进一步描述scaf4相关的神经发育障碍。

IF 3.7 2区生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY

European Journal of Human Genetics Pub Date : 2024-12-12 DOI:10.1038/s41431-024-01760-2

Cosima M Schmid, Anne Gregor, Anna Ruiz, Carmen Manso Bazús, Isabella Herman, Farah Ammouri, Urania Kotzaeridou, Vanda McNiven, Lucie Dupuis, Katharina Steindl, Anaïs Begemann, Anita Rauch, Aude-Annick Suter, Bertrand Isidor, Sandra Mercier, Mathilde Nizon, Benjamin Cogné, Wallid Deb, Thomas Besnard, Tobias B Haack, Ruth J Falb, Amelie J Müller, Tobias Linden, Chad R Haldeman-Englert, Charlotte W Ockeloen, Francesca Mattioli, Alexandre Reymond, Nazia Ibrahim, Shagufta Naz, Elodie Lacaze, Jennifer A Bassetti, Julia Hoefele, Theresa Brunet, Korbinian M Riedhammer, Houda Z Elloumi, Richard Person, Fanggeng Zou, Juliette J Kahle, Kirsten Cremer, Axel Schmidt, Marie-Ange Delrue, Pedro M Almeida, Fabiana Ramos, Siddharth Srivastava, Aisling Quinlan, Stephen Robertson, Eva Manka, Alma Kuechler, Stephanie Spranger, Malgorzata J M Nowaczyk, Reem M Elshafie, Hind Alsharhan, Paul R Hillman, Leslie A Dunnington, Hilde M H Braakman, Shane McKee, Angelica Moresco, Andrea-Diana Ignat, Ruth Newbury-Ecob, Guillaume Banneau, Olivier Patat, Jeffrey Kuerbitz, Susan Rzucidlo, Susan S Sell, Patricia Gordon, Sarah Schuhmann, André Reis, Yosra Halleb, Radka Stoeva, Boris Keren, Zainab Al Masseri, Zeynep Tümer, Sophia Hammer-Hansen, Sofus Krüger Sølyst, Connolly G Steigerwald, Nicolas J Abreu, Helene Faust, Amica Müller-Nedebock, Frédéric Tran Mau-Them, Heinrich Sticht, Christiane Zweier

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引用次数: 0

摘要

虽然最近在18个具有可变神经发育表型的个体中发现了SCAF4的大多数从头截断变异，但对分子和临床谱的了解仍然有限。我们收集了50个通过GeneMatcher和个人交流确定的SCAF4变异的新个体的数据。通过对临床数据的详细评估、计算机预测和结构建模，我们进一步表征了常染色体显性scaf4相关神经发育障碍的分子和临床谱。分子谱包括25个截断、8个剪接位点和5个错义变体。虽然所有其他截断变异都被归类为致病性/可能致病性，但一个c端截断变异、一个剪接位点变异和错义变异的意义尚不清楚。预计SCAF4的ctd相互作用域中的三个错义变体会破坏该结构域的稳定。23例变异是从头发生的，13例变异是遗传的。常见的临床表现为轻度发育迟缓，伴有语言障碍、癫痫发作和骨骼异常，如内翻足、脊柱侧凸或髋关节发育不良。认知能力范围从正常的智商到严重的智力残疾（ID），在大多数人的边缘到轻度的ID。我们的研究证实了SCAF4变异在神经发育障碍中的作用，并进一步描述了相关的临床表型。

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Further delineation of the SCAF4-associated neurodevelopmental disorder.

While mostly de novo truncating variants in SCAF4 were recently identified in 18 individuals with variable neurodevelopmental phenotypes, knowledge on the molecular and clinical spectrum is still limited. We assembled data on 50 novel individuals with SCAF4 variants ascertained via GeneMatcher and personal communication. With detailed evaluation of clinical data, in silico predictions and structural modeling, we further characterized the molecular and clinical spectrum of the autosomal dominant SCAF4-associated neurodevelopmental disorder. The molecular spectrum comprises 25 truncating, eight splice-site and five missense variants. While all other truncating variants were classified as pathogenic/likely pathogenic, significance of one C-terminal truncating variant, one splice-site variant and the missense variants remained unclear. Three missense variants in the CTD-interacting domain of SCAF4 were predicted to destabilize the domain. Twenty-three variants occurred de novo, and variants were inherited in 13 cases. Frequent clinical findings were mild developmental delay with speech impairment, seizures, and skeletal abnormalities such as clubfoot, scoliosis or hip dysplasia. Cognitive abilities ranged from normal IQ to severe intellectual disability (ID), with borderline to mild ID in the majority of individuals. Our study confirms the role of SCAF4 variants in neurodevelopmental disorders and further delineates the associated clinical phenotype.

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来源期刊

European Journal of Human Genetics 生物-生化与分子生物学

CiteScore

9.90

自引率

5.80%

发文量

216

审稿时长

2 months

期刊介绍： The European Journal of Human Genetics is the official journal of the European Society of Human Genetics, publishing high-quality, original research papers, short reports and reviews in the rapidly expanding field of human genetics and genomics. It covers molecular, clinical and cytogenetics, interfacing between advanced biomedical research and the clinician, and bridging the great diversity of facilities, resources and viewpoints in the genetics community. Key areas include: -Monogenic and multifactorial disorders -Development and malformation -Hereditary cancer -Medical Genomics -Gene mapping and functional studies -Genotype-phenotype correlations -Genetic variation and genome diversity -Statistical and computational genetics -Bioinformatics -Advances in diagnostics -Therapy and prevention -Animal models -Genetic services -Community genetics