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Disturbed neuronal ER-Golgi sorting of unassembled glycine receptors suggests altered subcellular processing is a cause of human hyperekplexia.未组装的甘氨酸受体在神经元内质网-高尔基体分选过程中出现紊乱,这表明亚细胞加工过程的改变是人类惊跳症的一个病因。
J Neurosci. 2015 Jan 7;35(1):422-37. doi: 10.1523/JNEUROSCI.1509-14.2015.
2
Disruption of a Structurally Important Extracellular Element in the Glycine Receptor Leads to Decreased Synaptic Integration and Signaling Resulting in Severe Startle Disease.甘氨酸受体中一个结构重要的细胞外元件的破坏导致突触整合和信号传导减少,从而引发严重的惊吓疾病。
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3
A Novel Glycine Receptor Variant with Startle Disease Affects Syndapin I and Glycinergic Inhibition.一种新型甘氨酸受体变体与 startle 病有关,影响突触结合蛋白 I 和甘氨酸能抑制。
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Disturbances of Ligand Potency and Enhanced Degradation of the Human Glycine Receptor at Affected Positions G160 and T162 Originally Identified in Patients Suffering from Hyperekplexia.在患有惊跳症的患者中最初发现的G160和T162位点处,人类甘氨酸受体的配体效力紊乱及降解增强。
Front Mol Neurosci. 2015 Dec 22;8:79. doi: 10.3389/fnmol.2015.00079. eCollection 2015.
5
Molecular basis of the dominant negative effect of a glycine transporter 2 mutation associated with hyperekplexia.与惊跳症相关的甘氨酸转运体2突变显性负效应的分子基础。
J Biol Chem. 2015 Jan 23;290(4):2150-65. doi: 10.1074/jbc.M114.587055. Epub 2014 Dec 5.
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Murine startle mutant Nmf11 affects the structural stability of the glycine receptor and increases deactivation.小鼠惊吓突变体Nmf11影响甘氨酸受体的结构稳定性并增加失活。
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7
The novel hyperekplexia allele GLRA1(S267N) affects the ethanol site of the glycine receptor.新型惊跳亢进等位基因GLRA1(S267N)影响甘氨酸受体的乙醇位点。
Eur J Hum Genet. 2008 Feb;16(2):223-8. doi: 10.1038/sj.ejhg.5201958. Epub 2007 Nov 28.
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Propofol modulation of α1 glycine receptors does not require a structural transition at adjacent subunits that is crucial to agonist-induced activation.丙泊酚对α1甘氨酸受体的调制不需要相邻亚基的结构转变,而这种结构转变对激动剂诱导的激活至关重要。
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Recessive hyperekplexia mutations of the glycine receptor alpha1 subunit affect cell surface integration and stability.甘氨酸受体α1亚基的隐性惊跳亢进突变影响细胞表面整合及稳定性。
J Neurochem. 2009 Nov;111(3):837-47. doi: 10.1111/j.1471-4159.2009.06372.x. Epub 2009 Sep 1.
10
β Subunit M2-M3 loop conformational changes are uncoupled from α1 β glycine receptor channel gating: implications for human hereditary hyperekplexia.β 亚单位 M2-M3 环构象变化与 α1β 甘氨酸受体通道门控脱耦:对人类遗传性肌阵挛性张力障碍的影响。
PLoS One. 2011;6(11):e28105. doi: 10.1371/journal.pone.0028105. Epub 2011 Nov 22.

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Role of the Glycine Receptor β Subunit in Synaptic Localization and Pathogenicity in Severe Startle Disease.甘氨酸受体β亚单位在严重惊吓病中的突触定位和致病性中的作用。
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Glycine receptor autoantibody binding to the extracellular domain is independent from receptor glycosylation.甘氨酸受体自身抗体与细胞外结构域的结合独立于受体糖基化。
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Expression of Mutant Glycine Receptors in Oocytes Using Canonical and Non-Canonical Amino Acids Reveals Distinct Roles of Conserved Proline Residues.利用标准氨基酸和非标准氨基酸在卵母细胞中表达突变型甘氨酸受体揭示了保守脯氨酸残基的不同作用。
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Loss, Gain and Altered Function of GlyR α2 Subunit Mutations in Neurodevelopmental Disorders.神经发育障碍中甘氨酸受体α2亚基突变的缺失、增加及功能改变
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本文引用的文献

1
The impact of human hyperekplexia mutations on glycine receptor structure and function.人类惊跳症突变对甘氨酸受体结构和功能的影响。
Mol Brain. 2014 Jan 9;7:2. doi: 10.1186/1756-6606-7-2.
2
New hyperekplexia mutations provide insight into glycine receptor assembly, trafficking, and activation mechanisms.新的发作性强刚性痉挛突变为甘氨酸受体组装、运输和激活机制提供了新的见解。
J Biol Chem. 2013 Nov 22;288(47):33745-33759. doi: 10.1074/jbc.M113.509240. Epub 2013 Oct 9.
3
Analysis of hyperekplexia mutations identifies transmembrane domain rearrangements that mediate glycine receptor activation.分析发作性强肌痉挛症突变可识别介导甘氨酸受体激活的跨膜结构域重排。
J Biol Chem. 2013 Nov 22;288(47):33760-33771. doi: 10.1074/jbc.M113.513804. Epub 2013 Oct 4.
4
Glycine receptor mouse mutants: model systems for human hyperekplexia.甘氨酸受体小鼠突变体:人类惊跳症的模型系统。
Br J Pharmacol. 2013 Nov;170(5):933-52. doi: 10.1111/bph.12335.
5
Nicotine-modulated subunit stoichiometry affects stability and trafficking of α3β4 nicotinic receptor.尼古丁调节亚基比例会影响 α3β4 型烟碱型乙酰胆碱受体的稳定性和运输。
J Neurosci. 2013 Jul 24;33(30):12316-28. doi: 10.1523/JNEUROSCI.2393-13.2013.
6
Novel missense mutations in the glycine receptor β subunit gene (GLRB) in startle disease.发作性运动诱发性运动障碍患者甘氨酸受体β亚单位基因(GLRB)的新型错义突变。
Neurobiol Dis. 2013 Apr;52:137-49. doi: 10.1016/j.nbd.2012.12.001. Epub 2012 Dec 10.
7
GLRB is the third major gene of effect in hyperekplexia.GLRB 是发作性强刚性肌阵挛的第三大效应基因。
Hum Mol Genet. 2013 Mar 1;22(5):927-40. doi: 10.1093/hmg/dds498. Epub 2012 Nov 25.
8
The importance of TM3-4 loop subdomains for functional reconstitution of glycine receptors by independent domains.TM3-4 环亚结构域对独立结构域功能重建甘氨酸受体的重要性。
J Biol Chem. 2012 Nov 9;287(46):39205-15. doi: 10.1074/jbc.M112.376053. Epub 2012 Sep 20.
9
Histaminergic pharmacology of homo-oligomeric β3 γ-aminobutyric acid type A receptors characterized by surface plasmon resonance biosensor technology.利用表面等离子体共振生物传感器技术研究同型寡聚β3 γ-氨基丁酸 A 型受体的组氨酸能药理学。
Biochem Pharmacol. 2012 Aug 1;84(3):341-51. doi: 10.1016/j.bcp.2012.04.008. Epub 2012 Apr 15.
10
Principles of activation and permeation in an anion-selective Cys-loop receptor.阴离子选择性 Cys 环受体的激活和渗透原理。
Nature. 2011 Jun 2;474(7349):54-60. doi: 10.1038/nature10139. Epub 2011 May 15.

未组装的甘氨酸受体在神经元内质网-高尔基体分选过程中出现紊乱,这表明亚细胞加工过程的改变是人类惊跳症的一个病因。

Disturbed neuronal ER-Golgi sorting of unassembled glycine receptors suggests altered subcellular processing is a cause of human hyperekplexia.

作者信息

Schaefer Natascha, Kluck Christoph J, Price Kerry L, Meiselbach Heike, Vornberger Nadine, Schwarzinger Stephan, Hartmann Stephanie, Langlhofer Georg, Schulz Solveig, Schlegel Nadja, Brockmann Knut, Lynch Bryan, Becker Cord-Michael, Lummis Sarah C R, Villmann Carmen

机构信息

Institute for Clinical Neurobiology, Julius-Maximilians-University of Würzburg, 97078 Würzburg, Germany.

Institute of Biochemistry, Department of Biochemistry and Molecular Medicine, Friedrich-Alexander-University Erlangen-Nürnberg, 91054 Erlangen, Germany.

出版信息

J Neurosci. 2015 Jan 7;35(1):422-37. doi: 10.1523/JNEUROSCI.1509-14.2015.

DOI:10.1523/JNEUROSCI.1509-14.2015
PMID:25568133
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4287157/
Abstract

Recent studies on the pathogenic mechanisms of recessive hyperekplexia indicate disturbances in glycine receptor (GlyR) α1 biogenesis. Here, we examine the properties of a range of novel glycine receptor mutants identified in human hyperekplexia patients using expression in transfected cell lines and primary neurons. All of the novel mutants localized in the large extracellular domain of the GlyR α1 have reduced cell surface expression with a high proportion of receptors being retained in the ER, although there is forward trafficking of glycosylated subpopulations into the ER-Golgi intermediate compartment and cis-Golgi compartment. CD spectroscopy revealed that the mutant receptors have proportions of secondary structural elements similar to wild-type receptors. Two mutants in loop B (G160R, T162M) were functional, but none of those in loop D/β2-3 were. One nonfunctional truncated mutant (R316X) could be rescued by coexpression with the lacking C-terminal domain. We conclude that a proportion of GlyR α1 mutants can be transported to the plasma membrane but do not necessarily form functional ion channels. We suggest that loop D/β2-3 is an important determinant for GlyR trafficking and functionality, whereas alterations to loop B alter agonist potencies, indicating that residues here are critical elements in ligand binding.

摘要

近期关于隐性惊跳症致病机制的研究表明,甘氨酸受体(GlyR)α1生物合成存在紊乱。在此,我们利用转染细胞系和原代神经元中的表达,研究了在人类惊跳症患者中鉴定出的一系列新型甘氨酸受体突变体的特性。所有位于GlyR α1大细胞外结构域的新型突变体,其细胞表面表达均降低,且大部分受体滞留在内质网中,不过糖基化亚群会向前运输至内质网-高尔基体中间腔室和顺式高尔基体腔室。圆二色光谱显示,突变体受体的二级结构元件比例与野生型受体相似。环B中的两个突变体(G160R、T162M)具有功能,但环D/β2-3中的突变体均无功能。一个无功能的截短突变体(R316X)可通过与缺失的C末端结构域共表达而得到挽救。我们得出结论,一部分GlyR α1突变体能够转运至质膜,但不一定形成功能性离子通道。我们认为,环D/β2-3是GlyR转运和功能的重要决定因素,而环B的改变会改变激动剂效力,表明此处的残基是配体结合的关键元件。