_unstemmed Brain mGluR5 in Shank3B(−/−) Mice Studied With in vivo [(18)F]FPEB PET Imaging and ex vivo Immunoblotting
title_short Brain mGluR5 in Shank3B(−/−) Mice Studied With in vivo [(18)F]FPEB PET Imaging and ex vivo Immunoblotting
title_sort brain mglur5 in shank3b(−/−) mice studied with in vivo [(18)f]fpeb pet imaging and ex vivo immunoblotting
topic Psychiatry
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6379301/
https://www.ncbi.nlm.nih.gov/pubmed/30809159
http://dx.doi.org/10.3389/fpsyt.2019.00038
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