Dynamic Developmental Regulation of the Large Non-coding RNA Associated with the Mouse 7C Imprinted Chromosomal Region

Overview

Journal Dev Biol

Publisher Elsevier

Specialties Biology
Reproductive Medicine

Date 2005 Aug 30

PMID 16126194

Citations 38

Authors

Elodie Le Meur

Francoise Watrin

Miguel Landers

Rachel Sturny

Marc Lalande

Francoise Muscatelli

Affiliations

Soon will be listed here.

Abstract

The mouse ortholog of the Prader-Willi/Angelman syndrome imprinted domain contains several paternal-specific transcripts and the maternally expressed gene encoding ubiquitin protein ligase E3A (Ube3a). A Large paternal Non-Coding RNA, encompassing Snurf-Snrpn exons and the Ube3a Antisense Transcript (Ube3a-ATS), has been recently characterized and named here LNCAT. Potential roles of LNCAT in imprinting, gene regulation, and disease are likely but have not been investigated. In order to establish the function(s) of LNCAT, we first determined its in vivo spatio-temporal expression pattern at the cellular level during development and in different adult brain tissues. We show here that LNCAT is developmentally regulated, with transcript variants being specifically expressed through neuronal differentiation in postmitotic neurons. We demonstrate that the LNCAT and Snurf-Snrpn transcripts are independent although they share common exons. We show an absence of expression of LNCAT through gametogenesis and in early embryo excluding a role of LNCAT in the imprint establishment. We also report a range of observations that challenges the widely accepted model of imprinted gene silencing of Ube3a. Although these last data do not completely exclude that the LNCAT variants including "Ube3a-ATS"exons could repress the paternal allele of Ube3a, they do allow us to propose an alternative and consistent model.

Citing Articles

Preclinical Testing in Translational Animal Models of Prader-Willi Syndrome: Overview and Gap Analysis.

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Markers associated with neuron-specific Ube3a imprinting during neuronal differentiation of mouse embryonic stem cells.

Eitoku M, Kato H, Suganuma N, Kiyosawa H Cytotechnology. 2017; 70(1):45-53.

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Long noncoding RNA and its contribution to autism spectrum disorders.

Tang J, Yu Y, Yang W CNS Neurosci Ther. 2017; 23(8):645-656.

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Targeting the histone methyltransferase G9a activates imprinted genes and improves survival of a mouse model of Prader-Willi syndrome.

Kim Y, Lee H, Xiong Y, Sciaky N, Hulbert S, Cao X Nat Med. 2016; 23(2):213-222.

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Subcellular organization of UBE3A in neurons.

Burette A, Judson M, Burette S, Phend K, Philpot B, Weinberg R J Comp Neurol. 2016; 525(2):233-251.

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