A MicroRNA Network Controls Legionella pneumophila Replication in Human Macrophages via LGALS8 and MX1

A MicroRNA Network Controls Legionella pneumophila Replication in Human Macrophages via LGALS8 and MX1

Cases of Legionella pneumophila pneumonia occur worldwide, with potentially fatal outcome. When causing human disease, Legionella injects a plethora of virulence factors to reprogram macrophages to circumvent immune defense and create a replication niche. By analyzing Legionella-induced changes in m...

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Main Authors: Christina E. Herkt, Brian E. Caffrey, Kristin Surmann, Sascha Blankenburg, Manuela Gesell Salazar, Anna L. Jung, Stefanie M. Herbel, Kerstin Hoffmann, Leon N. Schulte, Wei Chen, Alexandra Sittka-Stark, Uwe Völker, Martin Vingron, Annalisa Marsico, Wilhelm Bertrams, Bernd Schmeck
Format: Article
Language:English
Published: American Society for Microbiology 2020-03-01
Series:mBio
Subjects:
mirna
infection
macrophage
mx1
bacteria
galectin-8
legionella pneumophila
tp53
rig-i
ddx58
infectious disease
inflammation
macrophages
microrna
Online Access:https://doi.org/10.1128/mBio.03155-19
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spelling doaj-521fbfdb234d4ea49d148e924c7c65022021-07-02T11:39:08ZengAmerican Society for MicrobiologymBio2150-75112020-03-01112e03155-1910.1128/mBio.03155-19A MicroRNA Network Controls Legionella pneumophila Replication in Human Macrophages via LGALS8 and MX1Christina E. HerktBrian E. CaffreyKristin SurmannSascha BlankenburgManuela Gesell SalazarAnna L. JungStefanie M. HerbelKerstin HoffmannLeon N. SchulteWei ChenAlexandra Sittka-StarkUwe VölkerMartin VingronAnnalisa MarsicoWilhelm BertramsBernd SchmeckCases of Legionella pneumophila pneumonia occur worldwide, with potentially fatal outcome. When causing human disease, Legionella injects a plethora of virulence factors to reprogram macrophages to circumvent immune defense and create a replication niche. By analyzing Legionella-induced changes in miRNA expression and genomewide chromatin modifications in primary human macrophages, we identified a cell-autonomous immune network restricting Legionella growth. This network comprises three miRNAs governing expression of the cytosolic RNA receptor DDX58/RIG-I, the tumor suppressor TP53, the antibacterial effector LGALS8, and MX1, which has been described as an antiviral factor. Our findings for the first time link TP53, LGALS8, DDX58, and MX1 in one miRNA-regulated network and integrate them into a functional node in the defense against L. pneumophila.Legionella pneumophila is an important cause of pneumonia. It invades alveolar macrophages and manipulates the immune response by interfering with signaling pathways and gene transcription to support its own replication. MicroRNAs (miRNAs) are critical posttranscriptional regulators of gene expression and are involved in defense against bacterial infections. Several pathogens have been shown to exploit the host miRNA machinery to their advantage. We therefore hypothesize that macrophage miRNAs exert positive or negative control over Legionella intracellular replication. We found significant regulation of 85 miRNAs in human macrophages upon L. pneumophila infection. Chromatin immunoprecipitation and sequencing revealed concordant changes of histone acetylation at the putative promoters. Interestingly, a trio of miRNAs (miR-125b, miR-221, and miR-579) was found to significantly affect intracellular L. pneumophila replication in a cooperative manner. Using proteome-analysis, we pinpointed this effect to a concerted downregulation of galectin-8 (LGALS8), DExD/H-box helicase 58 (DDX58), tumor protein P53 (TP53), and then MX dynamin-like GTPase 1 (MX1) by the three miRNAs. In summary, our results demonstrate a new miRNA-controlled immune network restricting Legionella replication in human macrophages.https://doi.org/10.1128/mBio.03155-19mirnainfectionmacrophagemx1bacteriagalectin-8legionella pneumophilatp53rig-iddx58infectious diseaseinflammationmacrophagesmicrorna
collection DOAJ
language English
format Article
sources DOAJ
author Christina E. Herkt
Brian E. Caffrey
Kristin Surmann
Sascha Blankenburg
Manuela Gesell Salazar
Anna L. Jung
Stefanie M. Herbel
Kerstin Hoffmann
Leon N. Schulte
Wei Chen
Alexandra Sittka-Stark
Uwe Völker
Martin Vingron
Annalisa Marsico
Wilhelm Bertrams
Bernd Schmeck
spellingShingle Christina E. Herkt
Brian E. Caffrey
Kristin Surmann
Sascha Blankenburg
Manuela Gesell Salazar
Anna L. Jung
Stefanie M. Herbel
Kerstin Hoffmann
Leon N. Schulte
Wei Chen
Alexandra Sittka-Stark
Uwe Völker
Martin Vingron
Annalisa Marsico
Wilhelm Bertrams
Bernd Schmeck
A MicroRNA Network Controls Legionella pneumophila Replication in Human Macrophages via LGALS8 and MX1
mBio
mirna
infection
macrophage
mx1
bacteria
galectin-8
legionella pneumophila
tp53
rig-i
ddx58
infectious disease
inflammation
macrophages
microrna
author_facet Christina E. Herkt
Brian E. Caffrey
Kristin Surmann
Sascha Blankenburg
Manuela Gesell Salazar
Anna L. Jung
Stefanie M. Herbel
Kerstin Hoffmann
Leon N. Schulte
Wei Chen
Alexandra Sittka-Stark
Uwe Völker
Martin Vingron
Annalisa Marsico
Wilhelm Bertrams
Bernd Schmeck
author_sort Christina E. Herkt
title A MicroRNA Network Controls Legionella pneumophila Replication in Human Macrophages via LGALS8 and MX1
title_short A MicroRNA Network Controls Legionella pneumophila Replication in Human Macrophages via LGALS8 and MX1
title_full A MicroRNA Network Controls Legionella pneumophila Replication in Human Macrophages via LGALS8 and MX1
title_fullStr A MicroRNA Network Controls Legionella pneumophila Replication in Human Macrophages via LGALS8 and MX1
title_full_unstemmed A MicroRNA Network Controls Legionella pneumophila Replication in Human Macrophages via LGALS8 and MX1
title_sort microrna network controls legionella pneumophila replication in human macrophages via lgals8 and mx1
publisher American Society for Microbiology
series mBio
issn 2150-7511
publishDate 2020-03-01
description Cases of Legionella pneumophila pneumonia occur worldwide, with potentially fatal outcome. When causing human disease, Legionella injects a plethora of virulence factors to reprogram macrophages to circumvent immune defense and create a replication niche. By analyzing Legionella-induced changes in miRNA expression and genomewide chromatin modifications in primary human macrophages, we identified a cell-autonomous immune network restricting Legionella growth. This network comprises three miRNAs governing expression of the cytosolic RNA receptor DDX58/RIG-I, the tumor suppressor TP53, the antibacterial effector LGALS8, and MX1, which has been described as an antiviral factor. Our findings for the first time link TP53, LGALS8, DDX58, and MX1 in one miRNA-regulated network and integrate them into a functional node in the defense against L. pneumophila.Legionella pneumophila is an important cause of pneumonia. It invades alveolar macrophages and manipulates the immune response by interfering with signaling pathways and gene transcription to support its own replication. MicroRNAs (miRNAs) are critical posttranscriptional regulators of gene expression and are involved in defense against bacterial infections. Several pathogens have been shown to exploit the host miRNA machinery to their advantage. We therefore hypothesize that macrophage miRNAs exert positive or negative control over Legionella intracellular replication. We found significant regulation of 85 miRNAs in human macrophages upon L. pneumophila infection. Chromatin immunoprecipitation and sequencing revealed concordant changes of histone acetylation at the putative promoters. Interestingly, a trio of miRNAs (miR-125b, miR-221, and miR-579) was found to significantly affect intracellular L. pneumophila replication in a cooperative manner. Using proteome-analysis, we pinpointed this effect to a concerted downregulation of galectin-8 (LGALS8), DExD/H-box helicase 58 (DDX58), tumor protein P53 (TP53), and then MX dynamin-like GTPase 1 (MX1) by the three miRNAs. In summary, our results demonstrate a new miRNA-controlled immune network restricting Legionella replication in human macrophages.
topic mirna
infection
macrophage
mx1
bacteria
galectin-8
legionella pneumophila
tp53
rig-i
ddx58
infectious disease
inflammation
macrophages
microrna
url https://doi.org/10.1128/mBio.03155-19
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