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Plk2 抑制 Ras 以调控突触。

Plk2 Raps up Ras to subdue synapses.

作者信息

Lee Kea Joo, Hoe Hyang-Sook, Pak Daniel Ts

机构信息

Department of Pharmacology; Georgetown University; Medical Center; Washington, DC USA.

出版信息

Small GTPases. 2011 May;2(3):162-166. doi: 10.4161/sgtp.2.3.16454.

DOI:10.4161/sgtp.2.3.16454
PMID:21776418
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3136947/
Abstract

We recently identified the activity-inducible protein kinase Plk2 as a novel overseer of the balance between Ras and Rap small GTPases. Plk2 achieves a profound level of regulatory control by interacting with and phosphorylating at least four Ras and Rap guanine nucleotide exchange factors (GEFs) and GTPase activating proteins (GAPs). Combined, these actions result in synergistic suppression of Ras and hyperstimulation of Rap signaling. Perturbation of Plk2 function abolished homeostatic adaptation of synapses to enhanced activity and impaired behavioral adaptation in various learning tasks, indicating that this regulation was critical for maintaining appropriate Ras/Rap levels. These studies provide insights into the highly cooperative nature of Ras and Rap regulation in neurons. However, different GEF and GAP substrates of Plk2 also controlled specific aspects of dendritic spine morphology, illustrating the ability of individual GAPs/GEFs to assemble microdomains of Ras and Rap signaling that respond to different stimuli and couple to distinct output pathways.

摘要

我们最近确定了活性诱导蛋白激酶Plk2是Ras和Rap小GTP酶之间平衡的新型监督者。Plk2通过与至少四种Ras和Rap鸟嘌呤核苷酸交换因子(GEF)和GTP酶激活蛋白(GAP)相互作用并使其磷酸化,实现了深度的调控控制。综合起来,这些作用导致对Ras的协同抑制和对Rap信号的过度刺激。Plk2功能的扰动消除了突触对增强活动的稳态适应,并损害了各种学习任务中的行为适应,表明这种调节对于维持适当的Ras/Rap水平至关重要。这些研究为神经元中Ras和Rap调节的高度协作性质提供了见解。然而,Plk2的不同GEF和GAP底物也控制了树突棘形态的特定方面,说明了单个GAPs/GEFs组装Ras和Rap信号微结构域的能力,这些微结构域对不同刺激做出反应并与不同的输出途径耦合。

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本文引用的文献

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Neuron. 2011 Mar 10;69(5):957-73. doi: 10.1016/j.neuron.2011.02.004.
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Small G protein signaling in neuronal plasticity and memory formation: the specific role of ras family proteins.小 G 蛋白信号转导在神经元可塑性和记忆形成中的作用:ras 家族蛋白的特异性作用。
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Plk2 attachment to NSF induces homeostatic removal of GluA2 during chronic overexcitation.PLK2 与 NSF 的结合诱导 GluA2 在慢性过度兴奋期间进行稳态去除。
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Unraveling mechanisms of homeostatic synaptic plasticity.解析平衡型突触可塑性的机制。
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