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自闭症谱系障碍相关基因 SYNGAP1 在皮质神经发生中的非突触功能。

Non-synaptic function of the autism spectrum disorder-associated gene SYNGAP1 in cortical neurogenesis.

机构信息

Department of Stem Cell Biology and Regenerative Medicine, Keck School of Medicine, University of Southern California, Los Angeles, CA, USA.

Eli and Edythe Broad CIRM Center for Regenerative Medicine and Stem Cell Research at USC, Keck School of Medicine, University of Southern California, Los Angeles, CA, USA.

出版信息

Nat Neurosci. 2023 Dec;26(12):2090-2103. doi: 10.1038/s41593-023-01477-3. Epub 2023 Nov 9.

DOI:10.1038/s41593-023-01477-3
PMID:37946050
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11349286/
Abstract

Genes involved in synaptic function are enriched among those with autism spectrum disorder (ASD)-associated rare genetic variants. Dysregulated cortical neurogenesis has been implicated as a convergent mechanism in ASD pathophysiology, yet it remains unknown how 'synaptic' ASD risk genes contribute to these phenotypes, which arise before synaptogenesis. Here, we show that the synaptic Ras GTPase-activating (RASGAP) protein 1 (SYNGAP1, a top ASD risk gene) is expressed within the apical domain of human radial glia cells (hRGCs). In a human cortical organoid model of SYNGAP1 haploinsufficiency, we find dysregulated cytoskeletal dynamics that impair the scaffolding and division plane of hRGCs, resulting in disrupted lamination and accelerated maturation of cortical projection neurons. Additionally, we confirmed an imbalance in the ratio of progenitors to neurons in a mouse model of Syngap1 haploinsufficiency. Thus, SYNGAP1-related brain disorders may arise through non-synaptic mechanisms, highlighting the need to study genes associated with neurodevelopmental disorders (NDDs) in diverse human cell types and developmental stages.

摘要

与自闭症谱系障碍(ASD)相关的罕见遗传变异中富集了涉及突触功能的基因。皮层神经发生失调被认为是 ASD 病理生理学中的一个趋同机制,但目前尚不清楚“突触”ASD 风险基因如何导致这些在突触发生前出现的表型。在这里,我们表明突触 Ras GTP 酶激活(RASGAP)蛋白 1(SYNGAP1,ASD 的顶级风险基因)在人类放射状胶质细胞(hRGC)的顶端区域表达。在 SYNGAP1 杂合不足的人类皮质类器官模型中,我们发现细胞骨架动力学失调,破坏了 hRGC 的支架和分裂平面,导致层状结构破坏和皮质投射神经元的加速成熟。此外,我们在 Syngap1 杂合不足的小鼠模型中证实了祖细胞与神经元比例的失衡。因此,SYNGAP1 相关的脑疾病可能通过非突触机制出现,这凸显了在不同的人类细胞类型和发育阶段研究与神经发育障碍(NDD)相关的基因的必要性。

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