果蝇 Rae1 控制泛素连接酶 Highwire 在有丝分裂后神经元中的丰度。

Drosophila Rae1 controls the abundance of the ubiquitin ligase Highwire in post-mitotic neurons.

机构信息

Neuroscience Center of Excellence, Louisiana State University Health Sciences Center, New Orleans, Louisiana, USA.

出版信息

Nat Neurosci. 2011 Aug 28;14(10):1267-75. doi: 10.1038/nn.2922.

DOI:10.1038/nn.2922

PMID:21874015

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3183334/

Abstract

The evolutionarily conserved Highwire (Hiw)/Drosophila Fsn E3 ubiquitin ligase complex is required for normal synaptic morphology during development and axonal regeneration after injury. However, little is known about the molecular mechanisms that regulate the Hiw E3 ligase complex. Using tandem affinity purification techniques, we identified Drosophila Rae1 as a previously unknown component of the Hiw/Fsn complex. Loss of Rae1 function in neurons results in morphological defects at the neuromuscular junction that are similar to those seen in hiw mutants. We found that Rae1 physically and genetically interacts with Hiw and restrains synaptic terminal growth by regulating the MAP kinase kinase kinase Wallenda. Moreover, we found that the Rae1 is both necessary and sufficient to promote Hiw protein abundance, and it does so by binding to Hiw and protecting Hiw from autophagy-mediated degradation. These results describe a previously unknown mechanism that selectively controls Hiw protein abundance during synaptic development.

摘要

高度保守的 Highwire（Hiw）/果蝇 Fsn E3 泛素连接酶复合物对于发育过程中的正常突触形态和损伤后的轴突再生是必需的。然而，调控 Hiw E3 连接酶复合物的分子机制知之甚少。利用串联亲和纯化技术，我们鉴定出 Rae1 是 Hiw/Fsn 复合物的一个先前未知的组成部分。神经元中 Rae1 功能的丧失导致神经肌肉接头的形态缺陷，与 hiw 突变体中观察到的缺陷相似。我们发现 Rae1 与 Hiw 具有物理和遗传相互作用，并通过调节 MAP 激酶激酶激酶 Wallenda 来限制突触末端的生长。此外，我们发现 Rae1 既必需又足以促进 Hiw 蛋白丰度，它通过与 Hiw 结合并防止 Hiw 被自噬介导的降解来实现这一点。这些结果描述了一个以前未知的机制，该机制在突触发育过程中选择性地控制 Hiw 蛋白丰度。

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