Dishevelled的DIX结构域通过动态聚合赋予Wnt信号传导。

The DIX domain of Dishevelled confers Wnt signaling by dynamic polymerization.

作者信息

Schwarz-Romond Thomas, Fiedler Marc, Shibata Naoki, Butler P Jonathan G, Kikuchi Akira, Higuchi Yoshiki, Bienz Mariann

机构信息

Medical Research Council Laboratory of Molecular Biology, Hills Road, Cambridge CB2 2QH, UK.

出版信息

Nat Struct Mol Biol. 2007 Jun;14(6):484-92. doi: 10.1038/nsmb1247. Epub 2007 May 27.

DOI:10.1038/nsmb1247

PMID:17529994

Abstract

The Wnt signaling pathway controls numerous cell fates in animal development and is also a major cancer pathway. Dishevelled (Dvl) transduces the Wnt signal by interacting with the cytoplasmic Axin complex. Dvl and Axin each contain a DIX domain whose molecular properties and structure are unknown. Here, we demonstrate that the DIX domain of Dvl2 mediates dynamic polymerization, which is essential for the signaling activity of Dvl2. The purified domain polymerizes gradually, reversibly and in a concentration dependent manner, ultimately forming fibrils. The Axin DIX domain has a novel structural fold largely composed of beta-strands that engage in head-to-tail self-interaction to form filaments in the crystal. The DIX domain thus seems to mediate the formation of a dynamic interaction platform with a high local concentration of binding sites for transient Wnt signaling partners; this represents a previously uncharacterized mechanistic principle, signaling by reversible polymerization.

摘要

Wnt信号通路在动物发育过程中控制着众多细胞命运，同时也是一条主要的癌症相关通路。散乱蛋白（Dvl）通过与细胞质中的轴蛋白复合物相互作用来转导Wnt信号。Dvl和轴蛋白均含有一个DIX结构域，其分子特性和结构尚不清楚。在此，我们证明Dvl2的DIX结构域介导动态聚合反应，这对于Dvl2的信号传导活性至关重要。纯化后的该结构域会逐渐、可逆且以浓度依赖的方式聚合，最终形成纤维状结构。轴蛋白的DIX结构域具有一种新颖的结构折叠，主要由β链组成，这些β链在晶体中通过头对头的自我相互作用形成细丝。因此，DIX结构域似乎介导了一个动态相互作用平台的形成，该平台具有高局部浓度的瞬时Wnt信号传导伙伴结合位点；这代表了一种以前未被描述的作用机制原理，即通过可逆聚合进行信号传导。

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Dishevelled的DIX结构域通过动态聚合赋予Wnt信号传导。

The DIX domain of Dishevelled confers Wnt signaling by dynamic polymerization.

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