Pathogenic UNC13A variants cause a neurodevelopmental syndrome by impairing synaptic function.

IF 29 1区生物学 Q1 GENETICS & HEREDITY

Nature genetics Pub Date : 2025-10-22 DOI:10.1038/s41588-025-02361-5

Reza Asadollahi,Aisha Ahmad,Paranchai Boonsawat,Jasmine Shahanoor Hinzen,Mareike Lohse,Boris Bouazza-Arostegui,Siqi Sun,Tillmann Utesch,Jonas D Sommer,Dragana Ilic,Murugesh Padmanarayana,Kati Fischermanns,Mrinalini Ranjan,Moritz Boll,Chandran Ka,Amélie Piton,Francesca Mattioli,Bertrand Isidor,Katrin Õunap,Karit Reinson,Monica H Wojcik,Christian R Marshall,Saadet Mercimek-Andrews,Naomichi Matsumoto,Noriko Miyake,Bruno de Oliveira Stephan,Rachel Sayuri Honjo,Debora R Bertola,Chong Ae Kim,Roman Yusupov,Heather C Mefford,John Christodoulou,Joy Lee,Oliver Heath,Natasha J Brown,Naomi Baker,Zornitza Stark,Martin Delatycki,Nicole J Lake,Shimriet Zeidler,Linda Zuurbier,Saskia M Maas,Chris C de Kruiff,Farrah Rajabi,Lance H Rodan,Stephanie A Coury,Konrad Platzer,Henry Oppermann,Rami Abou Jamra,Skadi Beblo,Caroline Maxton,Robert Śmigiel,Hunter Underhill,Holly Dubbs,Alyssa Rosen,Katherine L Helbig,Ingo Helbig,Sarah McKeown Ruggiero,Mark P Fitzgerald,Dennis Kraemer,Carlos E Prada,Jeffrey Tenney,Parul Jayakar,Sylvia Redon,Jérémie Lefranc,Kevin Uguen,Simone Race,Stephanie Efthymiou,Reza Maroofian,Henry Houlden,Sandra Coppens,Nicolas Deconinck,Balasubramaniem Ashokkumar,Perumal Varalakshmi,Vykunta Raju Gowda K,Fatemeh Eghbal,Ehsan Ghayoor Karimiani,Morteza Heidari,John Neidhardt,Marta Owczarek-Lipska,G Christoph Korenke,Michael J Bamshad,Philippe M Campeau,Anna Lehman,Laura G Hendon,Ingrid M Wentzensen,Kristin G Monaghan,Yanmin Chen,Anna Szuto,Ronald D Cohn,Ping Yee Billie Au,Christoph Hübner,Felix Boschann,Kandamurugu Manickam,Daniel C Koboldt,Aboulfazl Rad,Gabriela Oprea,Kristine K Bachman,Andrea H Seeley,Emanuele Agolini,Alessandra Terracciano,Piscopo Carmelo,Caleb Bupp,Bethany Grysko,Annick Rein-Rothschild,Bruria Ben Zeev,Amy Margolin,Jennifer Morrison,Aditi Dagli,Elliot Stolerman,Raymond J Louie,Camerun Washington,Servi J C Stevens,Malou Heijligers,Fowzan S Alkuraya,Jasmin Lisfeld,Axel Neu,Fabíola Paoli Monteiro,André Luiz Santos Pessoa,Antonio Edvan Camelo-Filho,Fernando Kok,Dwight Koeberl,Kacie Riley,Lydie Burglen,Diane Doummar,Bénédicte Héron,Cyril Mignot,Boris Keren,Perrine Charles,Caroline Nava,Felix P Bernhard,Andrea A Kühn,Sven Thoms,Ryan D Morrie,Shila Mekhoubad,Eric M Green,Sami J Barmada,Aaron D Gitler,Olaf Jahn,Jeong Seop Rhee,Christian Rosenmund,Mišo Mitkovski,Heinrich Sticht,Han Sun,Gerald Le Gac,Holger Taschenberger,Nils Brose,Jeremy S Dittman,Anita Rauch,Noa Lipstein

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引用次数: 0

Abstract

The UNC13A gene encodes a presynaptic protein that is crucial for setting the strength and dynamics of information transfer between neurons. Here we describe a neurodevelopmental syndrome caused by germline coding or splice-site variants in UNC13A. The syndrome presents with variable degrees of developmental delay and intellectual disability, seizures of different types, tremor and dyskinetic movements and, in some cases, death in early childhood. Using assays with expression of UNC13A variants in mouse hippocampal neurons and in Caenorhabditis elegans, we identify three mechanisms of pathogenicity, including reduction in synaptic strength caused by reduced UNC13A protein expression, increased neurotransmission caused by UNC13A gain-of-function and impaired regulation of neurotransmission by second messenger signalling. Based on a strong genotype-phenotype-functional correlation, we classify three UNC13A syndrome subtypes (types A-C). We conclude that the precise regulation of neurotransmitter release by UNC13A is critical for human nervous system function.

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致病性UNC13A变异通过损害突触功能引起神经发育综合征。

UNC13A基因编码一种突触前蛋白，这种蛋白对于设置神经元之间信息传递的强度和动态至关重要。在这里，我们描述了由UNC13A的种系编码或剪接位点变异引起的神经发育综合征。该综合征表现为不同程度的发育迟缓和智力残疾、不同类型的癫痫发作、震颤和运动障碍，在某些情况下，幼儿期死亡。通过对小鼠海马神经元和秀丽隐杆线虫中UNC13A变异表达的检测，我们确定了三种致病机制，包括UNC13A蛋白表达减少导致突触强度降低，UNC13A功能获得导致神经传递增加，以及第二信使信号传导调节受损。基于强烈的基因型-表型-功能相关性，我们将UNC13A综合征分为三种亚型（a - c型）。我们得出结论，UNC13A对神经递质释放的精确调控对人类神经系统功能至关重要。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Nature genetics 生物-遗传学

CiteScore

43.00

自引率

2.60%

发文量

241

审稿时长

3 months

期刊介绍： Nature Genetics publishes the very highest quality research in genetics. It encompasses genetic and functional genomic studies on human and plant traits and on other model organisms. Current emphasis is on the genetic basis for common and complex diseases and on the functional mechanism, architecture and evolution of gene networks, studied by experimental perturbation. Integrative genetic topics comprise, but are not limited to: -Genes in the pathology of human disease -Molecular analysis of simple and complex genetic traits -Cancer genetics -Agricultural genomics -Developmental genetics -Regulatory variation in gene expression -Strategies and technologies for extracting function from genomic data -Pharmacological genomics -Genome evolution