通过重排选择性剪接上调小鼠和人神经元中的 SYNGAP1 表达。

Upregulation of SYNGAP1 expression in mice and human neurons by redirecting alternative splicing.

机构信息

Department of Human Genetics, Neuroscience Institute, The University of Chicago, Chicago, IL 60637, USA.

Section of Emergency Medicine, Department of Medicine, Institute for Integrative Physiology, Neuroscience Institute, The University of Chicago, Chicago, IL 60637, USA.

出版信息

Neuron. 2023 May 17;111(10):1637-1650.e5. doi: 10.1016/j.neuron.2023.02.021. Epub 2023 Mar 13.

DOI:10.1016/j.neuron.2023.02.021

PMID:36917980

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10198817/

Abstract

The Ras GTPase-activating protein SYNGAP1 plays a central role in synaptic plasticity, and de novo SYNGAP1 mutations are among the most frequent causes of autism and intellectual disability. How SYNGAP1 is regulated during development and how to treat SYNGAP1-associated haploinsufficiency remain challenging questions. Here, we characterize an alternative 3' splice site (A3SS) of SYNGAP1 that induces nonsense-mediated mRNA decay (A3SS-NMD) in mouse and human neural development. We demonstrate that PTBP1/2 directly bind to and promote SYNGAP1 A3SS inclusion. Genetic deletion of the Syngap1 A3SS in mice upregulates Syngap1 protein and alleviates the long-term potentiation and membrane excitability deficits caused by a Syngap1 knockout allele. We further report a splice-switching oligonucleotide (SSO) that converts SYNGAP1 unproductive isoform to the functional form in human iPSC-derived neurons. This study describes the regulation and function of SYNGAP1 A3SS-NMD, the genetic rescue of heterozygous Syngap1 knockout mice, and the development of an SSO to potentially alleviate SYNGAP1-associated haploinsufficiency.

摘要

Ras GTPase 激活蛋白 SYNGAP1 在突触可塑性中起着核心作用，而新生的 SYNGAP1 突变是自闭症和智力障碍最常见的原因之一。SYNGAP1 在发育过程中是如何被调控的，以及如何治疗 SYNGAP1 相关的杂合不足，仍然是具有挑战性的问题。在这里，我们描述了 SYNGAP1 的一个替代 3' 剪接位点（A3SS），它在小鼠和人类神经发育中诱导无意义介导的 mRNA 降解（A3SS-NMD）。我们证明了 PTBP1/2 可以直接结合并促进 SYNGAP1 A3SS 的包含。在小鼠中敲除 Syngap1 A3SS 可上调 Syngap1 蛋白，并减轻由 Syngap1 敲除等位基因引起的长时程增强和膜兴奋性缺陷。我们进一步报告了一种剪接转换寡核苷酸（SSO），可将 SYNGAP1 非生产性异构体转换为人类 iPSC 衍生神经元中的功能性形式。本研究描述了 SYNGAP1 A3SS-NMD 的调控和功能、杂合性 Syngap1 敲除小鼠的遗传挽救，以及开发 SSO 以潜在缓解 SYNGAP1 相关杂合不足的方法。

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