Literature DB >> 31857479

Potassium channel dysfunction in human neuronal models of Angelman syndrome.

Alfred Xuyang Sun1,2, Qiang Yuan3,4, Masahiro Fukuda4, Weonjin Yu4, Haidun Yan5, Grace Gui Yin Lim6, Mui Hoon Nai7, Giuseppe Alessandro D'Agostino8, Hoang-Dai Tran2, Yoko Itahana9, Danlei Wang6, Hidayat Lokman4, Koji Itahana9, Stephanie Wai Lin Lim4, Jiong Tang10, Ya Yin Chang6, Menglan Zhang4, Stuart A Cook8, Owen J L Rackham8, Chwee Teck Lim7, Eng King Tan6,4, Huck Hui Ng2, Kah Leong Lim6,11,12, Yong-Hui Jiang5, Hyunsoo Shawn Je13,11.   

Abstract

Disruptions in the ubiquitin protein ligase E3A (UBE3A) gene cause Angelman syndrome (AS). Whereas AS model mice have associated synaptic dysfunction and altered plasticity with abnormal behavior, whether similar or other mechanisms contribute to network hyperactivity and epilepsy susceptibility in AS patients remains unclear. Using human neurons and brain organoids, we demonstrate that UBE3A suppresses neuronal hyperexcitability via ubiquitin-mediated degradation of calcium- and voltage-dependent big potassium (BK) channels. We provide evidence that augmented BK channel activity manifests as increased intrinsic excitability in individual neurons and subsequent network synchronization. BK antagonists normalized neuronal excitability in both human and mouse neurons and ameliorated seizure susceptibility in an AS mouse model. Our findings suggest that BK channelopathy underlies epilepsy in AS and support the use of human cells to model human developmental diseases.
Copyright © 2019 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.

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Year:  2019        PMID: 31857479      PMCID: PMC7735558          DOI: 10.1126/science.aav5386

Source DB:  PubMed          Journal:  Science        ISSN: 0036-8075            Impact factor:   47.728


  31 in total

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