Literature DB >> 30955885

Antisense lncRNA Transcription Mediates DNA Demethylation to Drive Stochastic Protocadherin α Promoter Choice.

Daniele Canzio1, Chiamaka L Nwakeze1, Adan Horta1, Sandy M Rajkumar1, Eliot L Coffey2, Erin E Duffy3, Rachel Duffié1, Kevin Monahan1, Sean O'Keeffe4, Matthew D Simon3, Stavros Lomvardas1, Tom Maniatis5.   

Abstract

Stochastic activation of clustered Protocadherin (Pcdh) α, β, and γ genes generates a cell-surface identity code in individual neurons that functions in neural circuit assembly. Here, we show that Pcdhα gene choice involves the activation of an antisense promoter located in the first exon of each Pcdhα alternate gene. Transcription of an antisense long noncoding RNA (lncRNA) from this antisense promoter extends through the sense promoter, leading to DNA demethylation of the CTCF binding sites proximal to each promoter. Demethylation-dependent CTCF binding to both promoters facilitates cohesin-mediated DNA looping with a distal enhancer (HS5-1), locking in the transcriptional state of the chosen Pcdhα gene. Uncoupling DNA demethylation from antisense transcription by Tet3 overexpression in mouse olfactory neurons promotes CTCF binding to all Pcdhα promoters, resulting in proximity-biased DNA looping of the HS5-1 enhancer. Thus, antisense transcription-mediated promoter demethylation functions as a mechanism for distance-independent enhancer/promoter DNA looping to ensure stochastic Pcdhα promoter choice. Published by Elsevier Inc.

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Year:  2019        PMID: 30955885      PMCID: PMC6823843          DOI: 10.1016/j.cell.2019.03.008

Source DB:  PubMed          Journal:  Cell        ISSN: 0092-8674            Impact factor:   41.582


  47 in total

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