Sabeh Pascale, Dumas Samantha A, Maios Claudia, Daghar Hiba, Korzeniowski Marek, Rousseau Justine, Lines Matthew, Guerin Andrea, Millichap John J, Landsverk Megan, Grebe Theresa, Lindstrom Kristin, Strober Jonathan, Ait Mouhoub Tarik, Zweier Christiane, Steinraths Michelle, Hebebrand Moritz, Callewaert Bert, Abou Jamra Rami, Kautza-Lucht Monika, Wegler Meret, Kruszka Paul, Kumps Candy, Banne Ehud, Waberski Marta Biderman, Dieux Anne, Raible Sarah, Krantz Ian, Medne Livija, Pechter Kieran, Villard Laurent, Guerrini Renzo, Bianchini Claudia, Barba Carmen, Mei Davide, Blanc Xavier, Kallay Christine, Ranza Emmanuelle, Yang Xiao-Ru, O'Heir Emily, Donald Kirsten A, Murugasen Serini, Bruwer Zandre, Calikoglu Muge, Mathews Jennifer M, Lesieur-Sebellin Marion, Baujat Geneviève, Derive Nicolas, Pierson Tyler Mark, Murrell Jill R, Shillington Amelle, Ormieres Clothilde, Rondeau Sophie, Reis André, Fernandez-Jaen Alberto, Au Ping Yee Billie, Sweetser David A, Briere Lauren C, Couque Nathalie, Perrin Laurence, Schymick Jennifer, Gueguen Paul, Lefebvre Mathilde, Van Andel Michael, Juusola Jane, Antonarakis Stylianos E, Parker J Alex, Burnett Barrington G, Campeau Philippe M
Department of Genetics, CHU Sainte-Justine, Montréal, QC, Canada.
Department of Anatomy, Physiology, and Genetics, Uniformed Services University of the Health Sciences, F. Edward Herbert School of Medicine, Bethesda, MD 20814, USA.
Am J Hum Genet. 2025 Jan 2;112(1):75-86. doi: 10.1016/j.ajhg.2024.11.009. Epub 2024 Dec 24.
E3 ubiquitin ligases have been linked to developmental diseases including autism, Angelman syndrome (UBE3A), and Johanson-Blizzard syndrome (JBS) (UBR1). Here, we report variants in the E3 ligase UBR5 in 29 individuals presenting with a neurodevelopmental syndrome that includes developmental delay, autism, intellectual disability, epilepsy, movement disorders, and/or genital anomalies. Their phenotype is distinct from JBS due to the absence of exocrine pancreatic insufficiency and the presence of autism, epilepsy, and, in some probands, a movement disorder. E3 ubiquitin ligases are responsible for transferring ubiquitin to substrate proteins to regulate a variety of cellular functions, including protein degradation, protein-protein interactions, and protein localization. Knocking out ubr-5 in C. elegans resulted in a lower movement score compared to the wild type, supporting a role for UBR5 in neurodevelopment. Using an in vitro autoubiquitination assay and confocal microscopy for the human protein, we found decreased ubiquitination activity and altered cellular localization in several variants found in our cohort compared to the wild type. In conclusion, we found that variants in UBR5 cause a neurodevelopmental syndrome that can be associated with a movement disorder, reinforcing the role of the UBR protein family in a neurodevelopmental disease that differs from previously described ubiquitin-ligase-related syndromes. We also provide evidence for the pathogenic potential loss of UBR5 function with functional experiments in C. elegans and in vitro ubiquitination assays.
E3泛素连接酶与包括自闭症、天使综合征(UBE3A)和约翰森- Blizzard综合征(JBS)(UBR1)在内的发育性疾病有关。在此,我们报告了29名患有神经发育综合征个体的E3连接酶UBR5中的变异,该综合征包括发育迟缓、自闭症、智力残疾、癫痫、运动障碍和/或生殖器异常。他们的表型与JBS不同,因为不存在外分泌胰腺功能不全,且存在自闭症、癫痫,在一些先证者中还存在运动障碍。E3泛素连接酶负责将泛素转移到底物蛋白上,以调节多种细胞功能,包括蛋白质降解、蛋白质-蛋白质相互作用和蛋白质定位。与野生型相比,在秀丽隐杆线虫中敲除ubr-5导致运动评分降低,这支持了UBR5在神经发育中的作用。使用体外自泛素化测定和针对人类蛋白质的共聚焦显微镜,我们发现与野生型相比,在我们队列中发现的几个变异体的泛素化活性降低且细胞定位改变。总之,我们发现UBR5中的变异导致一种可与运动障碍相关的神经发育综合征,强化了UBR蛋白家族在一种不同于先前描述的泛素连接酶相关综合征的神经发育疾病中的作用。我们还通过秀丽隐杆线虫的功能实验和体外泛素化测定为UBR5功能的致病潜在丧失提供了证据。
