The long noncoding RNA Falcor regulates Foxa2 expression to maintain lung epithelial homeostasis and promote regeneration

Transcription factors (TFs) are dosage-sensitive master regulators of gene expression, with haploinsufficiency frequently leading to life-threatening disease. Numerous mechanisms have evolved to tightly regulate the expression and activity of TFs at the transcriptional, translational, and posttransl...

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Autores principales: Swarr, Daniel T., Herriges, Michael, Li, Shanru, Morley, Mike, Fernandes, Sharlene, Sridharan, Anusha, Zhou, Su, Garcia, Benjamin A., Stewart, Kathleen, Morrisey, Edward E.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Cold Spring Harbor Laboratory Press 2019
Materias:
Research Paper
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6546060/
https://www.ncbi.nlm.nih.gov/pubmed/30923168
http://dx.doi.org/10.1101/gad.320523.118
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author Swarr, Daniel T.
Herriges, Michael
Li, Shanru
Morley, Mike
Fernandes, Sharlene
Sridharan, Anusha
Zhou, Su
Garcia, Benjamin A.
Stewart, Kathleen
Morrisey, Edward E.
author_facet Swarr, Daniel T.
Herriges, Michael
Li, Shanru
Morley, Mike
Fernandes, Sharlene
Sridharan, Anusha
Zhou, Su
Garcia, Benjamin A.
Stewart, Kathleen
Morrisey, Edward E.
author_sort Swarr, Daniel T.
collection PubMed
description Transcription factors (TFs) are dosage-sensitive master regulators of gene expression, with haploinsufficiency frequently leading to life-threatening disease. Numerous mechanisms have evolved to tightly regulate the expression and activity of TFs at the transcriptional, translational, and posttranslational levels. A subset of long noncoding RNAs (lncRNAs) is spatially correlated with transcription factors in the genome, but the regulatory relationship between these lncRNAs and their neighboring TFs is unclear. We identified a regulatory feedback loop between the TF Foxa2 and a downstream lncRNA, Falcor (Foxa2-adjacent long noncoding RNA). Foxa2 directly represses Falcor expression by binding to its promoter, while Falcor functions in cis to positively regulate the expression of Foxa2. In the lung, loss of Falcor is sufficient to lead to chronic inflammatory changes and defective repair after airway epithelial injury. Moreover, disruption of the Falcor–Foxa2 regulatory feedback loop leads to altered cell adhesion and migration, in turn resulting in chronic peribronchial airway inflammation and goblet cell metaplasia. These data reveal that the lncRNA Falcor functions within a regulatory feedback loop to fine-tune the expression of Foxa2, maintain airway epithelial homeostasis, and promote regeneration.
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spelling pubmed-65460602019-12-01 The long noncoding RNA Falcor regulates Foxa2 expression to maintain lung epithelial homeostasis and promote regeneration Swarr, Daniel T. Herriges, Michael Li, Shanru Morley, Mike Fernandes, Sharlene Sridharan, Anusha Zhou, Su Garcia, Benjamin A. Stewart, Kathleen Morrisey, Edward E. Genes Dev Research Paper Transcription factors (TFs) are dosage-sensitive master regulators of gene expression, with haploinsufficiency frequently leading to life-threatening disease. Numerous mechanisms have evolved to tightly regulate the expression and activity of TFs at the transcriptional, translational, and posttranslational levels. A subset of long noncoding RNAs (lncRNAs) is spatially correlated with transcription factors in the genome, but the regulatory relationship between these lncRNAs and their neighboring TFs is unclear. We identified a regulatory feedback loop between the TF Foxa2 and a downstream lncRNA, Falcor (Foxa2-adjacent long noncoding RNA). Foxa2 directly represses Falcor expression by binding to its promoter, while Falcor functions in cis to positively regulate the expression of Foxa2. In the lung, loss of Falcor is sufficient to lead to chronic inflammatory changes and defective repair after airway epithelial injury. Moreover, disruption of the Falcor–Foxa2 regulatory feedback loop leads to altered cell adhesion and migration, in turn resulting in chronic peribronchial airway inflammation and goblet cell metaplasia. These data reveal that the lncRNA Falcor functions within a regulatory feedback loop to fine-tune the expression of Foxa2, maintain airway epithelial homeostasis, and promote regeneration. Cold Spring Harbor Laboratory Press 2019-06-01 /pmc/articles/PMC6546060/ /pubmed/30923168 http://dx.doi.org/10.1101/gad.320523.118 Text en © 2019 Swarr et al.; Published by Cold Spring Harbor Laboratory Press http://creativecommons.org/licenses/by-nc/4.0/ This article is distributed exclusively by Cold Spring Harbor Laboratory Press for the first six months after the full-issue publication date (see http://genesdev.cshlp.org/site/misc/terms.xhtml). After six months, it is available under a Creative Commons License (Attribution-NonCommercial 4.0 International), as described at http://creativecommons.org/licenses/by-nc/4.0/.
spellingShingle Research Paper
Swarr, Daniel T.
Herriges, Michael
Li, Shanru
Morley, Mike
Fernandes, Sharlene
Sridharan, Anusha
Zhou, Su
Garcia, Benjamin A.
Stewart, Kathleen
Morrisey, Edward E.
The long noncoding RNA Falcor regulates Foxa2 expression to maintain lung epithelial homeostasis and promote regeneration
title The long noncoding RNA Falcor regulates Foxa2 expression to maintain lung epithelial homeostasis and promote regeneration
title_full The long noncoding RNA Falcor regulates Foxa2 expression to maintain lung epithelial homeostasis and promote regeneration
title_fullStr The long noncoding RNA Falcor regulates Foxa2 expression to maintain lung epithelial homeostasis and promote regeneration
title_full_unstemmed The long noncoding RNA Falcor regulates Foxa2 expression to maintain lung epithelial homeostasis and promote regeneration
title_short The long noncoding RNA Falcor regulates Foxa2 expression to maintain lung epithelial homeostasis and promote regeneration
title_sort long noncoding rna falcor regulates foxa2 expression to maintain lung epithelial homeostasis and promote regeneration
topic Research Paper
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6546060/
https://www.ncbi.nlm.nih.gov/pubmed/30923168
http://dx.doi.org/10.1101/gad.320523.118
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