A gene expression map of host immune response in human brucellosis

Brucellosis is a common zoonotic disease caused by intracellular pathogens of the genus Brucella . Brucella infects macrophages and evades clearance mechanisms, thus resulting in chronic parasitism. Herein, we studied the molecular changes that take place in human brucellosis both in vitro and ex vi...

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Published inFrontiers in immunology Vol. 13; p. 951232
Main Authors Mitroulis, Ioannis, Chrysanthopoulou, Akrivi, Divolis, Georgios, Ioannidis, Charalampos, Ntinopoulou, Maria, Tasis, Athanasios, Konstantinidis, Theocharis, Antoniadou, Christina, Soteriou, Natalia, Lallas, George, Mitka, Stella, Lesche, Mathias, Dahl, Andreas, Gembardt, Stephanie, Panopoulou, Maria, Sideras, Paschalis, Wielockx, Ben, Coskun, Ünal, Ritis, Konstantinos, Skendros, Panagiotis
Format Journal Article
LanguageEnglish
Published Frontiers Media S.A 01.08.2022
Subjects
brucellosis
immunity
Immunology
macrophages
peripheral blood mononuclear cells
polymorphonuclear neutrophils
transcriptomics
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Abstract Brucellosis is a common zoonotic disease caused by intracellular pathogens of the genus Brucella . Brucella infects macrophages and evades clearance mechanisms, thus resulting in chronic parasitism. Herein, we studied the molecular changes that take place in human brucellosis both in vitro and ex vivo. RNA sequencing was performed in primary human macrophages (Mφ) and polymorphonuclear neutrophils (PMNs) infected with a clinical strain of Brucella spp. We observed a downregulation in the expression of genes involved in host response, such as TNF signaling, IL-1β production, and phagosome formation in Mφ, and phosphatidylinositol signaling and TNF signaling in PMNs, being in line with the ability of the pathogen to survive within phagocytes. Further transcriptomic analysis of isolated peripheral blood mononuclear cells (PBMCs) and PMNs from patients with acute brucellosis before treatment initiation and after successful treatment revealed a positive correlation of the molecular signature of active disease with pathways associated with response to interferons (IFN). We identified 24 common genes that were significantly altered in both PMNs and PBMCs, including genes involved in IFN signaling that were downregulated after treatment in both cell populations, and IL1R1 that was upregulated. The concentration of several inflammatory mediators was measured in the serum of these patients, and levels of IFN-γ, IL-1β and IL-6 were found significantly increased before the treatment of acute brucellosis. An independent cohort of patients with chronic brucellosis also revealed increased levels of IFN-γ during relapse compared to remissions. Taken together, this study provides for the first time an in-depth analysis of the transcriptomic alterations that take place in human phagocytes upon infection, and in peripheral blood immune populations during active disease.
AbstractList Brucellosis is a common zoonotic disease caused by intracellular pathogens of the genus Brucella. Brucella infects macrophages and evades clearance mechanisms, thus resulting in chronic parasitism. Herein, we studied the molecular changes that take place in human brucellosis both in vitro and ex vivo. RNA sequencing was performed in primary human macrophages (Mφ) and polymorphonuclear neutrophils (PMNs) infected with a clinical strain of Brucella spp. We observed a downregulation in the expression of genes involved in host response, such as TNF signaling, IL-1β production, and phagosome formation in Mφ, and phosphatidylinositol signaling and TNF signaling in PMNs, being in line with the ability of the pathogen to survive within phagocytes. Further transcriptomic analysis of isolated peripheral blood mononuclear cells (PBMCs) and PMNs from patients with acute brucellosis before treatment initiation and after successful treatment revealed a positive correlation of the molecular signature of active disease with pathways associated with response to interferons (IFN). We identified 24 common genes that were significantly altered in both PMNs and PBMCs, including genes involved in IFN signaling that were downregulated after treatment in both cell populations, and IL1R1 that was upregulated. The concentration of several inflammatory mediators was measured in the serum of these patients, and levels of IFN-γ, IL-1β and IL-6 were found significantly increased before the treatment of acute brucellosis. An independent cohort of patients with chronic brucellosis also revealed increased levels of IFN-γ during relapse compared to remissions. Taken together, this study provides for the first time an in-depth analysis of the transcriptomic alterations that take place in human phagocytes upon infection, and in peripheral blood immune populations during active disease.
Brucellosis is a common zoonotic disease caused by intracellular pathogens of the genus Brucella. Brucella infects macrophages and evades clearance mechanisms, thus resulting in chronic parasitism. Herein, we studied the molecular changes that take place in human brucellosis both in vitro and ex vivo. RNA sequencing was performed in primary human macrophages (Mφ) and polymorphonuclear neutrophils (PMNs) infected with a clinical strain of Brucella spp. We observed a downregulation in the expression of genes involved in host response, such as TNF signaling, IL-1β production, and phagosome formation in Mφ, and phosphatidylinositol signaling and TNF signaling in PMNs, being in line with the ability of the pathogen to survive within phagocytes. Further transcriptomic analysis of isolated peripheral blood mononuclear cells (PBMCs) and PMNs from patients with acute brucellosis before treatment initiation and after successful treatment revealed a positive correlation of the molecular signature of active disease with pathways associated with response to interferons (IFN). We identified 24 common genes that were significantly altered in both PMNs and PBMCs, including genes involved in IFN signaling that were downregulated after treatment in both cell populations, and IL1R1 that was upregulated. The concentration of several inflammatory mediators was measured in the serum of these patients, and levels of IFN-γ, IL-1β and IL-6 were found significantly increased before the treatment of acute brucellosis. An independent cohort of patients with chronic brucellosis also revealed increased levels of IFN-γ during relapse compared to remissions. Taken together, this study provides for the first time an in-depth analysis of the transcriptomic alterations that take place in human phagocytes upon infection, and in peripheral blood immune populations during active disease.Brucellosis is a common zoonotic disease caused by intracellular pathogens of the genus Brucella. Brucella infects macrophages and evades clearance mechanisms, thus resulting in chronic parasitism. Herein, we studied the molecular changes that take place in human brucellosis both in vitro and ex vivo. RNA sequencing was performed in primary human macrophages (Mφ) and polymorphonuclear neutrophils (PMNs) infected with a clinical strain of Brucella spp. We observed a downregulation in the expression of genes involved in host response, such as TNF signaling, IL-1β production, and phagosome formation in Mφ, and phosphatidylinositol signaling and TNF signaling in PMNs, being in line with the ability of the pathogen to survive within phagocytes. Further transcriptomic analysis of isolated peripheral blood mononuclear cells (PBMCs) and PMNs from patients with acute brucellosis before treatment initiation and after successful treatment revealed a positive correlation of the molecular signature of active disease with pathways associated with response to interferons (IFN). We identified 24 common genes that were significantly altered in both PMNs and PBMCs, including genes involved in IFN signaling that were downregulated after treatment in both cell populations, and IL1R1 that was upregulated. The concentration of several inflammatory mediators was measured in the serum of these patients, and levels of IFN-γ, IL-1β and IL-6 were found significantly increased before the treatment of acute brucellosis. An independent cohort of patients with chronic brucellosis also revealed increased levels of IFN-γ during relapse compared to remissions. Taken together, this study provides for the first time an in-depth analysis of the transcriptomic alterations that take place in human phagocytes upon infection, and in peripheral blood immune populations during active disease.
Brucellosis is a common zoonotic disease caused by intracellular pathogens of the genus Brucella . Brucella infects macrophages and evades clearance mechanisms, thus resulting in chronic parasitism. Herein, we studied the molecular changes that take place in human brucellosis both in vitro and ex vivo. RNA sequencing was performed in primary human macrophages (Mφ) and polymorphonuclear neutrophils (PMNs) infected with a clinical strain of Brucella spp. We observed a downregulation in the expression of genes involved in host response, such as TNF signaling, IL-1β production, and phagosome formation in Mφ, and phosphatidylinositol signaling and TNF signaling in PMNs, being in line with the ability of the pathogen to survive within phagocytes. Further transcriptomic analysis of isolated peripheral blood mononuclear cells (PBMCs) and PMNs from patients with acute brucellosis before treatment initiation and after successful treatment revealed a positive correlation of the molecular signature of active disease with pathways associated with response to interferons (IFN). We identified 24 common genes that were significantly altered in both PMNs and PBMCs, including genes involved in IFN signaling that were downregulated after treatment in both cell populations, and IL1R1 that was upregulated. The concentration of several inflammatory mediators was measured in the serum of these patients, and levels of IFN-γ, IL-1β and IL-6 were found significantly increased before the treatment of acute brucellosis. An independent cohort of patients with chronic brucellosis also revealed increased levels of IFN-γ during relapse compared to remissions. Taken together, this study provides for the first time an in-depth analysis of the transcriptomic alterations that take place in human phagocytes upon infection, and in peripheral blood immune populations during active disease.
Author Panopoulou, Maria
Gembardt, Stephanie
Divolis, Georgios
Mitka, Stella
Konstantinidis, Theocharis
Wielockx, Ben
Dahl, Andreas
Lesche, Mathias
Ioannidis, Charalampos
Chrysanthopoulou, Akrivi
Soteriou, Natalia
Skendros, Panagiotis
Mitroulis, Ioannis
Antoniadou, Christina
Sideras, Paschalis
Ritis, Konstantinos
Ntinopoulou, Maria
Tasis, Athanasios
Lallas, George
Coskun, Ünal
AuthorAffiliation 4 Biomedical Research Foundation Academy of Athens, Center for Clinical, Experimental Surgery and Translational Research , Athens , Greece
5 Institute for Clinical Chemistry and Laboratory Medicine, Faculty of Medicine, Technische Universität Dresden , Dresden , Germany
7 R&D Department, P. Zafiropoulos S.A. , Athens , Greece
3 Department of Biological Applications and Technology, University of Ioannina , Ioannina , Greece
8 School of Biomedical Sciences, International Hellenic University , Thessaloniki , Greece
9 DRESDEN-concept Genome Center, Center for Molecular and Cellular Bioengineering, Technische Universität Dresden , Dresden , Germany
2 First Department of Internal Medicine, Democritus University of Thrace, University Hospital of Alexandroupolis , Alexandroupolis , Greece
1 Laboratory of Molecular Hematology, Democritus University of Thrace, University Hospital of Alexandroupolis , Alexandroupolis , Greece
6 Laboratory of Microbiology, Democritus University of Thrace, University Hospi
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Copyright Copyright © 2022 Mitroulis, Chrysanthopoulou, Divolis, Ioannidis, Ntinopoulou, Tasis, Konstantinidis, Antoniadou, Soteriou, Lallas, Mitka, Lesche, Dahl, Gembardt, Panopoulou, Sideras, Wielockx, Coskun, Ritis and Skendros.
Copyright © 2022 Mitroulis, Chrysanthopoulou, Divolis, Ioannidis, Ntinopoulou, Tasis, Konstantinidis, Antoniadou, Soteriou, Lallas, Mitka, Lesche, Dahl, Gembardt, Panopoulou, Sideras, Wielockx, Coskun, Ritis and Skendros 2022 Mitroulis, Chrysanthopoulou, Divolis, Ioannidis, Ntinopoulou, Tasis, Konstantinidis, Antoniadou, Soteriou, Lallas, Mitka, Lesche, Dahl, Gembardt, Panopoulou, Sideras, Wielockx, Coskun, Ritis and Skendros
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– notice: Copyright © 2022 Mitroulis, Chrysanthopoulou, Divolis, Ioannidis, Ntinopoulou, Tasis, Konstantinidis, Antoniadou, Soteriou, Lallas, Mitka, Lesche, Dahl, Gembardt, Panopoulou, Sideras, Wielockx, Coskun, Ritis and Skendros 2022 Mitroulis, Chrysanthopoulou, Divolis, Ioannidis, Ntinopoulou, Tasis, Konstantinidis, Antoniadou, Soteriou, Lallas, Mitka, Lesche, Dahl, Gembardt, Panopoulou, Sideras, Wielockx, Coskun, Ritis and Skendros
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This article was submitted to Microbial Immunology, a section of the journal Frontiers in Immunology
These authors have contributed equally to this work
Edited by: Mario M. D’Elios, University of Florence, Italy
Reviewed by: Nagaja Capitani, University of Siena, Italy; Ursula Rossi, Conicet, Argentina; Gaia Codolo, University of Padua, Italy; Ricardo Mora-Cartin, University of Chicago Medicine, United States
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Snippet Brucellosis is a common zoonotic disease caused by intracellular pathogens of the genus Brucella . Brucella infects macrophages and evades clearance...
Brucellosis is a common zoonotic disease caused by intracellular pathogens of the genus Brucella. Brucella infects macrophages and evades clearance mechanisms,...
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SubjectTerms brucellosis
immunity
Immunology
macrophages
peripheral blood mononuclear cells
polymorphonuclear neutrophils
transcriptomics
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Title A gene expression map of host immune response in human brucellosis
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