Both GEF domains of the autism and developmental epileptic encephalopathy-associated Trio protein are required for proper tangential migration of GABAergic interneurons

IF 9.6 1区 医学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY
Lara Eid, Ludmilla Lokmane, Praveen K. Raju, Samuel Boris Tene Tadoum, Xiao Jiang, Karolanne Toulouse, Alexis Lupien-Meilleur, François Charron-Ligez, Asmaa Toumi, Stéphanie Backer, Mathieu Lachance, Marisol Lavertu-Jolin, Marie Montseny, Jean-Claude Lacaille, Evelyne Bloch-Gallego, Elsa Rossignol
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Abstract

Recessive and de novo mutations in the TRIO gene are associated with intellectual deficiency (ID), autism spectrum disorder (ASD) and developmental epileptic encephalopathies (DEE). TRIO is a dual guanine nucleotide exchange factor (GEF) that activates Rac1, Cdc42 and RhoA. Trio has been extensively studied in excitatory neurons, and has recently been found to regulate the switch from tangential to radial migration in GABAergic interneurons (INs) through GEFD1-Rac1-dependent SDF1α/CXCR4 signaling. Given the central role of Rho-GTPases during neuronal migration and the implication of IN pathologies in ASD and DEE, we investigated the relative roles of both Trio’s GEF domains in regulating the dynamics of INs tangential migration. In Trio–/– mice, we observed reduced numbers of tangentially migrating INs, with intact progenitor proliferation. Further, we noted increased growth cone collapse in developing INs, suggesting altered cytoskeleton dynamics. To bypass the embryonic mortality of Trio–/– mice, we generated Dlx5/6Cre;Trioc/c conditional mutant mice (TriocKO), which develop spontaneous seizures and behavioral deficits reminiscent of ASD and ID. These phenotypes are associated with reduced cortical IN density and functional cortical inhibition. Mechanistically, this reduction of cortical IN numbers reflects a premature switch to radial migration, with an aberrant early entry in the cortical plate, as well as major deficits in cytoskeletal dynamics, including enhanced leading neurite branching and slower nucleokinesis reflecting reduced actin filament condensation and turnover as well as a loss of response to the motogenic effect of EphA4/ephrin A2 reverse signaling. Further, we show that both Trio GEFD1 and GEFD2 domains are required for proper IN migration, with a dominant role of the RhoA-activating GEFD2 domain. Altogether, our data show a critical role of the DEE/ASD-associated Trio gene in the establishment of cortical inhibition and the requirement of both GEF domains in regulating IN migration dynamics.

Abstract Image

自闭症和发育性癫痫脑病相关三体蛋白的两个 GEF 域都是 GABA 能中间神经元正常切向迁移所必需的
TRIO 基因的隐性突变和从头突变与智力缺陷(ID)、自闭症谱系障碍(ASD)和发育性癫痫性脑病(DEE)有关。TRIO 是一种双重鸟嘌呤核苷酸交换因子(GEF),可激活 Rac1、Cdc42 和 RhoA。人们对兴奋性神经元中的 Trio 进行了广泛研究,最近发现 Trio 可通过 GEFD1-Rac1 依赖性 SDF1α/CXCR4 信号传导调节 GABA 能中间神经元(IN)从切向迁移到径向迁移的转换。鉴于 Rho-GTP 酶在神经元迁移过程中的核心作用以及 IN 在 ASD 和 DEE 中的病理暗示,我们研究了 Trio 的两个 GEF 结构域在调节 IN 切向迁移动态中的相对作用。在 Trio/- 的小鼠中,我们观察到切向迁移的 IN 数量减少,而祖细胞增殖完好无损。此外,我们还注意到发育中的 IN 的生长锥塌陷增加,这表明细胞骨架动力学发生了改变。为了避免 Trio-/- 小鼠的胚胎死亡,我们产生了 Dlx5/6Cre;Trioc/c 条件突变小鼠(TriocKO),这种小鼠会出现自发性癫痫发作和行为缺陷,让人联想到 ASD 和 ID。这些表型与皮质 IN 密度降低和皮质功能抑制有关。从机理上讲,皮质 IN 数量的减少反映了向径向迁移的过早转换,皮质板的早期进入异常,以及细胞骨架动力学的重大缺陷,包括前导神经元分支的增强和核运动的减慢,反映了肌动蛋白丝凝聚和周转的减少,以及对 EphA4/ephrin A2 反向信号转导的促动效应反应的丧失。此外,我们还发现三体 GEFD1 和 GEFD2 结构域都是 IN 正常迁移所必需的,其中 RhoA 激活型 GEFD2 结构域起主导作用。总之,我们的数据表明,DEE/ASD相关的Trio基因在皮层抑制的建立中起着关键作用,在调节IN迁移动力学中需要两个GEF结构域。
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来源期刊
Molecular Psychiatry
Molecular Psychiatry 医学-精神病学
CiteScore
20.50
自引率
4.50%
发文量
459
审稿时长
4-8 weeks
期刊介绍: Molecular Psychiatry focuses on publishing research that aims to uncover the biological mechanisms behind psychiatric disorders and their treatment. The journal emphasizes studies that bridge pre-clinical and clinical research, covering cellular, molecular, integrative, clinical, imaging, and psychopharmacology levels.
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