VANGL2 的 PDZ 结合基团的 PDZome 范围和结构特征。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-12-23 DOI:10.1016/j.bbapap.2023.140989
Marta Montserrat-Gomez , Gergo Gogl , Kendall Carrasco , Stephane Betzi , Fabien Durbesson , Alexandra Cousido-Siah , Camille Kostmann , Dominic J. Essig , Kristian Strømgaard , Søren Østergaard , Xavier Morelli , Gilles Trave , Renaud Vincentelli , Eric Bailly , Jean-Paul Borg
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引用次数: 0

摘要

VANGL2是非经典Wnt/平面细胞极性信号通路的核心成分,它利用其高度保守的羧基末端1型PDZ结合基序(PBM)与多种PDZ蛋白结合。在本研究中,我们使用正交方法描述并定量评估了迄今为止最大的 VANGL2 PDZome 结合图谱。我们的保留方法的结果支持 VANGL2 与一大批长期公认的和前所未有的 PDZ 结构域相互作用。对 VANGL2 PBM 的截断和点突变分析表明,除了 P-0 / V521 和 P-2 / T519 氨基酸的严格要求之外,上游残基(包括分别位于 P-3、P-5 和 P-7 的 E518、Q516 和 R514)也进一步促进了 VANGL2 与两个不同的 PDZ 结构域(SNX27 和 SCRIBBLE-PDZ3)的稳健相互作用。与这些数据一致的是,VANGL2 PBM 氨基末端的递增缺失导致其总体亲和力逐渐下降。此外,保留数据还证实,随着 E518 的截断,VANGL2 的 PDZome 结合库开始显著分化。对 SYNJ2BP-PDZ/VANGL2 与截短的 PBM 相互作用的结构分析发现,在 P-2 位置之后,PBM 肽的结合方向发生了重大构象变化。最后,我们报告说,当 S517、T519 和 S520 发生磷酸化时,VANGL2 的 PDZome 结合谱发生了显著的重新排列。我们的晶体学方法说明了 SYNJ2BP 如何通过 K48 和 R86 这两个基本残基的理想定位来容纳 S520 磷酸化的 PBM 肽。总之,我们的数据提供了一个关于 VANGL2 PDZ 网络以及该网络如何对不同 PBM 残基的翻译后修饰做出特异性反应的全面视角。这些发现将有助于指导未来对 PCP 关键成分 VANGL2 的功能和分子研究。
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PDZome-wide and structural characterization of the PDZ-binding motif of VANGL2

VANGL2 is a core component of the non-canonical Wnt/Planar Cell Polarity signaling pathway that uses its highly conserved carboxy-terminal type 1 PDZ-binding motif (PBM) to bind a variety of PDZ proteins. In this study, we characterize and quantitatively assess the largest VANGL2 PDZome-binding profile documented so far, using orthogonal methods. The results of our holdup approach support VANGL2 interactions with a large panel of both long-recognized and unprecedented PDZ domains. Truncation and point mutation analyses of the VANGL2 PBM establish that, beyond the strict requirement of the P-0 / V521 and P-2 / T519 amino acids, upstream residues, including E518, Q516 and R514 at, respectively, P-3, P-5 and P-7 further contribute to the robustness of VANGL2 interactions with two distinct PDZ domains, SNX27 and SCRIBBLE-PDZ3. In agreement with these data, incremental amino-terminal deletions of the VANGL2 PBM causes its overall affinity to progressively decline. Moreover, the holdup data establish that the PDZome binding repertoire of VANGL2 starts to diverge significantly with the truncation of E518. A structural analysis of the SYNJ2BP-PDZ/VANGL2 interaction with truncated PBMs identifies a major conformational change in the binding direction of the PBM peptide after the P-2 position. Finally, we report that the PDZome binding profile of VANGL2 is dramatically rearranged upon phosphorylation of S517, T519 and S520. Our crystallographic approach illustrates how SYNJ2BP accommodates a S520-phosphorylated PBM peptide through the ideal positioning of two basic residues, K48 and R86. Altogether our data provides a comprehensive view of the VANGL2 PDZ network and how this network specifically responds to the post-translation modification of distinct PBM residues. These findings should prove useful in guiding future functional and molecular studies of the key PCP component VANGL2.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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