人类大脑类器官揭示 UBE3A 的早期时空动力学和药物反应

Human Cerebral Organoids Reveal Early Spatiotemporal Dynamics and Pharmacological Responses of UBE3A.

机构信息

Department of Chemical and Biomolecular Engineering, North Carolina State University, Campus Box 7905, Raleigh, NC 27606, USA.

Department of Chemical and Biomolecular Engineering, North Carolina State University, Campus Box 7905, Raleigh, NC 27606, USA; Department of Biological Sciences, North Carolina State University, Raleigh, NC 27695-7905, USA.

出版信息

Stem Cell Reports. 2020 Oct 13;15(4):845-854. doi: 10.1016/j.stemcr.2020.08.006. Epub 2020 Sep 10.

DOI:10.1016/j.stemcr.2020.08.006

PMID:32916124

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7561513/

Abstract

Angelman syndrome is a complex neurodevelopmental disorder characterized by delayed development, intellectual disability, speech impairment, and ataxia. It results from the loss of UBE3A protein, an E3 ubiquitin ligase, in neurons of the brain. Despite the dynamic spatiotemporal expression of UBE3A observed in rodents and the potential clinical importance of when and where it is expressed, its expression pattern in humans remains unknown. This reflects a common challenge of studying human neurodevelopment: prenatal periods are hard to access experimentally. In this work, human cerebral organoids reveal a change from weak to strong UBE3A in neuronal nuclei within 3 weeks of culture. Angelman syndrome human induced pluripotent stem cell-derived organoids also exhibit early silencing of paternal UBE3A, with topoisomerase inhibitors partially rescuing UBE3A levels and calcium transient phenotypes. This work establishes human cerebral organoids as an important model for studying UBE3A and motivates their broader use in understanding complex neurodevelopmental disorders.

摘要

天使综合征是一种复杂的神经发育障碍，其特征是发育迟缓、智力障碍、言语障碍和共济失调。它是由于大脑神经元中 UBE3A 蛋白（一种 E3 泛素连接酶）的缺失引起的。尽管在啮齿动物中观察到 UBE3A 的动态时空表达，以及其表达时间和位置的潜在临床重要性，但人类的表达模式仍不清楚。这反映了研究人类神经发育的一个共同挑战：胚胎期很难进行实验研究。在这项工作中，人类大脑类器官在培养 3 周内显示出神经元核内 UBE3A 从弱到强的变化。天使综合征患者诱导多能干细胞衍生的类器官也表现出父本 UBE3A 的早期沉默，拓扑异构酶抑制剂部分挽救了 UBE3A 水平和钙瞬变表型。这项工作确立了人类大脑类器官作为研究 UBE3A 的重要模型，并促使其更广泛地用于理解复杂的神经发育障碍。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fb74/7561513/c35f21743b8f/fx1.jpg

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人类大脑类器官揭示 UBE3A 的早期时空动力学和药物反应

Human Cerebral Organoids Reveal Early Spatiotemporal Dynamics and Pharmacological Responses of UBE3A.

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