Phosphorylation of TRIM28 Enhances the Expression of IFN-β and Proinflammatory Cytokines During HPAIV Infection of Human Lung Epithelial Cells

Phosphorylation of TRIM28 Enhances the Expression of IFN-β and Proinflammatory Cytokines During HPAIV Infection of Human Lung Epithelial Cells

Human infection with highly pathogenic avian influenza viruses (HPAIV) is often associated with severe tissue damage due to hyperinduction of interferons and proinflammatory cytokines. The reasons for this excessive cytokine expression are still incompletely understood, which has hampered the develo...

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Main Authors: Tim Krischuns, Franziska Günl, Lea Henschel, Marco Binder, Joschka Willemsen, Sebastian Schloer, Ursula Rescher, Vanessa Gerlt, Gert Zimmer, Carolin Nordhoff, Stephan Ludwig, Linda Brunotte
Format: Article
Language:English
Published: Frontiers Media S.A. 2018-09-01
Series:Frontiers in Immunology
Subjects:
influenza
TRIM28
KAP1
TIF1-beta
innate immunity
IFN-β
Online Access:https://www.frontiersin.org/article/10.3389/fimmu.2018.02229/full
id doaj-5d889f0f837c463b80d099c80cc2c69c
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language English
format Article
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author Tim Krischuns
Tim Krischuns
Franziska Günl
Franziska Günl
Lea Henschel
Lea Henschel
Marco Binder
Joschka Willemsen
Sebastian Schloer
Sebastian Schloer
Ursula Rescher
Ursula Rescher
Vanessa Gerlt
Vanessa Gerlt
Gert Zimmer
Gert Zimmer
Carolin Nordhoff
Carolin Nordhoff
Stephan Ludwig
Stephan Ludwig
Linda Brunotte
Linda Brunotte
spellingShingle Tim Krischuns
Tim Krischuns
Franziska Günl
Franziska Günl
Lea Henschel
Lea Henschel
Marco Binder
Joschka Willemsen
Sebastian Schloer
Sebastian Schloer
Ursula Rescher
Ursula Rescher
Vanessa Gerlt
Vanessa Gerlt
Gert Zimmer
Gert Zimmer
Carolin Nordhoff
Carolin Nordhoff
Stephan Ludwig
Stephan Ludwig
Linda Brunotte
Linda Brunotte
Phosphorylation of TRIM28 Enhances the Expression of IFN-β and Proinflammatory Cytokines During HPAIV Infection of Human Lung Epithelial Cells
Frontiers in Immunology
influenza
TRIM28
KAP1
TIF1-beta
innate immunity
IFN-β
author_facet Tim Krischuns
Tim Krischuns
Franziska Günl
Franziska Günl
Lea Henschel
Lea Henschel
Marco Binder
Joschka Willemsen
Sebastian Schloer
Sebastian Schloer
Ursula Rescher
Ursula Rescher
Vanessa Gerlt
Vanessa Gerlt
Gert Zimmer
Gert Zimmer
Carolin Nordhoff
Carolin Nordhoff
Stephan Ludwig
Stephan Ludwig
Linda Brunotte
Linda Brunotte
author_sort Tim Krischuns
title Phosphorylation of TRIM28 Enhances the Expression of IFN-β and Proinflammatory Cytokines During HPAIV Infection of Human Lung Epithelial Cells
title_short Phosphorylation of TRIM28 Enhances the Expression of IFN-β and Proinflammatory Cytokines During HPAIV Infection of Human Lung Epithelial Cells
title_full Phosphorylation of TRIM28 Enhances the Expression of IFN-β and Proinflammatory Cytokines During HPAIV Infection of Human Lung Epithelial Cells
title_fullStr Phosphorylation of TRIM28 Enhances the Expression of IFN-β and Proinflammatory Cytokines During HPAIV Infection of Human Lung Epithelial Cells
title_full_unstemmed Phosphorylation of TRIM28 Enhances the Expression of IFN-β and Proinflammatory Cytokines During HPAIV Infection of Human Lung Epithelial Cells
title_sort phosphorylation of trim28 enhances the expression of ifn-β and proinflammatory cytokines during hpaiv infection of human lung epithelial cells
publisher Frontiers Media S.A.
series Frontiers in Immunology
issn 1664-3224
publishDate 2018-09-01
description Human infection with highly pathogenic avian influenza viruses (HPAIV) is often associated with severe tissue damage due to hyperinduction of interferons and proinflammatory cytokines. The reasons for this excessive cytokine expression are still incompletely understood, which has hampered the development of efficient immunomodulatory treatment options. The host protein TRIM28 associates to the promoter regions of over 13,000 genes and is recognized as a genomic corepressor and negative immune regulator. TRIM28 corepressor activity is regulated by post-translational modifications, specifically phosphorylation of S473, which modulates binding of TRIM28 to the heterochromatin-binding protein HP1. Here, we identified TRIM28 as a key immune regulator leading to increased IFN-β and proinflammatory cytokine levels during infection with HPAIV. Using influenza A virus strains of the subtype H1N1 as well as HPAIV of subtypes H7N7, H7N9, and H5N1, we could demonstrate that strain-specific phosphorylation of TRIM28 S473 is induced by a signaling cascade constituted of PKR, p38 MAPK, and MSK1 in response to RIG-I independent sensing of viral RNA. Furthermore, using chemical inhibitors as well as knockout cell lines, our results suggest that phosphorylation of S473 facilitates a functional switch leading to increased levels of IFN-β, IL-6, and IL-8. In summary, we have identified TRIM28 as a critical factor controlling excessive expression of type I IFNs as well as proinflammatory cytokines during infection with H5N1, H7N7, and H7N9 HPAIV. In addition, our data indicate a novel mechanism of PKR-mediated IFN-β expression, which could lay the ground for novel treatment options aiming at rebalancing dysregulated immune responses during severe HPAIV infection.
topic influenza
TRIM28
KAP1
TIF1-beta
innate immunity
IFN-β
url https://www.frontiersin.org/article/10.3389/fimmu.2018.02229/full
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spelling doaj-5d889f0f837c463b80d099c80cc2c69c2020-11-24T22:21:03ZengFrontiers Media S.A.Frontiers in Immunology1664-32242018-09-01910.3389/fimmu.2018.02229402574Phosphorylation of TRIM28 Enhances the Expression of IFN-β and Proinflammatory Cytokines During HPAIV Infection of Human Lung Epithelial CellsTim Krischuns0Tim Krischuns1Franziska Günl2Franziska Günl3Lea Henschel4Lea Henschel5Marco Binder6Joschka Willemsen7Sebastian Schloer8Sebastian Schloer9Ursula Rescher10Ursula Rescher11Vanessa Gerlt12Vanessa Gerlt13Gert Zimmer14Gert Zimmer15Carolin Nordhoff16Carolin Nordhoff17Stephan Ludwig18Stephan Ludwig19Linda Brunotte20Linda Brunotte21Institute of Virology Muenster, Westfaelische Wilhelms-University Muenster, Muenster, GermanyCluster of Excellence “Cells in Motion”, Westfaelische Wilhelms-University Muenster, Muenster, GermanyInstitute of Virology Muenster, Westfaelische Wilhelms-University Muenster, Muenster, GermanyCluster of Excellence “Cells in Motion”, Westfaelische Wilhelms-University Muenster, Muenster, GermanyInstitute of Virology Muenster, Westfaelische Wilhelms-University Muenster, Muenster, GermanyCluster of Excellence “Cells in Motion”, Westfaelische Wilhelms-University Muenster, Muenster, GermanyResearch Group “Dynamics of Early Viral Infection and the Innate Antiviral Response”, Division Virus-Associated Carcinogenesis (F170), German Cancer Research Center (DKFZ), Heidelberg, GermanyResearch Group “Dynamics of Early Viral Infection and the Innate Antiviral Response”, Division Virus-Associated Carcinogenesis (F170), German Cancer Research Center (DKFZ), Heidelberg, GermanyCluster of Excellence “Cells in Motion”, Westfaelische Wilhelms-University Muenster, Muenster, GermanyCenter for Molecular Biology of Inflammation, Institute of Medical Biochemistry, Westfaelische Wilhelms-University Muenster, Muenster, GermanyCluster of Excellence “Cells in Motion”, Westfaelische Wilhelms-University Muenster, Muenster, GermanyCenter for Molecular Biology of Inflammation, Institute of Medical Biochemistry, Westfaelische Wilhelms-University Muenster, Muenster, GermanyInstitute of Virology Muenster, Westfaelische Wilhelms-University Muenster, Muenster, GermanyCluster of Excellence “Cells in Motion”, Westfaelische Wilhelms-University Muenster, Muenster, GermanyInstitute of Virology and Immunology (IVI), Bern, SwitzerlandDepartment of Infectious Diseases and Pathobiology (DIP), Vetsuisse Faculty, University of Bern, Bern, SwitzerlandInstitute of Virology Muenster, Westfaelische Wilhelms-University Muenster, Muenster, GermanyCluster of Excellence “Cells in Motion”, Westfaelische Wilhelms-University Muenster, Muenster, GermanyInstitute of Virology Muenster, Westfaelische Wilhelms-University Muenster, Muenster, GermanyCluster of Excellence “Cells in Motion”, Westfaelische Wilhelms-University Muenster, Muenster, GermanyInstitute of Virology Muenster, Westfaelische Wilhelms-University Muenster, Muenster, GermanyCluster of Excellence “Cells in Motion”, Westfaelische Wilhelms-University Muenster, Muenster, GermanyHuman infection with highly pathogenic avian influenza viruses (HPAIV) is often associated with severe tissue damage due to hyperinduction of interferons and proinflammatory cytokines. The reasons for this excessive cytokine expression are still incompletely understood, which has hampered the development of efficient immunomodulatory treatment options. The host protein TRIM28 associates to the promoter regions of over 13,000 genes and is recognized as a genomic corepressor and negative immune regulator. TRIM28 corepressor activity is regulated by post-translational modifications, specifically phosphorylation of S473, which modulates binding of TRIM28 to the heterochromatin-binding protein HP1. Here, we identified TRIM28 as a key immune regulator leading to increased IFN-β and proinflammatory cytokine levels during infection with HPAIV. Using influenza A virus strains of the subtype H1N1 as well as HPAIV of subtypes H7N7, H7N9, and H5N1, we could demonstrate that strain-specific phosphorylation of TRIM28 S473 is induced by a signaling cascade constituted of PKR, p38 MAPK, and MSK1 in response to RIG-I independent sensing of viral RNA. Furthermore, using chemical inhibitors as well as knockout cell lines, our results suggest that phosphorylation of S473 facilitates a functional switch leading to increased levels of IFN-β, IL-6, and IL-8. In summary, we have identified TRIM28 as a critical factor controlling excessive expression of type I IFNs as well as proinflammatory cytokines during infection with H5N1, H7N7, and H7N9 HPAIV. In addition, our data indicate a novel mechanism of PKR-mediated IFN-β expression, which could lay the ground for novel treatment options aiming at rebalancing dysregulated immune responses during severe HPAIV infection.https://www.frontiersin.org/article/10.3389/fimmu.2018.02229/fullinfluenzaTRIM28KAP1TIF1-betainnate immunityIFN-β

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