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Ras-MAPK 致病变体对人类大脑发育的新影响及其与基因表达和抑制能力的关系。

Novel effects of Ras-MAPK pathogenic variants on the developing human brain and their link to gene expression and inhibition abilities.

机构信息

Division of Interdisciplinary Brain Sciences, Department of Psychiatry and Behavioral Sciences, Stanford University School of Medicine, Stanford, CA, USA.

University of California San Diego School of Medicine, La Jolla, CA, USA.

出版信息

Transl Psychiatry. 2023 Jul 6;13(1):245. doi: 10.1038/s41398-023-02504-4.

DOI:10.1038/s41398-023-02504-4
PMID:37407569
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10322993/
Abstract

The RASopathies are genetic syndromes associated with pathogenic variants causing dysregulation of the Ras/mitogen-activated protein kinase (Ras-MAPK) pathway, essential for brain development, and increased risk for neurodevelopmental disorders. Yet, the effects of most pathogenic variants on the human brain are unknown. We examined: (1) How Ras-MAPK activating variants of PTPN11/SOS1 protein-coding genes affect brain anatomy. (2) The relationship between PTPN11 gene expression levels and brain anatomy, and (3) The relevance of subcortical anatomy to attention and memory skills affected in the RASopathies. We collected structural brain MRI and cognitive-behavioral data from 40 pre-pubertal children with Noonan syndrome (NS), caused by PTPN11 (n = 30) or SOS1 (n = 10) variants (age 8.53 ± 2.15, 25 females), and compared them to 40 age- and sex-matched typically developing controls (9.24 ± 1.62, 27 females). We identified widespread effects of NS on cortical and subcortical volumes and on determinants of cortical gray matter volume, surface area (SA), and cortical thickness (CT). In NS, we observed smaller volumes of bilateral striatum, precentral gyri, and primary visual area (d's < -0.8), and extensive effects on SA (d's > |0.8|) and CT (d's > |0.5|) relative to controls. Further, SA effects were associated with increasing PTPN11 gene expression, most prominently in the temporal lobe. Lastly, PTPN11 variants disrupted normative relationships between the striatum and inhibition functioning. We provide evidence for the effects of Ras-MAPK pathogenic variants on striatal and cortical anatomy as well as links between PTPN11 gene expression and cortical SA increases, and striatal volume and inhibition skills. These findings provide essential translational information on the Ras-MAPK pathway's effect on human brain development and function.

摘要

RAS 病是与 Ras/丝裂原活化蛋白激酶(Ras-MAPK)途径失调相关的遗传综合征,该途径对大脑发育至关重要,并且增加了神经发育障碍的风险。然而,大多数致病性变体对人类大脑的影响尚不清楚。我们研究了:(1)PTPN11/SOS1 蛋白编码基因的 Ras-MAPK 激活变体如何影响大脑解剖结构。(2)PTPN11 基因表达水平与大脑解剖结构的关系,以及(3)皮质下解剖结构与 Ras 病中受影响的注意力和记忆技能的相关性。我们从患有 Noonan 综合征(NS)的 40 名青春期前儿童(由 PTPN11(n = 30)或 SOS1(n = 10)变体引起)中收集了结构脑 MRI 和认知行为数据,将其与 40 名年龄和性别匹配的典型发育对照(9.24 ± 1.62,27 名女性)进行了比较。我们发现 NS 对皮质和皮质下体积以及皮质灰质体积、表面积(SA)和皮质厚度(CT)的决定因素有广泛的影响。在 NS 中,我们观察到双侧纹状体、中央前回和初级视觉区的体积较小(d'< -0.8),并且与对照相比,SA(d'<|0.8|)和 CT(d'<|0.5|)有广泛的影响。此外,SA 效应与 PTPN11 基因表达的增加有关,在颞叶中最为明显。最后,PTPN11 变体破坏了纹状体和抑制功能之间的正常关系。我们提供了 Ras-MAPK 致病性变体对纹状体和皮质解剖结构的影响的证据,以及 PTPN11 基因表达与皮质 SA 增加以及纹状体体积和抑制技能之间的联系。这些发现为 Ras-MAPK 途径对人类大脑发育和功能的影响提供了重要的转化信息。

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