Bi-allelic ATG4D variants are associated with a neurodevelopmental disorder characterized by speech and motor impairment.

IF 4.7 2区 医学 Q1 GENETICS & HEREDITY NPJ Genomic Medicine Pub Date : 2023-02-10 DOI:10.1038/s41525-022-00343-8
Marie Morimoto, Vikas Bhambhani, Nour Gazzaz, Mariska Davids, Paalini Sathiyaseelan, Ellen F Macnamara, Jennifer Lange, Anna Lehman, Patricia M Zerfas, Jennifer L Murphy, Maria T Acosta, Camille Wang, Emily Alderman, Sara Reichert, Audrey Thurm, David R Adams, Wendy J Introne, Sharon M Gorski, Cornelius F Boerkoel, William A Gahl, Cynthia J Tifft, May Christine V Malicdan
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Abstract

Autophagy regulates the degradation of damaged organelles and protein aggregates, and is critical for neuronal development, homeostasis, and maintenance, yet few neurodevelopmental disorders have been associated with pathogenic variants in genes encoding autophagy-related proteins. We report three individuals from two unrelated families with a neurodevelopmental disorder characterized by speech and motor impairment, and similar facial characteristics. Rare, conserved, bi-allelic variants were identified in ATG4D, encoding one of four ATG4 cysteine proteases important for autophagosome biogenesis, a hallmark of autophagy. Autophagosome biogenesis and induction of autophagy were intact in cells from affected individuals. However, studies evaluating the predominant substrate of ATG4D, GABARAPL1, demonstrated that three of the four ATG4D patient variants functionally impair ATG4D activity. GABARAPL1 is cleaved or "primed" by ATG4D and an in vitro GABARAPL1 priming assay revealed decreased priming activity for three of the four ATG4D variants. Furthermore, a rescue experiment performed in an ATG4 tetra knockout cell line, in which all four ATG4 isoforms were knocked out by gene editing, showed decreased GABARAPL1 priming activity for the two ATG4D missense variants located in the cysteine protease domain required for priming, suggesting that these variants impair the function of ATG4D. The clinical, bioinformatic, and functional data suggest that bi-allelic loss-of-function variants in ATG4D contribute to the pathogenesis of this syndromic neurodevelopmental disorder.

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ATG4D 双等位基因变异与一种以语言和运动障碍为特征的神经发育障碍有关。
自噬调节受损细胞器和蛋白质聚集体的降解,对神经元的发育、平衡和维持至关重要,但很少有神经发育障碍与编码自噬相关蛋白的基因的致病变异有关。我们报告了来自两个没有血缘关系的家庭的三个人,他们都患有以语言和运动障碍以及相似的面部特征为特征的神经发育障碍。我们在 ATG4D 中发现了罕见的、保守的、双等位基因变异,该基因编码 ATG4 半胱氨酸蛋白酶,而 ATG4 半胱氨酸蛋白酶是自噬的标志之一,对自噬体的生物生成非常重要。在受影响个体的细胞中,自噬体的生物生成和自噬诱导是完整的。然而,对 ATG4D 的主要底物 GABARAPL1 进行的评估研究表明,四种 ATG4D 患者变体中有三种在功能上损害了 ATG4D 的活性。GABARAPL1被ATG4D裂解或 "引物",体外GABARAPL1引物测定显示,四种ATG4D变体中有三种的引物活性降低。此外,在通过基因编辑敲除所有四种 ATG4 异构体的 ATG4 四基因敲除细胞系中进行的拯救实验显示,位于引物所需的半胱氨酸蛋白酶结构域的两个 ATG4D 错义变体的 GABARAPL1 引物活性降低,这表明这些变体损害了 ATG4D 的功能。临床、生物信息学和功能数据表明,ATG4D的双等位功能缺失变异是这种综合神经发育障碍的发病机制之一。
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来源期刊
NPJ Genomic Medicine
NPJ Genomic Medicine Biochemistry, Genetics and Molecular Biology-Molecular Biology
CiteScore
9.40
自引率
1.90%
发文量
67
审稿时长
17 weeks
期刊介绍: npj Genomic Medicine is an international, peer-reviewed journal dedicated to publishing the most important scientific advances in all aspects of genomics and its application in the practice of medicine. The journal defines genomic medicine as "diagnosis, prognosis, prevention and/or treatment of disease and disorders of the mind and body, using approaches informed or enabled by knowledge of the genome and the molecules it encodes." Relevant and high-impact papers that encompass studies of individuals, families, or populations are considered for publication. An emphasis will include coupling detailed phenotype and genome sequencing information, both enabled by new technologies and informatics, to delineate the underlying aetiology of disease. Clinical recommendations and/or guidelines of how that data should be used in the clinical management of those patients in the study, and others, are also encouraged.
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