SH3结构域和肌动蛋白结合结构域连接ADNP和SHANK3，揭示了自闭症潜在的一种基本共同机制。

SH3- and actin-binding domains connect ADNP and SHANK3, revealing a fundamental shared mechanism underlying autism.

作者信息

Ivashko-Pachima Yanina, Ganaiem Maram, Ben-Horin-Hazak Inbar, Lobyntseva Alexandra, Bellaiche Naomi, Fischer Inbar, Levy Gilad, Sragovich Shlomo, Karmon Gidon, Giladi Eliezer, Shazman Shula, Barak Boaz, Gozes Illana

机构信息

The Elton Laboratory for Neuroendocrinology, Department of Human Molecular Genetics and Biochemistry, Sackler Faculty of Medicine, Adams Super Center for Brain Studies, Tel Aviv University, Tel Aviv, Israel.

Sagol School of Neuroscience, Tel Aviv University, Tel Aviv, Israel.

出版信息

Mol Psychiatry. 2022 Aug;27(8):3316-3327. doi: 10.1038/s41380-022-01603-w. Epub 2022 May 10.

DOI:10.1038/s41380-022-01603-w

PMID:35538192

Abstract

De novo heterozygous mutations in activity-dependent neuroprotective protein (ADNP) cause autistic ADNP syndrome. ADNP mutations impair microtubule (MT) function, essential for synaptic activity. The ADNP MT-associating fragment NAPVSIPQ (called NAP) contains an MT end-binding protein interacting domain, SxIP (mimicking the active-peptide, SKIP). We hypothesized that not all ADNP mutations are similarly deleterious and that the NAPV portion of NAPVSIPQ is biologically active. Using the eukaryotic linear motif (ELM) resource, we identified a Src homology 3 (SH3) domain-ligand association site in NAP responsible for controlling signaling pathways regulating the cytoskeleton, namely NAPVSIP. Altogether, we mapped multiple SH3-binding sites in ADNP. Comparisons of the effects of ADNP mutations p.Glu830synfs83, p.Lys408Valfs31, p.Ser404* on MT dynamics and Tau interactions (live-cell fluorescence-microscopy) suggested spared toxic function in p.Lys408Valfs31, with a regained SH3-binding motif due to the frameshift insertion. Site-directed-mutagenesis, abolishing the p.Lys408Valfs31 SH3-binding motif, produced MT toxicity. NAP normalized MT activities in the face of all ADNP mutations, although, SKIP, missing the SH3-binding motif, showed reduced efficacy in terms of MT-Tau interactions, as compared with NAP. Lastly, SH3 and multiple ankyrin repeat domains protein 3 (SHANK3), a major autism gene product, interact with the cytoskeleton through an actin-binding motif to modify behavior. Similarly, ELM analysis identified an actin-binding site on ADNP, suggesting direct SH3 and indirect SHANK3/ADNP associations. Actin co-immunoprecipitations from mouse brain extracts showed NAP-mediated normalization of Shank3-Adnp-actin interactions. Furthermore, NAP treatment ameliorated aberrant behavior in mice homozygous for the Shank3 ASD-linked InsG3680 mutation, revealing a fundamental shared mechanism between ADNP and SHANK3.

摘要

活性依赖性神经保护蛋白（ADNP）的新生杂合突变会导致自闭症ADNP综合征。ADNP突变会损害微管（MT）功能，而微管功能对突触活动至关重要。ADNP与MT相关的片段NAPVSIPQ（称为NAP）包含一个MT末端结合蛋白相互作用结构域SxIP（模仿活性肽SKIP）。我们假设并非所有ADNP突变都具有相同程度的有害性，并且NAPVSIPQ的NAPV部分具有生物活性。利用真核线性基序（ELM）资源，我们在NAP中鉴定出一个Src同源3（SH3）结构域配体结合位点，该位点负责控制调节细胞骨架的信号通路，即NAPVSIP。总之，我们绘制了ADNP中多个SH3结合位点。对ADNP突变p.Glu830synfs83、p.Lys408Valfs31、p.Ser404对MT动力学和Tau相互作用（活细胞荧光显微镜）影响的比较表明，p.Lys408Valfs31具有保留的毒性功能，由于移码插入而重新获得了SH3结合基序。定点诱变消除p.Lys408Valfs*31的SH3结合基序后产生了MT毒性。尽管与NAP相比，缺少SH3结合基序的SKIP在MT-Tau相互作用方面显示出较低的功效，但NAP使所有ADNP突变情况下的MT活性正常化。最后，SH3和多个锚蛋白重复结构域蛋白3（SHANK3）是一种主要的自闭症基因产物，它通过肌动蛋白结合基序与细胞骨架相互作用来改变行为。同样，ELM分析在ADNP上鉴定出一个肌动蛋白结合位点，表明存在直接的SH3和间接的SHANK3/ADNP关联。从小鼠脑提取物中进行的肌动蛋白共免疫沉淀显示，NAP介导了Shank3-Adnp-肌动蛋白相互作用的正常化。此外，NAP治疗改善了携带Shank3自闭症相关InsG3680突变的纯合小鼠的异常行为，揭示了ADNP和SHANK3之间的一个基本共同机制。

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SH3结构域和肌动蛋白结合结构域连接ADNP和SHANK3，揭示了自闭症潜在的一种基本共同机制。

SH3- and actin-binding domains connect ADNP and SHANK3, revealing a fundamental shared mechanism underlying autism.

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