Trans-synaptic zinc mobilization improves social interaction in two mouse models of autism through NMDAR activation

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Abstract

Genetic aspects of autism spectrum disorders (ASDs) have recently been extensively explored, but environmental influences that affect ASDs have received considerably less attention. Zinc (Zn) is a nutritional factor implicated in ASDs, but evidence for a strong association and linking mechanism is largely lacking. Here we report that trans-synaptic Zn mobilization rapidly rescues social interaction in two independent mouse models of ASD. In mice lacking Shank2, an excitatory postsynaptic scaffolding protein, postsynaptic Zn elevation induced by clioquinol (a Zn chelator and ionophore) improves social interaction. Postsynaptic Zn is mainly derived from presynaptic pools and activates NMDA receptors (NMDARs) through postsynaptic activation of the tyrosine kinase Src. Clioquinol also improves social interaction in mice haploinsufficient for the transcription factor Tbr1, which accompanies NMDAR activation in the amygdala. These results suggest that trans-synaptic Zn mobilization induced by clioquinol rescues social deficits in mouse models of ASD through postsynaptic Src and NMDAR activation.

Abstract

Zinc is a nutritional factor implicated in autism spectrum disorders (ASDs), but evidence for a strong association and linking mechanism is largely lacking. Here, the authors report that trans-synaptic zinc mobilization rapidly rescues social interaction in two independent mouse models of ASD.

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Behavioural phenotyping assays for mouse models of autism.

Jill L. Silverman, Mu Yang, Catherine Lord … (2010)

Autism is a heterogeneous neurodevelopmental disorder of unknown aetiology that affects 1 in 100-150 individuals. Diagnosis is based on three categories of behavioural criteria: abnormal social interactions, communication deficits and repetitive behaviours. Strong evidence for a genetic basis has prompted the development of mouse models with targeted mutations in candidate genes for autism. As the diagnostic criteria for autism are behavioural, phenotyping these mouse models requires behavioural assays with high relevance to each category of the diagnostic symptoms. Behavioural neuroscientists are generating a comprehensive set of assays for social interaction, communication and repetitive behaviours to test hypotheses about the causes of autism. Robust phenotypes in mouse models hold great promise as translational tools for discovering effective treatments for components of autism spectrum disorders.

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Shank3 mutant mice display autistic-like behaviours and striatal dysfunction

João Peça, Cátia Feliciano, Jonathan T. Ting … (2011)

Autism spectrum disorders (ASDs) comprise a range of disorders that share a core of neurobehavioural deficits characterized by widespread abnormalities in social interactions, deficits in communication as well as restricted interests and repetitive behaviours. The neurological basis and circuitry mechanisms underlying these abnormal behaviours are poorly understood. Shank3 is a postsynaptic protein, whose disruption at the genetic level is thought to be responsible for development of 22q13 deletion syndrome (Phelan-McDermid Syndrome) and other non-syndromic ASDs. Here we show that mice with Shank3 gene deletions exhibit self-injurious repetitive grooming and deficits in social interaction. Cellular, electrophysiological and biochemical analyses uncovered defects at striatal synapses and cortico-striatal circuits in Shank3 mutant mice. Our findings demonstrate a critical role for Shank3 in the normal development of neuronal connectivity and establish causality between a disruption in the Shank3 gene and the genesis of autistic like-behaviours in mice.

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The neurobiology of zinc in health and disease.

Christopher Frederickson, Jae-Young Koh, Ashley Bush (2005)

The use of zinc in medicinal skin cream was mentioned in Egyptian papyri from 2000 BC (for example, the Smith Papyrus), and zinc has apparently been used fairly steadily throughout Roman and modern times (for example, as the American lotion named for its zinc ore, 'Calamine'). It is, therefore, somewhat ironic that zinc is a relatively late addition to the pantheon of signal ions in biology and medicine. However, the number of biological functions, health implications and pharmacological targets that are emerging for zinc indicate that it might turn out to be 'the calcium of the twenty-first century'.

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Author and article information

Journal

Journal ID (nlm-ta): Nat Commun

Journal ID (iso-abbrev): Nat Commun

Title: Nature Communications

Publisher: Nature Pub. Group

ISSN (Electronic): 2041-1723

Publication date (Electronic): 18 May 2015

Publication date Collection: 2015

Volume: 6

Electronic Location Identifier: 7168

Affiliations

[1 ]Graduate School of Medical Science and Engineering, Korea Advanced Institute of Science and Technology , Daejeon 305-701, Korea

[2 ]Center for Synaptic Brain Dysfunctions, Institute for Basic Science (IBS) , Daejeon 305-701, Korea

[3 ]Department of Biological Sciences, Korea Advanced Institute of Science and Technology , Daejeon 305-701, Korea

[4 ]Institute of Molecular Biology, Academia Sinica , Taipei 115, Taiwan

[5 ]Neural Injury Research Lab, University of Ulsan College of Medicine , Seoul 138-736, Korea

[6 ]Asan Institute for Life Science, University of Ulsan College of Medicine , Seoul 138-736, Korea

[7 ]Department of Neurology, University of Ulsan College of Medicine , Seoul 138-736, Korea

Author notes

[a ] yph@ 123456gate.sinica.edu.tw

[b ] kime@ 123456kaist.ac.kr

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Publisher Item ID: ncomms8168

DOI: 10.1038/ncomms8168

PMC ID: 4479043

PubMed ID: 25981743

SO-VID: 1f8f9572-f240-4a21-b1dd-f5af9b63e8b9

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Trans-synaptic zinc mobilization improves social interaction in two mouse models of autism through NMDAR activation

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Most cited references 61

Behavioural phenotyping assays for mouse models of autism.

Shank3 mutant mice display autistic-like behaviours and striatal dysfunction

The neurobiology of zinc in health and disease.

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