A Systematic Structure-Function Characterization of a Human Mutation in Neurexin-3α Reveals an Extracellular Modulatory Sequence That Stabilizes Neuroligin-1 Binding to Enhance the Postsynaptic Properties of Excitatory Synapses.

IF 4.4 2区 医学 Q1 NEUROSCIENCES
Eric G Stokes, Hyeonho Kim, Jaewon Ko, Jason Aoto
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Abstract

α-Neurexins are essential and highly expressed presynaptic cell-adhesion molecules that are frequently linked to neuropsychiatric and neurodevelopmental disorders. Despite their importance, how the elaborate extracellular sequences of α-neurexins contribute to synapse function is poorly understood. We recently characterized the presynaptic gain-of-function phenotype caused by a missense mutation in an evolutionarily conserved extracellular sequence of neurexin-3α (A687T) that we identified in a patient diagnosed with profound intellectual disability and epilepsy. The striking A687T gain-of-function mutation on neurexin-3α prompted us to systematically test using mutants whether the presynaptic gain-of-function phenotype is a consequence of the addition of side-chain bulk (i.e., A687V) or polar/hydrophilic properties (i.e., A687S). We used multidisciplinary approaches in mixed-sex primary hippocampal cultures to assess the impact of the neurexin-3αA687 residue on synapse morphology, function and ligand binding. Unexpectedly, neither A687V nor A687S recapitulated the neurexin-3α A687T phenotype. Instead, distinct from A687T, molecular replacement with A687S significantly enhanced postsynaptic properties exclusively at excitatory synapses and selectively increased binding to neuroligin-1 and neuroligin-3 without changing binding to neuroligin-2 or LRRTM2. Importantly, we provide the first experimental evidence supporting the notion that the position A687 of neurexin-3α and the N-terminal sequences of neuroligins may contribute to the stability of α-neurexin-neuroligin-1 trans-synaptic interactions and that these interactions may specifically regulate the postsynaptic strength of excitatory synapses.

对人类 Neurexin-3α 突变的系统结构-功能特性分析揭示了一个细胞外调节序列,它能稳定神经胶质蛋白-1 的结合,从而增强兴奋性突触的突触后特性。
α-neurexins是突触前细胞粘附的重要分子,表达量很高,经常与神经精神疾病和神经发育障碍有关。尽管α-neurexins非常重要,但人们对其精心设计的细胞外序列如何促进突触功能还知之甚少。最近,我们在一名被诊断为重度智障和癫痫的患者身上发现了神经泌素-3α细胞外序列中的一个错义突变(A687T),该突变导致了突触前功能增益表型。neurexin-3α上令人震惊的A687T功能增益突变促使我们利用突变体系统地检验突触前功能增益表型是增加侧链体积(即A687V)还是极性/亲水性(即A687S)的结果。我们采用多学科方法在混性原代海马培养物中评估了神经肽-3αA687残基对突触形态、功能和配体结合的影响。意想不到的是,A687V 和 A687S 都没有重现 neurexin-3α A687T 的表型。相反,与 A687T 不同的是,用 A687S 进行分子置换可显著增强突触后特性(仅限于兴奋性突触),并选择性地增加与神经胶质蛋白-1 和神经胶质蛋白-3 的结合,而不改变与神经胶质蛋白-2 或 LRRTM2 的结合。重要的是,我们首次提供了实验证据支持这样一种观点,即神经胶质蛋白-3α的A687位和神经胶质蛋白的N端序列可能有助于α-神经胶质蛋白-神经胶质蛋白-1跨突触相互作用的稳定性,而且这些相互作用可能专门调节兴奋性突触的突触后强度。我们利用之前研究过的位于神经肽-3α细胞外保守区并与深度智障和癫痫有关的人类错义突变,系统地评估了神经肽-3α功能对该区域内突变的耐受性。通过分子置换,我们评估了该细胞外区域的单个氨基酸置换如何改变突触形态、突触前钙动力学和突触传递。我们发现,多种神经肽配体意外地利用这一区域来调节跨突触结合,而且不同的氨基酸取代疾病突变会导致突触传递发生显著不同的变化。
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来源期刊
Journal of Neuroscience
Journal of Neuroscience 医学-神经科学
CiteScore
9.30
自引率
3.80%
发文量
1164
审稿时长
12 months
期刊介绍: JNeurosci (ISSN 0270-6474) is an official journal of the Society for Neuroscience. It is published weekly by the Society, fifty weeks a year, one volume a year. JNeurosci publishes papers on a broad range of topics of general interest to those working on the nervous system. Authors now have an Open Choice option for their published articles
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