Shank3 mutation manifests in abnormal gastrointestinal morphology and function in mice.

IF 3.2 3区医学 Q2 NEUROSCIENCES

Frontiers in Neuroscience Pub Date : 2025-04-17 eCollection Date: 2025-01-01 DOI:10.3389/fnins.2025.1552369

Gari L Eberly, Marie Manthey, Karen K L Pang, Heba Hussein, Emmanuel Vargas Paniagua, Scott Machen, Sara Maeve Klingensmith, Polina Anikeeva

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引用次数: 0

Abstract

Background: Gastrointestinal (GI) comorbidities are common among those with Autism Spectrum Disorder (ASD), but their etiology is not well understood. This study aimed to characterize gastrointestinal morphology and function in Shank3B mutant mice, a common genetic model of ASD, to identify potential alterations to the GI tract that could underlie ASD-associated GI comorbidities.

Methods: GI and enteric nervous system morphology was characterized using Hematoxylin and Eosin staining and immunohistochemistry. GI permeability was measured using the FITC-Dextran paracellular permeability assay. Whole-GI tract motility time was measured in vivo using the carmine dye motility assay. Colonic contractions were characterized by tracking motility using an ex vivo motility assay.

Results: Homozygous knock-out (KO) Shank3B^-/- mice exhibit significantly altered epithelial morphology and increased GI permeability. An increased myenteric plexus density and a higher number of HuC/D-expressing neurons in myenteric ganglia are observed in the colon of Shank3B^-/- mice. These mice exhibit slowed whole-GI tract transit and reduced velocity and propagation length of colonic contractions. Compared to Shank3B^-/- mice, heterozygous Shank3B^+/- mice exhibit milder epithelial, neuronal, and functional alterations.

Conclusion: Shank3B^-/- mice exhibit altered GI morphology and function, while Shank3B^+/- mice exhibit a partial phenotype. These results indicate that Shank3, whose mutation is associated with ASD, is critical for function of the GI tract and its mutation may contribute to the etiology of GI comorbidities.

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Shank3突变表现为小鼠胃肠道形态和功能异常。

背景：胃肠道（GI）合并症在自闭症谱系障碍（ASD）患者中很常见，但其病因尚不清楚。本研究旨在表征Shank3B突变小鼠（ASD的一种常见遗传模型）的胃肠道形态和功能，以确定可能导致ASD相关胃肠道合并症的胃肠道潜在改变。方法：采用苏木精染色、伊红染色及免疫组织化学对胃肠道和肠神经系统进行形态学观察。采用fitc -葡聚糖细胞旁通透性测定法测定GI通透性。采用胭脂红染料运动测定法测定体内全胃肠道运动时间。结肠收缩的特征是使用离体运动试验跟踪运动。结果：纯合子敲除（KO） Shank3B-/-小鼠表现出明显的上皮形态改变和GI通透性增加。Shank3B-/-小鼠结肠中肌丛密度增加，肌神经节中表达HuC/ d的神经元数量增加。这些小鼠表现出全胃肠道运输减慢，结肠收缩的速度和传播长度减少。与Shank3B-/-小鼠相比，杂合子Shank3B+/-小鼠表现出更轻微的上皮、神经元和功能改变。结论：Shank3B-/-小鼠表现为GI形态和功能的改变，而Shank3B+/-小鼠表现为部分表型。这些结果表明，Shank3基因突变与ASD相关，对胃肠道功能至关重要，其突变可能与胃肠道合并症的病因有关。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Frontiers in Neuroscience NEUROSCIENCES-

CiteScore

6.20

自引率

4.70%

发文量

2070

审稿时长

14 weeks

期刊介绍： Neural Technology is devoted to the convergence between neurobiology and quantum-, nano- and micro-sciences. In our vision, this interdisciplinary approach should go beyond the technological development of sophisticated methods and should contribute in generating a genuine change in our discipline.