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在果蝇轴突模式形成过程中,Abl信号通路发生分支以平衡Enabled和Rac信号。

The Abl pathway bifurcates to balance Enabled and Rac signaling in axon patterning in Drosophila.

作者信息

Kannan Ramakrishnan, Song Jeong-Kuen, Karpova Tatiana, Clarke Akanni, Shivalkar Madhuri, Wang Benjamin, Kotlyanskaya Lyudmila, Kuzina Irina, Gu Qun, Giniger Edward

机构信息

National Institute of Neurological Disorders and Stroke, National Institutes of Health, Bethesda, MD 20892, USA.

National Cancer Institute, National Institutes of Health, Bethesda, MD 20892, USA.

出版信息

Development. 2017 Feb 1;144(3):487-498. doi: 10.1242/dev.143776. Epub 2017 Jan 13.

DOI:10.1242/dev.143776
PMID:28087633
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5341800/
Abstract

The Abl tyrosine kinase signaling network controls cell migration, epithelial organization, axon patterning and other aspects of development. Although individual components are known, the relationships among them remain unresolved. We now use FRET measurements of pathway activity, analysis of protein localization and genetic epistasis to dissect the structure of this network in Drosophila We find that the adaptor protein Disabled stimulates Abl kinase activity. Abl suppresses the actin-regulatory factor Enabled, and we find that Abl also acts through the GEF Trio to stimulate the signaling activity of Rac GTPase: Abl gates the activity of the spectrin repeats of Trio, allowing them to relieve intramolecular repression of Trio GEF activity by the Trio N-terminal domain. Finally, we show that a key target of Abl signaling in axons is the WAVE complex that promotes the formation of branched actin networks. Thus, we show that Abl constitutes a bifurcating network, suppressing Ena activity in parallel with stimulation of WAVE. We suggest that the balancing of linear and branched actin networks by Abl is likely to be central to its regulation of axon patterning.

摘要

Abl酪氨酸激酶信号网络控制细胞迁移、上皮组织形成、轴突模式化以及发育的其他方面。尽管各个组成部分已为人所知,但它们之间的关系仍未明确。我们现在利用对信号通路活性的荧光共振能量转移测量、蛋白质定位分析和遗传上位性分析,来剖析果蝇中这个网络的结构。我们发现衔接蛋白Disabled能刺激Abl激酶活性。Abl抑制肌动蛋白调节因子Enabled,并且我们发现Abl还通过鸟嘌呤核苷酸交换因子Trio来刺激Rac GTP酶的信号活性:Abl控制Trio的血影蛋白重复序列的活性,使其能够解除Trio N端结构域对Trio鸟嘌呤核苷酸交换因子活性的分子内抑制。最后,我们表明轴突中Abl信号的一个关键靶点是促进分支肌动蛋白网络形成的WAVE复合物。因此,我们表明Abl构成一个分叉网络,在抑制Ena活性的同时平行刺激WAVE。我们认为Abl对线性和分支肌动蛋白网络的平衡可能是其调节轴突模式化的核心。

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