Literature DB >> 33501759

Pharmacological reversal of synaptic and network pathology in human MECP2-KO neurons and cortical organoids.

Cleber A Trujillo1, Jason W Adams1,2,3, Priscilla D Negraes1,4, Cassiano Carromeu1,4, Leon Tejwani1, Allan Acab1, Ben Tsuda2,5, Charles A Thomas1, Neha Sodhi4, Katherine M Fichter4, Sarah Romero4, Fabian Zanella4, Terrence J Sejnowski5,6,7, Henning Ulrich8, Alysson R Muotri1,3.   

Abstract

Duplication or deficiency of the X-linked MECP2 gene reliably produces profound neurodevelopmental impairment. MECP2 mutations are almost universally responsible for Rett syndrome (RTT), and particular mutations and cellular mosaicism of MECP2 may underlie the spectrum of RTT symptomatic severity. No clinically approved treatments for RTT are currently available, but human pluripotent stem cell technology offers a platform to identify neuropathology and test candidate therapeutics. Using a strategic series of increasingly complex human stem cell-derived technologies, including human neurons, MECP2-mosaic neurospheres to model RTT female brain mosaicism, and cortical organoids, we identified synaptic dysregulation downstream from knockout of MECP2 and screened select pharmacological compounds for their ability to treat this dysfunction. Two lead compounds, Nefiracetam and PHA 543613, specifically reversed MECP2-knockout cytologic neuropathology. The capacity of these compounds to reverse neuropathologic phenotypes and networks in human models supports clinical studies for neurodevelopmental disorders in which MeCP2 deficiency is the predominant etiology.
© 2020 The Authors. Published under the terms of the CC BY 4.0 license.

Entities:  

Keywords:  MECP2 mosaicism; cortical organoids; drug discovery; neurodevelopmental disease modeling; stem cells

Mesh:

Substances:

Year:  2020        PMID: 33501759      PMCID: PMC7799367          DOI: 10.15252/emmm.202012523

Source DB:  PubMed          Journal:  EMBO Mol Med        ISSN: 1757-4676            Impact factor:   14.260


  62 in total

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Authors:  Maria C N Marchetto; Cassiano Carromeu; Allan Acab; Diana Yu; Gene W Yeo; Yangling Mu; Gong Chen; Fred H Gage; Alysson R Muotri
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Authors:  Rodney C Samaco; Amber Hogart; Janine M LaSalle
Journal:  Hum Mol Genet       Date:  2004-12-22       Impact factor: 6.150

3.  Defective GABAergic neurotransmission in the nucleus tractus solitarius in Mecp2-null mice, a model of Rett syndrome.

Authors:  Chao-Yin Chen; Jacopo Di Lucente; Yen-Chu Lin; Cheng-Chang Lien; Michael A Rogawski; Izumi Maezawa; Lee-Way Jin
Journal:  Neurobiol Dis       Date:  2017-09-18       Impact factor: 5.996

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5.  Alterations in the cholinergic system of brain stem neurons in a mouse model of Rett syndrome.

Authors:  Max F Oginsky; Ningren Cui; Weiwei Zhong; Christopher M Johnson; Chun Jiang
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6.  Cerebral Organoids Recapitulate Epigenomic Signatures of the Human Fetal Brain.

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Journal:  Nucleic Acids Res       Date:  2005-07-01       Impact factor: 16.971

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Authors:  Rodrigo F O Pena; Michael A Zaks; Antonio C Roque
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9.  Robust timing and motor patterns by taming chaos in recurrent neural networks.

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10.  A human neurodevelopmental model for Williams syndrome.

Authors:  Thanathom Chailangkarn; Cleber A Trujillo; Beatriz C Freitas; Branka Hrvoj-Mihic; Roberto H Herai; Diana X Yu; Timothy T Brown; Maria C Marchetto; Cedric Bardy; Lauren McHenry; Lisa Stefanacci; Anna Järvinen; Yvonne M Searcy; Michelle DeWitt; Wenny Wong; Philip Lai; M Colin Ard; Kari L Hanson; Sarah Romero; Bob Jacobs; Anders M Dale; Li Dai; Julie R Korenberg; Fred H Gage; Ursula Bellugi; Eric Halgren; Katerina Semendeferi; Alysson R Muotri
Journal:  Nature       Date:  2016-08-10       Impact factor: 49.962
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  14 in total

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Review 6.  Multielectrode Arrays for Functional Phenotyping of Neurons from Induced Pluripotent Stem Cell Models of Neurodevelopmental Disorders.

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7.  Analysis of the circRNA and T-UCR populations identifies convergent pathways in mouse and human models of Rett syndrome.

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10.  Editorial: The 11 th Edition of the International Meeting of the SPCE-TC: Advances in Stem Cells and Cell Therapies.

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