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利用神经元定义突触前形态调节因子1(RPM-1)中的最小结合区域揭示了不同的信号复合物。

Defining Minimal Binding Regions in Regulator of Presynaptic Morphology 1 (RPM-1) Using Neurons Reveals Differential Signaling Complexes.

作者信息

Baker Scott T, Grill Brock

机构信息

From the Department of Neuroscience, The Scripps Research Institute, Scripps Florida, Jupiter, Florida 33458.

From the Department of Neuroscience, The Scripps Research Institute, Scripps Florida, Jupiter, Florida 33458

出版信息

J Biol Chem. 2017 Feb 10;292(6):2519-2530. doi: 10.1074/jbc.M116.748004. Epub 2016 Dec 15.

DOI:10.1074/jbc.M116.748004
PMID:27979965
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5313118/
Abstract

The intracellular signaling protein regulator of presynaptic morphology 1 (RPM-1) is a conserved regulator of synapse formation and axon termination in RPM-1 functions in a ubiquitin ligase complex with the F-box protein FSN-1 and functions through the microtubule binding protein RAE-1. Using a structure-function approach and positive selection for transgenic , we explored the biochemical relationship between RPM-1, FSN-1, and RAE-1. This led to the identification of two new domains in RPM-1 that are sufficient for binding to FSN-1, called FSN-1 binding domain 2 (FBD2) and FBD3. Furthermore, we map the RAE-1 binding domain to a much smaller region of RPM-1. Point mutations in RPM-1 that reduce binding to RAE-1 did not affect FSN-1 binding, indicating that RPM-1 utilizes different biochemical mechanisms to bind these molecules. Analysis of RPM-1 protein complexes in the neurons of elucidated two further discoveries: FSN-1 binds to RAE-1, and this interaction is not mediated by RPM-1, and RPM-1 binding to FSN-1 and RAE-1 reduces FSN-1·RAE-1 complex formation. These results indicate that RPM-1 uses different mechanisms to recruit FSN-1 and RAE-1 into independent signaling complexes in neurons.

摘要

突触前形态调节蛋白1(RPM-1)是一种保守的突触形成和轴突终末调节因子,RPM-1在与F-box蛋白FSN-1形成的泛素连接酶复合物中发挥作用,并通过微管结合蛋白RAE-1发挥功能。利用结构-功能方法和对转基因的正向选择,我们探究了RPM-1、FSN-1和RAE-1之间的生化关系。这导致在RPM-1中鉴定出两个足以与FSN-1结合的新结构域,称为FSN-1结合结构域2(FBD2)和FBD3。此外,我们将RAE-1结合结构域定位到RPM-1的一个小得多的区域。RPM-1中降低与RAE-1结合的点突变不影响与FSN-1的结合,表明RPM-1利用不同的生化机制结合这些分子。对秀丽隐杆线虫神经元中RPM-1蛋白复合物的分析进一步揭示了两个发现:FSN-1与RAE-1结合,且这种相互作用不是由RPM-1介导的,并且RPM-1与FSN-1和RAE-1的结合减少了FSN-1·RAE-1复合物的形成。这些结果表明,RPM-1利用不同机制将FSN-1和RAE-1募集到神经元中的独立信号复合物中。

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本文引用的文献

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The PHR proteins: intracellular signaling hubs in neuronal development and axon degeneration.PHR蛋白:神经元发育和轴突退化中的细胞内信号枢纽
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Developmental Function of the PHR Protein RPM-1 Is Required for Learning in Caenorhabditis elegans.秀丽隐杆线虫学习过程需要PHR蛋白RPM-1的发育功能。
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Identification of a peptide inhibitor of the RPM-1 · FSN-1 ubiquitin ligase complex.RPM-1·FSN-1泛素连接酶复合物的一种肽抑制剂的鉴定。
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The Nesprin family member ANC-1 regulates synapse formation and axon termination by functioning in a pathway with RPM-1 and β-Catenin.Nesprin家族成员ANC-1通过与RPM-1和β-连环蛋白在一条信号通路中发挥作用来调节突触形成和轴突终末。
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