Shank3 缺失型大鼠前额叶皮质突触超微结构的改变。

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

机构信息

Nash Family Department of Neuroscience, Hess Center for Science and Medicine, Icahn School of Medicine at Mount Sinai, 1470 Madison Avenue, New York, NY, 10029, USA.

Friedman Brain Institute, Icahn School of Medicine at Mount Sinai, New York, NY, USA.

出版信息

Mol Autism. 2020 Nov 17;11(1):89. doi: 10.1186/s13229-020-00393-8.

DOI:10.1186/s13229-020-00393-8

PMID:33203459

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7671669/

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 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.

摘要

背景

SHANK3 的缺失或突变导致了 Phelan-McDermid 综合征和单基因自闭症谱系障碍（ASD）。SHANK3 在兴奋性谷氨酸能突触处编码其同名支架蛋白。在 Shank3 缺陷的动物模型中，海马体、小脑和纹状体中的树突和棘突形态发生改变与行为障碍有关。鉴于这些动物存在注意力缺陷，我们的研究探讨了在大鼠模型中缺乏 Shank3 是否会改变内侧前额叶皮质（mPFC）中的神经元形态和突触超微结构。

方法

我们评估了 Shank3 纯合敲除（Shank3-KO）、杂合（Shank3-Het）和野生型（WT）大鼠 mPFC 层 III 神经元的树突和棘突形态以及棘突密度。我们使用电子显微镜确定这些大鼠 mPFC 层 III 兴奋性神经元中不对称突触的密度。我们测量了这些突触的突触后密度（PSD）长度、PSD 面积和棘突头直径（HD）。

结果

三种基因型之间的基础树突形态相似。棘突密度和形态相似，但 Shank3-Het 组的薄棘突和蘑菇棘突比 WT 和 Shank3-KO 组具有更大的头体积。三组的突触密度和 PSD 长度相当。Shank3-Het 大鼠的总突触和非穿孔突触的棘突 HD 明显大于 WT 大鼠，但 Shank3-KO 大鼠没有。Shank3-Het 大鼠的总和非穿孔 PSD 面积明显大于 Shank3-KO 大鼠。这些发现代表了缺乏一个 Shank3 拷贝的大鼠 mPFC 中突触超微结构改变的初步证据，并且模拟了 Phelan-McDermid 综合征中 SHANK3 的杂合丢失。

局限性

我们使用的大鼠 Shank3 缺失模型不会影响蛋白的所有异构体，并且仅会模拟导致蛋白 N 端缺失的突变的影响。鉴于 ASD 在男性中的发病率较高，该超微结构研究仅专注于雄性 Shank3 缺陷大鼠的突触结构。

结论

我们观察到 Shank3-Het 大鼠的 HD 和 PSD 面积增加。这些观察结果表明，在该动物模型中存在突触超微结构改变，进一步表明 Shank3 蛋白表达缺陷在 ASD 和 Phelan-McDermid 综合征中的关键作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9a70/7672959/c66279b200e1/13229_2020_393_Fig1_HTML.jpg

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Shank3 缺失型大鼠前额叶皮质突触超微结构的改变。

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

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

LIMITATIONS

CONCLUSIONS

背景

方法

结果

局限性

结论

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