Amelioration of autism-like social deficits by targeting histone methyltransferases EHMT1/2 in Shank3-deficient mice

Wang, Zijun; Zhong, Ping; Ma, Kaijie; Seo, Ji-Seon; Yang, Fan; Hu, Zihua; Zhang, Freddy; Lin, Lin; Wang, Jie; Liu, Tao; Matas, Emmanuel; Greengard, Paul; Yan, Zhen

doi:10.1038/s41380-019-0351-2

Cited by 57 publications

(89 citation statements)

References 67 publications

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“…We thus speculate that the aversive pressure imposed by light exposure alone in LDB is insufficient to suppress the drive for social reward in Shank3 +/ΔC and BTBR mice. There is an apparent contradiction as Shank3 +/ΔC mice display social withdrawal symptoms in the social approach test 17 In the modified EPM protocols, Shank3 +/ΔC and BTBR mice displayed a significantly lower SII in the social incentive trial than the object incentive trial, suggesting that in these ASD models, the incentive to engage in an interaction with a novel object may exceed that of a social stimulus. However, the SII for WT animals did not differ between the object-and social-incentive trials, which appears in contrast to 3-chamber social preference findings in which WT animals routinely demonstrate a significant preference for the social stimulus over a novel object.…”

Section: Discussionmentioning

confidence: 99%

“…Sample sizes were based on power analyses with current sample size providing a power of 0.95 for P < .05, which were similar to those reported previously. 17 Data in figures are presented as mean ± SEM. F values, degrees of freedom, and P values for all ANOVAs, as well as t values and degrees of freedom for t tests, are included within the text for all statistical analyses performed.…”

Section: Discussionmentioning

confidence: 99%

“…However, the SII for WT animals did not differ between the object-and social-incentive trials, which appears in contrast to 3-chamber social preference findings in which WT animals routinely demonstrate a significant preference for the social stimulus over a novel object. 16,17 We theorize that the lack of difference between the WT object-and social-stimulus incentive indexes is due to differences in testing parameters between the traditional 3-chamber paradigm and the EPM models used here. Principally, the 3-chamber paradigm exposes the test mouse to a social stimulus and a novel object simultaneously, forcing the test animal to actively choose to interact with one stimulus over the other, which typically results in a time distribution favoring the social stimulus over the object.…”

Section: Discussionmentioning

confidence: 99%

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Diminished social interaction incentive contributes to social deficits in mouse models of autism spectrum disorder

Rein

Yan

Wang

2019

Genes Brain and Behavior

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One of the core symptoms of autism spectrum disorder (ASD) is impaired social interaction. Currently, no pharmacotherapies exist for this symptom due to complex biological underpinnings and distinct genetic models which fail to represent the broad disease spectrum. One convincing hypothesis explaining social deficits in human ASD patients is amotivation, however it is unknown whether mouse models of ASD represent this condition. Here we used two highly trusted ASD mouse models (male Shank3-deficient [Shank3 +/ΔC ] mice modeling the monogenic etiology of ASD, and inbred BTBR mice [both male and female] modeling the idiopathic and highly polygenic pathology for ASD) to evaluate the level of motivation to engage in a social interaction. In the behavioral paradigms utilized, a social stimulus was placed in the open arm of the elevated plus maze (EPM), or the light compartment of the light-dark box (LDB). To engage in a social interaction, mice were thus required to endure innately aversive conditions (open areas, height, and/or light). In the modified EPM paradigm, both Shank3 +/ΔC and BTBR mice demonstrated decreased open-arm engagement with a social stimulus but not a novel object, suggesting reduced incentive to engage in a social interaction in these models. However, these deficits were not expressed under the less severe aversive pressures of the LDB. Collectively, we show that ASD mouse models exhibit diminished social interaction incentive, and provide a new investigation strategy facilitating the study of the neurobiological mechanisms underlying social reward and motivation deficits in neuropsychiatric disorders.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

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Diminished social interaction incentive contributes to social deficits in mouse models of autism spectrum disorder

Rein

Yan

Wang

2019

Genes Brain and Behavior

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“…In the present study, we investigated whether the loss-offunction of CNTNAP2 or AHI1 resulted in common phenotypes of synaptic dysfunction and ASD-related behavior in mice. We performed knockdown of CNTNAP2 or AHI1 in layer 2/3 pyramidal neurons of the mouse prefrontal cortex (PFC), which has been implicated in social behavior and ASD 23,[34][35][36][37][38][39][40][41][42][43] . We found that knockdown of CNTNAP2 in layer 2/3 pyramidal neurons of the PFC reduced excitatory and inhibitory synaptic transmission presumably by decreasing the number of functional synapses, elevated inhibition/excitation (I/E) balance, impaired social interaction, and induced mild pup vocalization abnormality.…”

mentioning

confidence: 99%

Autism spectrum disorder-like behavior caused by reduced excitatory synaptic transmission in pyramidal neurons of mouse prefrontal cortex

et al. 2020

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Autism spectrum disorder (ASD) is thought to result from deviation from normal development of neural circuits and synaptic function. Many genes with mutation in ASD patients have been identified. Here we report that two molecules associated with ASD susceptibility, contactin associated protein-like 2 (CNTNAP2) and Abelson helper integration site-1 (AHI1), are required for synaptic function and ASD-related behavior in mice. Knockdown of CNTNAP2 or AHI1 in layer 2/3 pyramidal neurons of the developing mouse prefrontal cortex (PFC) reduced excitatory synaptic transmission, impaired social interaction and induced mild vocalization abnormality. Although the causes of reduced excitatory transmission were different, pharmacological enhancement of AMPA receptor function effectively restored impaired social behavior in both CNTNAP2- and AHI1-knockdown mice. We conclude that reduced excitatory synaptic transmission in layer 2/3 pyramidal neurons of the PFC leads to impaired social interaction and mild vocalization abnormality in mice.

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“…A study in the mouse brain found that proteins interacting with Shank3 in the PFC are different from those in the hippocampus and striatum (93). PFC-speci c epigenetic modi cations of histones, such as higher dimethylation (94) and lower acetylation (95) in Shank3-Het mice with an exon 21 deletion and higher dimethylation in postmortem ASD brains (94), suggest a brain region-speci c mechanism for regulation of protein expression. Notably, the expression of Shank3 is highest in the PFC compared to other regions in the macaque brain (75), whereas Shank3 isoforms containing ANK domain are highly expressed in the upper cortical layers, hippocampus and striatum of the mouse brain (96).…”

Section: Discussionmentioning

confidence: 99%

Altered synaptic ultrastructure in the prefrontal cortex of Shank3-deficient rats

Jacot-Descombes

Keshav

Dickstein

et al. 2020

Preprint

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Abstract Background Deletion or mutations of SHANK3 lead to Phelan-McDermid syndrome and monogenic forms of autism spectrum disorder (ASD). SHANK3 encodes its eponymous scaffolding protein at excitatory glutamatergic synapses. Altered morphology of dendrites and spines in the hippocampus, cerebellum, and striatum have been associated with behavioral impairments in Shank3-deficient animal models. Given the attentional deficit in these animals, our study explored whether deficiency of Shank3 in a rat model alters neuron morphology and synaptic ultrastructure in the medial prefrontal cortex (mPFC). Methods We assessed dendrite and spine morphology and spine density in mPFC layer III neurons in Shank3 -homozygous knockout ( Shank3 -KO), heterozygous ( Shank3 -Het), and wild-type (WT) rats. We used electron microscopy to determine the density of asymmetric synapses in mPFC layer III excitatory neurons in these rats. We measured postsynaptic density (PSD) length, PSD area, and head diameter (HD) of spines at these synapses. Results Basal dendritic morphology was similar among the three genotypes. Spine density and morphology were comparable, but more thin and mushroom spines had larger head volumes in Shank3 -Het compared to WT and Shank3 -KO. All three groups had comparable synapse density and PSD length. Spine HD of total and non-perforated synapses in Shank3 -Het rats, but not Shank3 -KO rats, was significantly larger than in WT rats. The total and non-perforated PSD area was significantly larger in Shank3 -Het rats compared to Shank3 -KO rats. These findings represent preliminary evidence for synaptic ultrastructural alterations in the mPFC of rats that lack one copy of Shank3 and mimic the heterozygous loss of SHANK3 in Phelan-McDermid syndrome. Limitations The Shank3 deletion in the rat model we used does not affect all isoforms of the protein and would only model the effect of the mutations resulting in loss of the N-terminus of the protein. Given the higher prevalence of ASD in males, the ultrastructural study focused only on synaptic structure in male Shank3 -deficient rats. Conclusions We observed increased HD and PSD area in Shank3 -Het rats. These observations suggest the occurrence of altered synaptic ultrastructure in this animal model, further pointing to a key role of defective expression of the Shank3 protein in ASD and Phelan-McDermid syndrome.

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Amelioration of autism-like social deficits by targeting histone methyltransferases EHMT1/2 in Shank3-deficient mice

Cited by 57 publications

References 67 publications

Diminished social interaction incentive contributes to social deficits in mouse models of autism spectrum disorder

Diminished social interaction incentive contributes to social deficits in mouse models of autism spectrum disorder

Autism spectrum disorder-like behavior caused by reduced excitatory synaptic transmission in pyramidal neurons of mouse prefrontal cortex

Altered synaptic ultrastructure in the prefrontal cortex of Shank3-deficient rats

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