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


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.

SUBMITTER: Lee EJ 

PROVIDER: S-EPMC4479043 | biostudies-literature | 2015 May

REPOSITORIES: biostudies-literature

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

Lee Eun-Jae EJ   Lee Hyejin H   Huang Tzyy-Nan TN   Chung Changuk C   Shin Wangyong W   Kim Kyungdeok K   Koh Jae-Young JY   Hsueh Yi-Ping YP   Kim Eunjoon E  

Nature communications 20150518


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 scaffol  ...[more]

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