A Novel构成Active[8] G b> C, p.(R33P) RAB11A基因变异与智力残疾相关,促进神经细胞发生并影响少突胶质细胞的生长

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2023-08-07 DOI:10.1155/2023/8126544
Y. Tsuneura, Taeko Kawai, Keitaro Yamada, S. Aoki, M. Nakashima, S. Eda, Tohru Matsuki, M. Nishikawa, K. Nagata, Y. Enokido, H. Saitsu, A. Nakayama
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引用次数: 0

摘要

全外显子组测序/全基因组测序加速了与智力残疾(ID)相关的新基因的鉴定,编码内体小GTPase的RAB11A就是其中之一。然而,随之而来的神经异常尚未被研究,RAB11A变异患者ID和其他临床特征的病理生理机制仍有待阐明。在这项研究中,我们报道了RAB11A基因NM_004663.5: c中一个新的从头错义变异。98 G > C,这将导致NP_004654.1: p.(R33P)替代,在一个日本男孩严重ID和髓鞘化低。生化分析表明RAB11A-R33P是一种功能获得的组成活性变体。因此,RAB11A-R33P的引入促进了神经元中神经突的延伸,如已知的构成活性变体Rab11A-Q70L。此外,RAB11A-R33P诱导少突胶质细胞分支过细。这些结果表明,与ID和低髓鞘形成相关的RAB11A-R33P变异的功能获得可影响神经细胞并对其有害,特别是对少突胶质细胞,并强烈提示RAB11A-R33P变异在神经发育障碍,特别是低髓鞘形成中的致病作用。
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A Novel Constitutively Active c . 98 G > C , p.(R33P) Variant in RAB11A Associated with Intellectual Disability Promotes Neuritogenesis and Affects Oligodendroglial Arborization
Whole exome sequencing/whole genome sequencing has accelerated the identification of novel genes associated with intellectual disabilities (ID), and RAB11A which encodes an endosomal small GTPase is among them. However, consequent neural abnormalities have not been studied, and pathophysiological mechanisms underlying the ID and other clinical features in patients harboring RAB11A variants remain to be clarified. In this study, we report a novel de novo missense variant in RAB11A, NM_004663.5: c . 98 G > C , which would result in NP_004654.1: p.(R33P) substitution, in a Japanese boy with severe ID and hypomyelination. Biochemical analyses indicated that the RAB11A-R33P is a gain-of-function, constitutively active variant. Accordingly, the introduction of the RAB11A-R33P promoted neurite extension in neurons like a known constitutively active variant Rab11A-Q70L. In addition, the RAB11A-R33P induced excessive branching with thinner processes in oligodendrocytes. These results indicate that the gain-of-function RAB11A-R33P variant in association with ID and hypomyelination affects neural cells and can be deleterious to them, especially to oligodendrocytes, and strongly suggest the pathogenic role of the RAB11A-R33P variant in neurodevelopmental impairments, especially in the hypomyelination.
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