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互补脊椎动物模型表现出与德桑托-希纳维综合征相关的表型。

Complimentary vertebrate models exhibit phenotypes relevant to DeSanto-Shinawi Syndrome.

作者信息

Lee Kang-Han, Stafford April M, Pacheco-Vergara Maria, Cichewicz Karol, Canales Cesar P, Seban Nicolas, Corea Melissa, Rahbarian Darlene, Bonekamp Kelly E, Gillie Grant R, Pacheco-Cruz Dariangelly, Gill Alyssa M, Hwang Hye-Eun, Uhl Katie L, Jager Tara E, Shinawi Marwan, Li Xiaopeng, Obenaus Andre, Crandall Shane, Jeong Juhee, Nord Alex, Kim Cheol-Hee, Vogt Daniel

机构信息

Department of Biology, Chungnam National University, Daejeon 34134, Korea.

Department of Pediatrics and Human Development, College of Human Medicine, Michigan State University, Grand Rapids, MI, 49503, USA.

出版信息

bioRxiv. 2024 Nov 24:2024.05.26.595966. doi: 10.1101/2024.05.26.595966.

DOI:10.1101/2024.05.26.595966
PMID:38826421
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11142245/
Abstract

Monogenic syndromes are associated with neurodevelopmental changes that result in cognitive impairments, neurobehavioral phenotypes including autism and attention deficit hyperactivity disorder (ADHD), and seizures. Limited studies and resources are available to make meaningful headway into the underlying molecular mechanisms that result in these symptoms. One such example is DeSanto-Shinawi Syndrome (DESSH), a rare disorder caused by pathogenic variants in the gene. Individuals with DESSH syndrome exhibit a recognizable craniofacial gestalt, developmental delay/intellectual disability, neurobehavioral symptoms that include autism, ADHD, behavioral difficulties and seizures. However, no thorough studies from a vertebrate model exist to understand how these changes occur. To overcome this, we developed both murine and zebrafish deletion mutants and studied whether their phenotypes recapitulate those described in individuals with DESSH syndrome. We show that the two models exhibit craniofacial and behavioral changes, reminiscent of abnormalities found in DESSH syndrome. In addition, each model revealed impacts to GABAergic neurons and further studies showed that the mouse mutants are susceptible to seizures, changes in brain volumes that are different between sexes and relevant behaviors. Finally, we uncovered transcriptional impacts of loss of function that will pave the way for future molecular studies into DESSH. These studies begin to uncover some biological underpinnings of DESSH syndrome and elucidate the biology of , with advantages in each model.

摘要

单基因综合征与神经发育变化相关,这些变化会导致认知障碍、包括自闭症和注意力缺陷多动障碍(ADHD)在内的神经行为表型以及癫痫发作。目前,关于导致这些症状的潜在分子机制的研究和资源有限,难以取得有意义的进展。一个这样的例子是德桑托 - 希纳维综合征(DESSH),这是一种由该基因的致病变异引起的罕见疾病。患有DESSH综合征的个体表现出可识别的颅面形态、发育迟缓/智力残疾、包括自闭症、ADHD、行为困难和癫痫发作在内的神经行为症状。然而,目前尚无来自脊椎动物模型的深入研究来了解这些变化是如何发生的。为了克服这一问题,我们构建了小鼠和斑马鱼的基因缺失突变体,并研究它们的表型是否与DESSH综合征患者中描述的表型一致。我们发现这两种模型都表现出颅面和行为变化,这让人联想到在DESSH综合征中发现的异常。此外,每个模型都显示出对γ-氨基丁酸能神经元的影响,进一步的研究表明,小鼠突变体易患癫痫,脑容量的变化存在性别差异以及相关行为。最后,我们揭示了功能丧失的转录影响,这将为未来对DESSH的分子研究铺平道路。这些研究开始揭示DESSH综合征的一些生物学基础,并阐明该基因的生物学特性,每个模型都有其优势。

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