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本文引用的文献

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Regulation of GABAergic synapse formation and plasticity by GSK3beta-dependent phosphorylation of gephyrin.GSK3β依赖性磷酸化神经胶质原纤维酸性蛋白调节 GABA 能突触形成和可塑性。
Proc Natl Acad Sci U S A. 2011 Jan 4;108(1):379-84. doi: 10.1073/pnas.1011824108. Epub 2010 Dec 20.
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Complex role of collybistin and gephyrin in GABAA receptor clustering.胶联蛋白和神经胶质纤维酸性蛋白在 GABA 受体聚集中的复杂作用。
J Biol Chem. 2010 Sep 17;285(38):29623-31. doi: 10.1074/jbc.M110.121368. Epub 2010 Jul 9.
3
PH-domain-driven targeting of collybistin but not Cdc42 activation is required for synaptic gephyrin clustering.PH 结构域驱动的 collybistin 靶向而非 Cdc42 活化对于突触 gephyrin 簇集是必需的。
Eur J Neurosci. 2010 Apr;31(7):1173-84. doi: 10.1111/j.1460-9568.2010.07149.x. Epub 2010 Mar 19.
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Neuroligin 2 drives postsynaptic assembly at perisomatic inhibitory synapses through gephyrin and collybistin.神经连接蛋白2通过桥连蛋白和结肠直肠癌缺失蛋白驱动躯体周围抑制性突触的突触后组装。
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Neuroligin 2 controls the maturation of GABAergic synapses and information processing in the retina.神经连接蛋白2控制视网膜中γ-氨基丁酸能突触的成熟和信息处理。
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The genetics of hyperekplexia: more than startle!惊跳症的遗传学:不止于惊吓!
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A balanced chromosomal translocation disrupting ARHGEF9 is associated with epilepsy, anxiety, aggression, and mental retardation.一种破坏ARHGEF9的平衡染色体易位与癫痫、焦虑、攻击性和智力迟钝有关。
Hum Mutat. 2009 Jan;30(1):61-8. doi: 10.1002/humu.20814.
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Gephyrin: where do we stand, where do we go?桥蛋白:我们现在何处,将去往何方?
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Efficient transfection of DNA or shRNA vectors into neurons using magnetofection.使用磁转染法将DNA或shRNA载体高效转染至神经元中。
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10
Diverse roles of Rho family GTPases in neuronal development, survival, and death.Rho家族小GTP酶在神经元发育、存活及死亡中的多种作用。
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卷曲螺旋蛋白结合蛋白剪接变异体与神经胶质原纤维酸性蛋白和 Cdc42 不同程度相互作用,调节 GABA 能突触处神经胶质原纤维酸性蛋白的聚集。

Collybistin splice variants differentially interact with gephyrin and Cdc42 to regulate gephyrin clustering at GABAergic synapses.

机构信息

Institute of Pharmacology and Toxicology, University of Zurich, 8057 Zurich, Switzerland.

出版信息

J Cell Sci. 2011 Aug 15;124(Pt 16):2786-96. doi: 10.1242/jcs.086199.

DOI:10.1242/jcs.086199
PMID:21807943
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3148131/
Abstract

Collybistin (CB) is a guanine-nucleotide-exchange factor (GEF) selectively activating Cdc42. CB mutations cause X-linked mental retardation due to defective clustering of gephyrin, a postsynaptic protein associated with both glycine and GABA(A) receptors. Using a combination of biochemistry and cell biology we provide novel insights into the roles of the CB2 splice variants, CB2(SH3+) and CB2(SH3-), and their substrate, Cdc42, in regulating gephyrin clustering at GABAergic synapses. Transfection of Myc-tagged CB2(SH3+) and CB2(SH3-) into cultured neurons revealed strong, but distinct, effects promoting postsynaptic gephyrin clustering, denoting mechanistic differences in their function. In addition, overexpression of constitutively active or dominant-negative Cdc42 mutants identified a new function of Cdc42 in regulating the shape and size of postsynaptic gephyrin clusters. Using biochemical assays and native brain tissue, we identify a direct interaction between gephyrin and Cdc42, independent of its activation state. Finally, our data show that CB2(SH3-), but not CB2(SH3+), can form a ternary complex with gephyrin and Cdc42, providing a biochemical substrate for the distinct contribution of these CB isoforms in gephyrin clustering at GABAergic postsynaptic sites. Taken together, our results identify CB and Cdc42 as major regulators of GABAergic postsynaptic densities.

摘要

卷曲螺旋蛋白结合蛋白 2(CB2)是一种鸟嘌呤核苷酸交换因子(GEF),能选择性激活 Cdc42。由于与甘氨酸和 GABA(A)受体都有关联的突触后蛋白网格蛋白(gephyrin)的簇集缺陷,CB 突变导致 X 连锁智力低下。我们采用生物化学和细胞生物学相结合的方法,为 CB2 剪接变体 CB2(SH3+)和 CB2(SH3-)及其底物 Cdc42 在调节 GABA 能突触中网格蛋白的簇集提供了新的见解。将 Myc 标记的 CB2(SH3+)和 CB2(SH3-)转染到培养的神经元中,发现它们具有强烈但不同的促进突触后网格蛋白簇集的作用,这表明它们在功能上存在机制上的差异。此外,过表达组成型激活或显性失活的 Cdc42 突变体,确定了 Cdc42 在调节突触后网格蛋白簇的形状和大小方面的新功能。通过生化测定和天然脑组织,我们确定了网格蛋白和 Cdc42 之间的直接相互作用,而与 Cdc42 的激活状态无关。最后,我们的数据表明,CB2(SH3-),而不是 CB2(SH3+),可以与网格蛋白和 Cdc42 形成三元复合物,为这些 CB 异构体在 GABA 能突触后位点的网格蛋白簇集中的独特贡献提供了生化基础。总之,我们的研究结果确定 CB 和 Cdc42 是 GABA 能突触后密度的主要调节因子。