错义变异对USP9X-女性综合征的影响。

Missense variant contribution to USP9X-female syndrome.

作者信息

Jolly Lachlan A, Parnell Euan, Gardner Alison E, Corbett Mark A, Pérez-Jurado Luis A, Shaw Marie, Lesca Gaetan, Keegan Catherine, Schneider Michael C, Griffin Emily, Maier Felicitas, Kiss Courtney, Guerin Andrea, Crosby Kathleen, Rosenbaum Kenneth, Tanpaiboon Pranoot, Whalen Sandra, Keren Boris, McCarrier Julie, Basel Donald, Sadedin Simon, White Susan M, Delatycki Martin B, Kleefstra Tjitske, Küry Sébastien, Brusco Alfredo, Sukarova-Angelovska Elena, Trajkova Slavica, Yoon Sehoun, Wood Stephen A, Piper Michael, Penzes Peter, Gecz Jozef

机构信息

University of Adelaide and Robinson Research Institute, Adelaide, SA, 5005, Australia.

Department of Physiology, Northwestern University Feinberg School of Medicine, Chicago, Il, USA.

出版信息

NPJ Genom Med. 2020 Dec 9;5(1):53. doi: 10.1038/s41525-020-00162-9.

DOI:10.1038/s41525-020-00162-9

PMID:33298948

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7725775/

Abstract

USP9X is an X-chromosome gene that escapes X-inactivation. Loss or compromised function of USP9X leads to neurodevelopmental disorders in males and females. While males are impacted primarily by hemizygous partial loss-of-function missense variants, in females de novo heterozygous complete loss-of-function mutations predominate, and give rise to the clinically recognisable USP9X-female syndrome. Here we provide evidence of the contribution of USP9X missense and small in-frame deletion variants in USP9X-female syndrome also. We scrutinise the pathogenicity of eleven such variants, ten of which were novel. Combined application of variant prediction algorithms, protein structure modelling, and assessment under clinically relevant guidelines universally support their pathogenicity. The core phenotype of this cohort overlapped with previous descriptions of USP9X-female syndrome, but exposed heightened variability. Aggregate phenotypic information of 35 currently known females with predicted pathogenic variation in USP9X reaffirms the clinically recognisable USP9X-female syndrome, and highlights major differences when compared to USP9X-male associated neurodevelopmental disorders.

摘要

USP9X是一个逃避X染色体失活的X染色体基因。USP9X功能丧失或受损会导致男性和女性出现神经发育障碍。虽然男性主要受半合子部分功能丧失错义变体的影响，但在女性中，新生杂合子完全功能丧失突变占主导，并导致临床上可识别的USP9X女性综合征。在这里，我们也提供了USP9X错义变体和小的框内缺失变体在USP9X女性综合征中的作用证据。我们仔细研究了11个这样的变体的致病性，其中10个是新发现的。变体预测算法、蛋白质结构建模的联合应用以及在临床相关指南下的评估普遍支持它们的致病性。该队列的核心表型与之前对USP9X女性综合征的描述重叠，但表现出更高的变异性。目前已知的35名在USP9X中有预测致病性变异的女性的综合表型信息再次证实了临床上可识别的USP9X女性综合征，并突出了与USP9X男性相关神经发育障碍相比的主要差异。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ca7e/7725775/37aaa436df0f/41525_2020_162_Fig1_HTML.jpg

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错义变异对USP9X-女性综合征的影响。

Missense variant contribution to USP9X-female syndrome.

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