Literature DB >> 27732849

MECP2 Is Post-transcriptionally Regulated during Human Neurodevelopment by Combinatorial Action of RNA-Binding Proteins and miRNAs.

Deivid C Rodrigues1, Dae-Sung Kim1, Guang Yang2, Kirill Zaslavsky3, Kevin C H Ha4, Rebecca S F Mok3, P Joel Ross1, Melody Zhao3, Alina Piekna1, Wei Wei1, Benjamin J Blencowe4, Quaid Morris4, James Ellis5.   

Abstract

A progressive increase in MECP2 protein levels is a crucial and precisely regulated event during neurodevelopment, but the underlying mechanism is unclear. We report that MECP2 is regulated post-transcriptionally during in vitro differentiation of human embryonic stem cells (hESCs) into cortical neurons. Using reporters to identify functional RNA sequences in the MECP2 3' UTR and genetic manipulations to explore the role of interacting factors on endogenous MECP2, we discover combinatorial mechanisms that regulate RNA stability and translation. The RNA-binding protein PUM1 and pluripotent-specific microRNAs destabilize the long MECP2 3' UTR in hESCs. Hence, the 3' UTR appears to lengthen during differentiation as the long isoform becomes stable in neurons. Meanwhile, translation of MECP2 is repressed by TIA1 in hESCs until HuC predominates in neurons, resulting in a switch to translational enhancement. Ultimately, 3' UTR-directed translational fine-tuning differentially modulates MECP2 protein in the two cell types to levels appropriate for normal neurodevelopment.
Copyright © 2016 The Author(s). Published by Elsevier Inc. All rights reserved.

Entities:  

Keywords:  HuC; MECP2; PUM1; RNA-binding proteins; Rett syndrome; TIA1; mRNA stability; miRNAs; post-transcriptional regulation; translational regulation

Mesh:

Substances:

Year:  2016        PMID: 27732849     DOI: 10.1016/j.celrep.2016.09.049

Source DB:  PubMed          Journal:  Cell Rep            Impact factor:   9.423


  23 in total

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7.  QAPA: a new method for the systematic analysis of alternative polyadenylation from RNA-seq data.

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9.  Synaptic Dysfunction in Human Neurons With Autism-Associated Deletions in PTCHD1-AS.

Authors:  P Joel Ross; Wen-Bo Zhang; Rebecca S F Mok; Kirill Zaslavsky; Eric Deneault; Lia D'Abate; Deivid C Rodrigues; Ryan K C Yuen; Muhammad Faheem; Marat Mufteev; Alina Piekna; Wei Wei; Peter Pasceri; Rebecca J Landa; Andras Nagy; Balazs Varga; Michael W Salter; Stephen W Scherer; James Ellis
Journal:  Biol Psychiatry       Date:  2019-07-29       Impact factor: 13.382

10.  A Mild PUM1 Mutation Is Associated with Adult-Onset Ataxia, whereas Haploinsufficiency Causes Developmental Delay and Seizures.

Authors:  Vincenzo A Gennarino; Elizabeth E Palmer; Laura M McDonell; Li Wang; Carolyn J Adamski; Amanda Koire; Lauren See; Chun-An Chen; Christian P Schaaf; Jill A Rosenfeld; Jessica A Panzer; Ute Moog; Shuang Hao; Ann Bye; Edwin P Kirk; Pawel Stankiewicz; Amy M Breman; Arran McBride; Tejaswi Kandula; Holly A Dubbs; Rebecca Macintosh; Michael Cardamone; Ying Zhu; Kevin Ying; Kerith-Rae Dias; Megan T Cho; Lindsay B Henderson; Berivan Baskin; Paula Morris; Jiang Tao; Mark J Cowley; Marcel E Dinger; Tony Roscioli; Oana Caluseriu; Oksana Suchowersky; Rani K Sachdev; Olivier Lichtarge; Jianrong Tang; Kym M Boycott; J Lloyd Holder; Huda Y Zoghbi
Journal:  Cell       Date:  2018-02-22       Impact factor: 66.850
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