The circadian clock protein REVERBα inhibits pulmonary fibrosis development

Pulmonary inflammatory responses lie under circadian control; however, the importance of circadian mechanisms in the underlying fibrotic phenotype is not understood. Here, we identify a striking change to these mechanisms resulting in a gain of amplitude and lack of synchrony within pulmonary fibrot...

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Autores principales: Cunningham, Peter S., Meijer, Peter, Nazgiewicz, Alicja, Anderson, Simon G., Borthwick, Lee A., Bagnall, James, Kitchen, Gareth B., Lodyga, Monika, Begley, Nicola, Venkateswaran, Rajamiyer V., Shah, Rajesh, Mercer, Paul F., Durrington, Hannah J., Henderson, Neil C., Piper-Hanley, Karen, Fisher, Andrew J., Chambers, Rachel C., Bechtold, David A., Gibbs, Julie E., Loudon, Andrew S., Rutter, Martin K., Hinz, Boris, Ray, David W., Blaikley, John F.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: National Academy of Sciences 2020
Materias:
Biological Sciences
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6969503/
https://www.ncbi.nlm.nih.gov/pubmed/31879343
http://dx.doi.org/10.1073/pnas.1912109117
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author Cunningham, Peter S.
Meijer, Peter
Nazgiewicz, Alicja
Anderson, Simon G.
Borthwick, Lee A.
Bagnall, James
Kitchen, Gareth B.
Lodyga, Monika
Begley, Nicola
Venkateswaran, Rajamiyer V.
Shah, Rajesh
Mercer, Paul F.
Durrington, Hannah J.
Henderson, Neil C.
Piper-Hanley, Karen
Fisher, Andrew J.
Chambers, Rachel C.
Bechtold, David A.
Gibbs, Julie E.
Loudon, Andrew S.
Rutter, Martin K.
Hinz, Boris
Ray, David W.
Blaikley, John F.
author_facet Cunningham, Peter S.
Meijer, Peter
Nazgiewicz, Alicja
Anderson, Simon G.
Borthwick, Lee A.
Bagnall, James
Kitchen, Gareth B.
Lodyga, Monika
Begley, Nicola
Venkateswaran, Rajamiyer V.
Shah, Rajesh
Mercer, Paul F.
Durrington, Hannah J.
Henderson, Neil C.
Piper-Hanley, Karen
Fisher, Andrew J.
Chambers, Rachel C.
Bechtold, David A.
Gibbs, Julie E.
Loudon, Andrew S.
Rutter, Martin K.
Hinz, Boris
Ray, David W.
Blaikley, John F.
author_sort Cunningham, Peter S.
collection PubMed
description Pulmonary inflammatory responses lie under circadian control; however, the importance of circadian mechanisms in the underlying fibrotic phenotype is not understood. Here, we identify a striking change to these mechanisms resulting in a gain of amplitude and lack of synchrony within pulmonary fibrotic tissue. These changes result from an infiltration of mesenchymal cells, an important cell type in the pathogenesis of pulmonary fibrosis. Mutation of the core clock protein REVERBα in these cells exacerbated the development of bleomycin-induced fibrosis, whereas mutation of REVERBα in club or myeloid cells had no effect on the bleomycin phenotype. Knockdown of REVERBα revealed regulation of the little-understood transcription factor TBPL1. Both REVERBα and TBPL1 altered integrinβ1 focal-adhesion formation, resulting in increased myofibroblast activation. The translational importance of our findings was established through analysis of 2 human cohorts. In the UK Biobank, circadian strain markers (sleep length, chronotype, and shift work) are associated with pulmonary fibrosis, making them risk factors. In a separate cohort, REVERBα expression was increased in human idiopathic pulmonary fibrosis (IPF) lung tissue. Pharmacological targeting of REVERBα inhibited myofibroblast activation in IPF fibroblasts and collagen secretion in organotypic cultures from IPF patients, thus suggesting that targeting of REVERBα could be a viable therapeutic approach.
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spelling pubmed-69695032020-01-27 The circadian clock protein REVERBα inhibits pulmonary fibrosis development Cunningham, Peter S. Meijer, Peter Nazgiewicz, Alicja Anderson, Simon G. Borthwick, Lee A. Bagnall, James Kitchen, Gareth B. Lodyga, Monika Begley, Nicola Venkateswaran, Rajamiyer V. Shah, Rajesh Mercer, Paul F. Durrington, Hannah J. Henderson, Neil C. Piper-Hanley, Karen Fisher, Andrew J. Chambers, Rachel C. Bechtold, David A. Gibbs, Julie E. Loudon, Andrew S. Rutter, Martin K. Hinz, Boris Ray, David W. Blaikley, John F. Proc Natl Acad Sci U S A Biological Sciences Pulmonary inflammatory responses lie under circadian control; however, the importance of circadian mechanisms in the underlying fibrotic phenotype is not understood. Here, we identify a striking change to these mechanisms resulting in a gain of amplitude and lack of synchrony within pulmonary fibrotic tissue. These changes result from an infiltration of mesenchymal cells, an important cell type in the pathogenesis of pulmonary fibrosis. Mutation of the core clock protein REVERBα in these cells exacerbated the development of bleomycin-induced fibrosis, whereas mutation of REVERBα in club or myeloid cells had no effect on the bleomycin phenotype. Knockdown of REVERBα revealed regulation of the little-understood transcription factor TBPL1. Both REVERBα and TBPL1 altered integrinβ1 focal-adhesion formation, resulting in increased myofibroblast activation. The translational importance of our findings was established through analysis of 2 human cohorts. In the UK Biobank, circadian strain markers (sleep length, chronotype, and shift work) are associated with pulmonary fibrosis, making them risk factors. In a separate cohort, REVERBα expression was increased in human idiopathic pulmonary fibrosis (IPF) lung tissue. Pharmacological targeting of REVERBα inhibited myofibroblast activation in IPF fibroblasts and collagen secretion in organotypic cultures from IPF patients, thus suggesting that targeting of REVERBα could be a viable therapeutic approach. National Academy of Sciences 2020-01-14 2019-12-26 /pmc/articles/PMC6969503/ /pubmed/31879343 http://dx.doi.org/10.1073/pnas.1912109117 Text en Copyright © 2020 the Author(s). Published by PNAS. http://creativecommons.org/licenses/by/4.0/ https://creativecommons.org/licenses/by/4.0/This open access article is distributed under Creative Commons Attribution License 4.0 (CC BY) (http://creativecommons.org/licenses/by/4.0/) .
spellingShingle Biological Sciences
Cunningham, Peter S.
Meijer, Peter
Nazgiewicz, Alicja
Anderson, Simon G.
Borthwick, Lee A.
Bagnall, James
Kitchen, Gareth B.
Lodyga, Monika
Begley, Nicola
Venkateswaran, Rajamiyer V.
Shah, Rajesh
Mercer, Paul F.
Durrington, Hannah J.
Henderson, Neil C.
Piper-Hanley, Karen
Fisher, Andrew J.
Chambers, Rachel C.
Bechtold, David A.
Gibbs, Julie E.
Loudon, Andrew S.
Rutter, Martin K.
Hinz, Boris
Ray, David W.
Blaikley, John F.
The circadian clock protein REVERBα inhibits pulmonary fibrosis development
title The circadian clock protein REVERBα inhibits pulmonary fibrosis development
title_full The circadian clock protein REVERBα inhibits pulmonary fibrosis development
title_fullStr The circadian clock protein REVERBα inhibits pulmonary fibrosis development
title_full_unstemmed The circadian clock protein REVERBα inhibits pulmonary fibrosis development
title_short The circadian clock protein REVERBα inhibits pulmonary fibrosis development
title_sort circadian clock protein reverbα inhibits pulmonary fibrosis development
topic Biological Sciences
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6969503/
https://www.ncbi.nlm.nih.gov/pubmed/31879343
http://dx.doi.org/10.1073/pnas.1912109117
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