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Common Pathophysiology in Multiple Mouse Models of Pitt-Hopkins Syndrome.多种匹兹堡综合征小鼠模型的共同病理生理学。
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Autism-like behaviours and enhanced memory formation and synaptic plasticity in Lrfn2/SALM1-deficient mice.Lrfn2/SALM1 缺失小鼠表现出类自闭症行为以及增强的记忆形成和突触可塑性。
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Operation and plasticity of hippocampal CA3 circuits: implications for memory encoding.海马 CA3 回路的运作和可塑性:对记忆编码的启示。
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Genetic Disruption of Arc/Arg3.1 in Mice Causes Alterations in Dopamine and Neurobehavioral Phenotypes Related to Schizophrenia.小鼠中Arc/Arg3.1的基因破坏导致与精神分裂症相关的多巴胺和神经行为表型改变。
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Social Preference and Glutamatergic Dysfunction: Underappreciated Prerequisites for Social Dysfunction in Schizophrenia.社会偏好与谷氨酸能功能障碍:精神分裂症社会功能障碍未被充分认识的先决条件。
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Behavioral, Neurophysiological, and Synaptic Impairment in a Transgenic Neuregulin1 (NRG1-IV) Murine Schizophrenia Model.转基因神经调节蛋白1(NRG1-IV)小鼠精神分裂症模型中的行为、神经生理学和突触损伤
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A Review of Impaired Neuroplasticity in Schizophrenia Investigated with Non-invasive Brain Stimulation.无创脑刺激研究精神分裂症中神经可塑性受损的综述
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Mice with Shank3 Mutations Associated with ASD and Schizophrenia Display Both Shared and Distinct Defects.携带与自闭症谱系障碍和精神分裂症相关的Shank3突变的小鼠表现出共同和独特的缺陷。
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Defects in Synaptic Plasticity, Reduced NMDA-Receptor Transport, and Instability of Postsynaptic Density Proteins in Mice Lacking Microtubule-Associated Protein 1A.缺乏微管相关蛋白1A的小鼠中突触可塑性缺陷、NMDA受体转运减少及突触后致密蛋白的不稳定性
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驱动蛋白 Kif3b 突变减少 NMDA 受体亚单位 NR2A 的转运,并导致小鼠出现类似精神分裂症的表型。

Kinesin Kif3b mutation reduces NMDAR subunit NR2A trafficking and causes schizophrenia-like phenotypes in mice.

机构信息

Department of Cell Biology and Anatomy, Graduate School of Medicine, The University of Tokyo, Tokyo, Japan.

Department of Biological Science, Faculty of Sciences, King Abdulaziz University, Jeddah, Saudi Arabia.

出版信息

EMBO J. 2020 Jan 2;39(1):e101090. doi: 10.15252/embj.2018101090. Epub 2019 Nov 20.

DOI:10.15252/embj.2018101090
PMID:31746486
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6939202/
Abstract

The transport of N-methyl-d-aspartate receptors (NMDARs) is crucial for neuronal plasticity and synapse formation. Here, we show that KIF3B, a member of the kinesin superfamily proteins (KIFs), supports the transport of vesicles simultaneously containing NMDAR subunit 2A (NR2A) and the adenomatous polyposis coli (APC) complex. Kif3b neurons exhibited a reduction in dendritic levels of both NR2A and NR2B due to the impaired transport of NR2A and increased degradation of NR2B. In Kif3b hippocampal slices, electrophysiological NMDAR response was found decreased and synaptic plasticity was disrupted, which corresponded to a common feature of schizophrenia (SCZ). The histological features of Kif3b mouse brain also mimicked SCZ features, and Kif3b mice exhibited behavioral defects in prepulse inhibition (PPI), social interest, and cognitive flexibility. Indeed, a mutation of KIF3B was specifically identified in human SCZ patients, which was revealed to be functionally defective in a rescue experiment. Therefore, we propose that KIF3B transports NR2A/APC complex and that its dysfunction is responsible for SCZ pathogenesis.

摘要

N-甲基-D-天冬氨酸受体(NMDARs)的转运对于神经元可塑性和突触形成至关重要。在这里,我们表明驱动蛋白超家族蛋白(KIFs)的成员 KIF3B 支持同时包含 NMDAR 亚基 2A(NR2A)和腺瘤性结肠息肉病(APC)复合物的囊泡的转运。由于 NR2A 的转运受损和 NR2B 的降解增加,Kif3b 神经元表现出树突中 NR2A 和 NR2B 的水平降低。在 Kif3b 海马切片中,发现 NMDAR 电生理反应降低,突触可塑性受到破坏,这与精神分裂症(SCZ)的一个共同特征相对应。Kif3b 小鼠大脑的组织学特征也模拟了 SCZ 的特征,并且 Kif3b 小鼠在预脉冲抑制(PPI)、社交兴趣和认知灵活性方面表现出行为缺陷。事实上,在人类 SCZ 患者中专门鉴定出了 KIF3B 的突变,在挽救实验中发现该突变在功能上存在缺陷。因此,我们提出 KIF3B 转运 NR2A/APC 复合物,其功能障碍是导致 SCZ 发病机制的原因。