A human DCC variant causing mirror movement disorder reveals that the WAVE regulatory complex mediates axon guidance by netrin-1–DCC

IF 6.7 1区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Science Signaling Pub Date : 2024-10-01 DOI:10.1126/scisignal.adk2345
Karina Chaudhari, Kaiyue Zhang, Patricia T. Yam, Yixin Zang, Daniel A. Kramer, Sarah Gagnon, Sabrina Schlienger, Sara Calabretta, Jean-Francois Michaud, Meagan Collins, Junmei Wang, Myriam Srour, Baoyu Chen, Frédéric Charron, Greg J. Bashaw
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Abstract

The axon guidance cue netrin-1 signals through its receptor DCC (deleted in colorectal cancer) to attract commissural axons to the midline. Variants in DCC are frequently associated with congenital mirror movements (CMMs). A CMM-associated variant in the cytoplasmic tail of DCC is located in a conserved motif predicted to bind to a regulator of actin dynamics called the WAVE (Wiskott-Aldrich syndrome protein–family verprolin homologous protein) regulatory complex (WRC). Here, we explored how this variant affects DCC function and may contribute to CMM. We found that a conserved WRC-interacting receptor sequence (WIRS) motif in the cytoplasmic tail of DCC mediated the interaction between DCC and the WRC. This interaction was required for netrin-1–mediated axon guidance in cultured rodent commissural neurons. Furthermore, the WIRS motif of Fra, the Drosophila DCC ortholog, was required for attractive signaling in vivo at the Drosophila midline. The CMM-associated R1343H variant of DCC, which altered the WIRS motif, prevented the DCC-WRC interaction and impaired axon guidance in cultured commissural neurons and in Drosophila. The findings reveal the WRC as a pivotal component of netrin-1–DCC signaling and uncover a molecular mechanism explaining how a human genetic variant in the cytoplasmic tail of DCC may lead to CMM.
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导致镜像运动障碍的人类 DCC 变异揭示了 WAVE 调节复合物通过净蛋白-1-DCC 介导轴突导向。
轴突导向线索netrin-1通过其受体DCC(在结直肠癌中被删除)发出信号,将神经轴突吸引到中线。DCC的变异常与先天性镜像运动(CMMs)有关。DCC胞质尾部的一个与CMM相关的变异位于一个保守基团,该基团被预测为能与一种称为WAVE(Wiskott-Aldrich综合征蛋白家族verprolin同源蛋白)调控复合物(WRC)的肌动蛋白动力学调节因子结合。在此,我们探讨了这一变异如何影响 DCC 功能并可能导致 CMM。我们发现,DCC胞质尾部的一个保守的WRC相互作用受体序列(WIRS)基序介导了DCC与WRC之间的相互作用。在培养的啮齿类神经元中,这种相互作用是网织蛋白-1介导的轴突导向所必需的。此外,果蝇 DCC 的直向同源物 Fra 的 WIRS 基序也是果蝇中线体内诱导信号转导所必需的。与CMM相关的DCC R1343H变体改变了WIRS基序,阻止了DCC-WRC相互作用,并损害了培养的神经元和果蝇的轴突导向。这些发现揭示了WRC是网织蛋白-1-DCC信号转导的关键成分,并揭示了一种分子机制,解释了DCC胞质尾部的人类遗传变异如何导致CMM。
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来源期刊
Science Signaling
Science Signaling BIOCHEMISTRY & MOLECULAR BIOLOGY-CELL BIOLOGY
CiteScore
9.50
自引率
0.00%
发文量
148
审稿时长
3-8 weeks
期刊介绍: "Science Signaling" is a reputable, peer-reviewed journal dedicated to the exploration of cell communication mechanisms, offering a comprehensive view of the intricate processes that govern cellular regulation. This journal, published weekly online by the American Association for the Advancement of Science (AAAS), is a go-to resource for the latest research in cell signaling and its various facets. The journal's scope encompasses a broad range of topics, including the study of signaling networks, synthetic biology, systems biology, and the application of these findings in drug discovery. It also delves into the computational and modeling aspects of regulatory pathways, providing insights into how cells communicate and respond to their environment. In addition to publishing full-length articles that report on groundbreaking research, "Science Signaling" also features reviews that synthesize current knowledge in the field, focus articles that highlight specific areas of interest, and editor-written highlights that draw attention to particularly significant studies. This mix of content ensures that the journal serves as a valuable resource for both researchers and professionals looking to stay abreast of the latest advancements in cell communication science.
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