Your search keyword '"Joost Wiersinga"' showing total 29 results

1. Correction: Increased Von Willebrand factor, decreased ADAMTS13 and thrombocytopenia in melioidosis.

Author

Emma Birnie, Gavin C K W Koh, Ester C Löwenberg, Joost C M Meijers, Rapeephan R Maude, Nicholas P J Day, Sharon J Peacock, Tom van der Poll, and W Joost Wiersinga

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

[This corrects the article DOI: 10.1371/journal.pntd.0005468.].

Published

2020

2. Effect of antibiotic gut microbiota disruption on LPS-induced acute lung inflammation.

Author

Max C Jacobs, Jacqueline M Lankelma, Nora S Wolff, Floor Hugenholtz, Alex F de Vos, Tom van der Poll, and W Joost Wiersinga

Subjects

Medicine, Science

Abstract

BackgroundAn increasing body of evidence is indicating that the gut microbiota modulates pulmonary inflammatory responses. This so-called gut-lung axis might be of importance in a whole spectrum of inflammatory pulmonary diseases such as acute respiratory distress syndrome, chronic obstructive pulmonary disease and pneumonia. Here, we investigate the effect of antibiotic disruption of gut microbiota on immune responses in the lung after a intranasal challenge with lipopolysaccharide (LPS).Methods/resultsC57Bl/6 mice were treated for two weeks with broad-spectrum antibiotics supplemented to their drinking water. Afterwards, mice and untreated control mice were inoculated intranasally with LPS. Mice were sacrificed 2 and 6 hours post-challenge, after which bronchoalveolar lavage fluid (BALF) and lung tissues were taken. Gut microbiota analysis showed that antibiotic-treated mice had a pronounced reduction in numbers and diversity of bacteria. A modest, but time consistent, significant increase of interleukin (IL)-6 release was seen in BALF of antibiotic treated mice. Release of tumor necrosis factor alpha (TNFα), however, was not statistically different between groups.ConclusionAntibiotic induced microbiota disruption is associated with alterations in host responses during LPS-induced lung inflammation. Further studies are required to determine the clinical relevance of the gut-lung axis in pulmonary infection and inflammation.

Published

2020

3. Identification of Burkholderia thailandensis with novel genotypes in the soil of central Sierra Leone.

Author

Emma Birnie, Senne van 't Hof, Anne Bijnsdorp, Yembeh Mansaray, Erdi Huizenga, Arie van der Ende, Floor Hugenholtz, Martin P Grobusch, and W Joost Wiersinga

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

BackgroundThe soil-dwelling bacillus Burkholderia pseudomallei is the etiological-agent of the neglected and life-threatening emerging infection melioidosis. The distribution of B. pseudomallei in West Africa is unknown. In the present study we aimed to determine whether B. pseudomallei and B. thailandensis are present in the environment of central Sierra Leone.Methodology/principal findingsIn June-July 2017, we conducted an environmental surveillance study-designed in accordance with existing consensus guidelines-in central Sierra Leone. A total of 1,000 soil samples (100 per site) were collected and cultured. B. pseudomallei was not identified in the soil, but we identified seven novel B. thailandensis sequence types with multi-locus sequence typing (MLST) and 16S rRNA gene sequence analyses.Conclusions/significanceThe presence of B. pseudomallei was not demonstrated, however, multiple novel B. thailandensis sequence types were identified. More environmental and sequencing studies are needed to further understand the genetic diversity, evolution and virulence of these emerging organisms.

Published

2019

4. Melioidosis: The hazards of incomplete peer-review.

Author

Direk Limmathurotsakul, Frances Daily, Sotharith Bory, Gaetan Khim, W Joost Wiersinga, Alfredo G Torres, David A B Dance, and Bart J Currie

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Published

2019

5. Expression of intra- and extracellular granzymes in patients with typhoid fever.

Author

Hanna K de Jong, Maria Isabel Garcia-Laorden, Arie J Hoogendijk, Christopher M Parry, Rapeephan R Maude, Arjen M Dondorp, Mohammed Abul Faiz, Tom van der Poll, and Willem Joost Wiersinga

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

Typhoid fever, caused by the intracellular pathogen Salmonella (S.) enterica serovar Typhi, remains a major cause of morbidity and mortality worldwide. Granzymes are serine proteases promoting cytotoxic lymphocytes mediated eradication of intracellular pathogens via the induction of cell death and which can also play a role in inflammation. We aimed to characterize the expression of extracellular and intracellular granzymes in patients with typhoid fever and whether the extracellular levels of granzyme correlated with IFN-γ release.We analyzed soluble protein levels of extracellular granzyme A and B in healthy volunteers and patients with confirmed S. Typhi infection on admission and day of discharge, and investigated whether this correlated with interferon (IFN)-γ release, a cytokine significantly expressed in typhoid fever. The intracellular expression of granzyme A, B and K in subsets of lymphocytic cells was determined using flow cytometry. Patients demonstrated a marked increase of extracellular granzyme A and B in acute phase plasma and a correlation of both granzymes with IFN-γ release. In patients, lower plasma levels of granzyme B, but not granzyme A, were found at day of discharge compared to admission, indicating an association of granzyme B with stage of disease. Peripheral blood mononuclear cells of typhoid fever patients had a higher percentage of lymphocytic cells expressing intracellular granzyme A and granzyme B, but not granzyme K, compared to controls.The marked increase observed in extra- and intracellular levels of granzyme expression in patients with typhoid fever, and the correlation with stage of disease, suggests a role for granzymes in the host response to this disease.

Published

2017

6. The gut microbiota as a modulator of innate immunity during melioidosis.

Author

Jacqueline M Lankelma, Emma Birnie, Tassili A F Weehuizen, Brendon P Scicluna, Clara Belzer, Riekelt H Houtkooper, Joris J T H Roelofs, Alex F de Vos, Tom van der Poll, Andries E Budding, and W Joost Wiersinga

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

BACKGROUND:Melioidosis, caused by the Gram-negative bacterium Burkholderia pseudomallei, is an emerging cause of pneumonia-derived sepsis in the tropics. The gut microbiota supports local mucosal immunity and is increasingly recognized as a protective mediator in host defenses against systemic infection. Here, we aimed to characterize the composition and function of the intestinal microbiota during experimental melioidosis. METHODOLOGY/PRINCIPAL FINDINGS:C57BL/6 mice were infected intranasally with B. pseudomallei and sacrificed at different time points to assess bacterial loads and inflammation. In selected experiments, the gut microbiota was disrupted with broad-spectrum antibiotics prior to inoculation. Fecal bacterial composition was analyzed by means of IS-pro, a 16S-23S interspacer region-based profiling method. A marked shift in fecal bacterial composition was seen in all mice during systemic B. pseudomallei infection with a strong increase in Proteobacteria and decrease in Actinobacteria, with an increase in bacterial diversity. We found enhanced early dissemination of B. pseudomallei and systemic inflammation during experimental melioidosis in microbiota-disrupted mice compared with controls. Whole-genome transcriptional profiling of the lung identified several genes that were differentially expressed between mice with a normal or disrupted intestinal microbiota. Genes involved in acute phase signaling, including macrophage-related signaling pathways were significantly elevated in microbiota disrupted mice. Compared with controls, alveolar macrophages derived from antibiotic pretreated mice showed a diminished capacity to phagocytose B. pseudomallei. This might in part explain the observed protective effect of the gut microbiota in the host defense against pneumonia-derived melioidosis. CONCLUSIONS/SIGNIFICANCE:Taken together, these data identify the gut microbiota as a potential modulator of innate immunity during B. pseudomallei infection.

Published

2017

7. Increased Von Willebrand factor, decreased ADAMTS13 and thrombocytopenia in melioidosis.

Author

Emma Birnie, Gavin C K W Koh, Ester C Löwenberg, Joost C M Meijers, Rapeephan R Maude, Nicholas P J Day, Sharon J Peacock, Tom van der Poll, and W Joost Wiersinga

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

BACKGROUND:Melioidosis, caused by bioterror treat agent Burkholderia pseudomallei, is an important cause of community-acquired Gram-negative sepsis in Southeast Asia and Northern Australia. New insights into the pathogenesis of melioidosis may help improve treatment and decrease mortality rates from this dreadful disease. We hypothesized that changes in Von Willebrand factor (VWF) function should occur in melioidosis, based on the presence of endothelial stimulation by endotoxin, pro-inflammatory cytokines and thrombin in melioidosis, and investigated whether this impacted on outcome. METHODS/PRINCIPAL FINDINGS:We recruited 52 controls and 34 culture-confirmed melioidosis patients at Sappasithiprasong Hospital in Ubon Ratchathani, Thailand. All subjects were diabetic. Platelet counts in melioidosis patients were lower compared to controls (p = 0.0001) and correlated with mortality (p = 0.02). VWF antigen levels were higher in patients (geometric mean, 478 U/dl) compared to controls (166 U/dL, p

Published

2017

8. Triggering Receptor Expressed on Myeloid Cells (TREM)-2 Impairs Host Defense in Experimental Melioidosis.

Author

Tassili A F Weehuizen, Tijmen J Hommes, Jacqueline M Lankelma, Hanna K de Jong, Joris J T H Roelofs, Alex F de Vos, Marco Colonna, Tom van der Poll, and W Joost Wiersinga

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

Triggering receptor expressed on myeloid cells (TREM) -1 and TREM-2 are key regulators of the inflammatory response that are involved in the clearance of invading pathogens. Melioidosis, caused by the "Tier 1" biothreat agent Burkholderia pseudomallei, is a common form of community-acquired sepsis in Southeast-Asia. TREM-1 has been suggested as a biomarker for sepsis and melioidosis. We aimed to characterize the expression and function of TREM-1 and TREM-2 in melioidosis.Wild-type, TREM-1/3 (Trem-1/3-/-) and TREM-2 (Trem-2-/-) deficient mice were intranasally infected with live B. pseudomallei and killed after 24, and/or 72 h for the harvesting of lungs, liver, spleen, and blood. Additionally, survival studies were performed. Cellular functions were further analyzed by stimulation and/or infection of isolated cells. TREM-1 and TREM-2 expression was increased both in the lung and liver of B. pseudomallei-infected mice. Strikingly, Trem-2-/-, but not Trem-1/3-/-, mice displayed a markedly improved host defense as reflected by a strong survival advantage together with decreased bacterial loads, less inflammation and reduced organ injury. Cellular responsiveness of TREM-2, but not TREM-1, deficient blood and bone-marrow derived macrophages (BMDM) was diminished upon exposure to B. pseudomallei. Phagocytosis and intracellular killing of B. pseudomallei by BMDM and alveolar macrophages were TREM-1 and TREM-2-independent.We found that TREM-2, and to a lesser extent TREM-1, plays a remarkable detrimental role in the host defense against a clinically relevant Gram-negative pathogen in mice: TREM-2 deficiency restricts the inflammatory response, thereby decreasing organ damage and mortality.

Published

2016

9. Expression and function of S100A8/A9 (calprotectin) in human typhoid fever and the murine Salmonella model.

Author

Hanna K De Jong, Ahmed Achouiti, Gavin C K W Koh, Christopher M Parry, Stephen Baker, Mohammed Abul Faiz, Jaap T van Dissel, Albert M Vollaard, Ester M M van Leeuwen, Joris J T H Roelofs, Alex F de Vos, Johannes Roth, Tom van der Poll, Thomas Vogl, and Willem Joost Wiersinga

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

BACKGROUND:Typhoid fever, caused by the Gram-negative bacterium Salmonella enterica serovar Typhi, is a major cause of community-acquired bacteremia and death worldwide. S100A8 (MRP8) and S100A9 (MRP14) form bioactive antimicrobial heterodimers (calprotectin) that can activate Toll-like receptor 4, promoting lethal, endotoxin-induced shock and multi-organ failure. We aimed to characterize the expression and function of S100A8/A9 in patients with typhoid fever and in a murine invasive Salmonella model. METHODS AND PRINCIPAL FINDINGS:S100A8/A9 protein levels were determined in acute phase plasma or feces from 28 Bangladeshi patients, and convalescent phase plasma from 60 Indonesian patients with blood culture or PCR-confirmed typhoid fever, and compared to 98 healthy control subjects. To functionally characterize the role of S100A8/A9, we challenged wildtype (WT) and S100A9-/- mice with S. Typhimurium and determined bacterial loads and inflammation 2- and 5- days post infection. We further assessed the antimicrobial function of recombinant S100A8/A9 on S. Typhimurium and S. Typhi replication in vitro. Typhoid fever patients demonstrated a marked increase of S100A8/A9 in acute phase plasma and feces and this increases correlated with duration of fever prior to admission. S100A8/A9 directly inhibited the growth of S. Typhimurium and S. Typhi in vitro in a dose and time dependent fashion. WT mice inoculated with S. Typhimurium showed increased levels of S100A8/A9 in both the liver and the systemic compartment but S100A9-/- mice were indistinguishable from WT mice with respect to bacterial growth, survival, and inflammatory responses, as determined by cytokine release, histopathology and organ injury. CONCLUSION:S100A8/A9 is markedly elevated in human typhoid, correlates with duration of fever prior to admission and directly inhibits the growth of S. Typhimurium and S. Typhi in vitro. Despite elevated levels in the murine invasive Salmonella model, S100A8/A9 does not contribute to an effective host response against S. Typhimurium in mice.

Published

2015

10. Differential Toll-Like Receptor-Signalling of Burkholderia pseudomallei Lipopolysaccharide in Murine and Human Models.

Author

Tassili A F Weehuizen, Joann L Prior, Thomas W van der Vaart, Sarah A Ngugi, Sergey A Nepogodiev, Robert A Field, Liesbeth M Kager, Cornelis van 't Veer, Alex F de Vos, and W Joost Wiersinga

Subjects

Medicine, Science

Abstract

The Gram-negative bacterium Burkholderia pseudomallei causes melioidosis and is a CDC category B bioterrorism agent. Toll-like receptor (TLR)-2 impairs host defense during pulmonary B.pseudomallei infection while TLR4 only has limited impact. We investigated the role of TLRs in B.pseudomallei-lipopolysaccharide (LPS) induced inflammation. Purified B.pseudomallei-LPS activated only TLR2-transfected-HEK-cells during short stimulation but both HEK-TLR2 and HEK-TLR4-cells after 24 h. In human blood, an additive effect of TLR2 on TLR4-mediated signalling induced by B.pseudomallei-LPS was observed. In contrast, murine peritoneal macrophages recognized B.pseudomallei-LPS solely through TLR4. Intranasal inoculation of B.pseudomallei-LPS showed that both TLR4-knockout(-/-) and TLR2x4-/-, but not TLR2-/- mice, displayed diminished cytokine responses and neutrophil influx compared to wild-type controls. These data suggest that B.pseudomallei-LPS signalling occurs solely through murine TLR4, while in human models TLR2 plays an additional role, highlighting important differences between specificity of human and murine models that may have important consequences for B.pseudomallei-LPS sensing by TLRs and subsequent susceptibility to melioidosis.

Published

2015

11. A thrombomodulin mutation that impairs active protein C generation is detrimental in severe pneumonia-derived gram-negative sepsis (melioidosis).

Author

Liesbeth M Kager, W Joost Wiersinga, Joris J T H Roelofs, Onno J de Boer, Hartmut Weiler, Cornelis van 't Veer, and Tom van der Poll

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

BACKGROUND: During severe (pneumo)sepsis inflammatory and coagulation pathways become activated as part of the host immune response. Thrombomodulin (TM) is involved in a range of host defense mechanisms during infection and plays a pivotal role in activation of protein C (PC) into active protein C (APC). APC has both anticoagulant and anti-inflammatory properties. In this study we investigated the effects of impaired TM-mediated APC generation during melioidosis, a common form of community-acquired Gram-negative (pneumo)sepsis in South-East Asia caused by Burkholderia (B.) pseudomallei. METHODOLOGY/PRINCIPAL FINDINGS: (WT) mice and mice with an impaired capacity to activate protein C due to a point mutation in their Thbd gene (TMpro/pro mice) were intranasally infected with B. pseudomallei and sacrificed after 24, 48 or 72 hours for analyses. Additionally, survival studies were performed. When compared to WT mice, TMpro/pro mice displayed a worse survival upon infection with B. pseudomallei, accompanied by increased coagulation activation, enhanced lung neutrophil influx and bronchoalveolar inflammation at late time points, together with increased hepatocellular injury. The TMpro/pro mutation had limited if any impact on bacterial growth and dissemination. CONCLUSION/SIGNIFICANCE: TM-mediated protein C activation contributes to protective immunity after infection with B. pseudomallei. These results add to a better understanding of the regulation of the inflammatory and procoagulant response during severe Gram-negative (pneumo)sepsis.

Published

2014

12. Glyburide reduces bacterial dissemination in a mouse model of melioidosis.

Author

Gavin C K W Koh, Tassili A Weehuizen, Katrin Breitbach, Kathrin Krause, Hanna K de Jong, Liesbeth M Kager, Arjan J Hoogendijk, Antje Bast, Sharon J Peacock, Tom van der Poll, Ivo Steinmetz, and W Joost Wiersinga

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

Burkholderia pseudomallei infection (melioidosis) is an important cause of community-acquired Gram-negative sepsis in Northeast Thailand, where it is associated with a ~40% mortality rate despite antimicrobial chemotherapy. We showed in a previous cohort study that patients taking glyburide ( = glibenclamide) prior to admission have lower mortality and attenuated inflammatory responses compared to patients not taking glyburide. We sought to define the mechanism underlying this observation in a murine model of melioidosis.Mice (C57BL/6) with streptozocin-induced diabetes were inoculated with ~6 × 10(2) cfu B. pseudomallei intranasally, then treated with therapeutic ceftazidime (600 mg/kg intraperitoneally twice daily starting 24 h after inoculation) in order to mimic the clinical scenario. Glyburide (50 mg/kg) or vehicle was started 7 d before inoculation and continued until sacrifice. The minimum inhibitory concentration of glyburide for B. pseudomallei was determined by broth microdilution. We also examined the effect of glyburide on interleukin (IL) 1β by bone-marrow-derived macrophages (BMDM).Diabetic mice had increased susceptibility to melioidosis, with increased bacterial dissemination but no effect was seen of diabetes on inflammation compared to non-diabetic controls. Glyburide treatment did not affect glucose levels but was associated with reduced pulmonary cellular influx, reduced bacterial dissemination to both liver and spleen and reduced IL1β production when compared to untreated controls. Other cytokines were not different in glyburide-treated animals. There was no direct effect of glyburide on B. pseudomallei growth in vitro or in vivo. Glyburide directly reduced the secretion of IL1β by BMDMs in a dose-dependent fashion.Diabetes increases the susceptibility to melioidosis. We further show, for the first time in any model of sepsis, that glyburide acts as an anti-inflammatory agent by reducing IL1β secretion accompanied by diminished cellular influx and reduced bacterial dissemination to distant organs. We found no evidence for a direct effect of glyburide on the bacterium.

Published

2013

13. Overexpression of the endothelial protein C receptor is detrimental during pneumonia-derived gram-negative sepsis (Melioidosis).

Author

Liesbeth M Kager, Marcel Schouten, W Joost Wiersinga, J Daan de Boer, Lionel C W Lattenist, Joris J T H Roelofs, Joost C M Meijers, Marcel Levi, Arjen M Dondorp, Charles T Esmon, Cornelis van 't Veer, and Tom van der Poll

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

The endothelial protein C receptor (EPCR) enhances anticoagulation by accelerating activation of protein C to activated protein C (APC) and mediates anti-inflammatory effects by facilitating APC-mediated signaling via protease activated receptor-1. We studied the role of EPCR in the host response during pneumonia-derived sepsis instigated by Burkholderia (B.) pseudomallei, the causative agent of melioidosis, a common form of community-acquired Gram-negative (pneumo)sepsis in South-East Asia.Soluble EPCR was measured in plasma of patients with septic culture-proven melioidosis and healthy controls. Experimental melioidosis was induced by intranasal inoculation of B. pseudomallei in wild-type (WT) mice and mice with either EPCR-overexpression (Tie2-EPCR) or EPCR-deficiency (EPCR(-/-)). Mice were sacrificed after 24, 48 or 72 hours. Organs and plasma were harvested to measure colony forming units, cellular influxes, cytokine levels and coagulation parameters. Plasma EPCR-levels were higher in melioidosis patients than in healthy controls and associated with an increased mortality. Tie2-EPCR mice demonstrated enhanced bacterial growth and dissemination to distant organs during experimental melioidosis, accompanied by increased lung damage, neutrophil influx and cytokine production, and attenuated coagulation activation. EPCR(-/-) mice had an unremarkable response to B. pseudomallei infection as compared to WT mice, except for a difference in coagulation activation in plasma.Increased EPCR-levels correlate with accelerated mortality in patients with melioidosis. In mice, transgenic overexpression of EPCR aggravates outcome during Gram-negative pneumonia-derived sepsis caused by B. pseudomallei, while endogenous EPCR does not impact on the host response. These results add to a better understanding of the regulation of coagulation during severe (pneumo)sepsis.

Published

2013

14. Correction: Increased Von Willebrand factor, decreased ADAMTS13 and thrombocytopenia in melioidosis

Author

Sharon J. Peacock, Tom van der Poll, Emma Birnie, Rapeephan R. Maude, W. Joost Wiersinga, Joost C. M. Meijers, Gavin C. K. W. Koh, Ester C. Löwenberg, and Nicholas P. J. Day

Subjects

medicine.medical_specialty, Melioidosis, biology, business.industry, Published Erratum, InformationSystems_INFORMATIONSTORAGEANDRETRIEVAL, RC955-962, Public Health, Environmental and Occupational Health, MEDLINE, medicine.disease, Dermatology, GeneralLiterature_MISCELLANEOUS, ADAMTS13, Infectious Diseases, Von Willebrand factor, Arctic medicine. Tropical medicine, ComputingMethodologies_DOCUMENTANDTEXTPROCESSING, Data_FILES, biology.protein, Medicine, Public aspects of medicine, RA1-1270, business

Abstract

There is an error in the article XML causing the eighth author’s name to be indexed incorrectly. The name should be indexed as van der Poll T.

Published

2020

15. Effect of antibiotic gut microbiota disruption on LPS-induced acute lung inflammation

Author

Tom van der Poll, Nora S. Wolff, Alex F. de Vos, Floor Hugenholtz, Jacqueline M. Lankelma, W. Joost Wiersinga, Max C. Jacobs, Graduate School, AII - Infectious diseases, Center of Experimental and Molecular Medicine, and Infectious diseases

Subjects

0301 basic medicine, Lipopolysaccharides, Lipopolysaccharide, Physiology, Neutrophils, Gut flora, Toxicology, Pathology and Laboratory Medicine, chemistry.chemical_compound, White Blood Cells, Mice, Medical Conditions, Antibiotics, Animal Cells, Immune Physiology, Natural Resources, Medicine and Health Sciences, Toxins, Immune Response, Lung, Innate Immune System, Multidisciplinary, medicine.diagnostic_test, biology, Antimicrobials, Interleukin, Drugs, respiratory system, Anti-Bacterial Agents, medicine.anatomical_structure, Water Resources, Cytokines, Medicine, Tumor necrosis factor alpha, Female, medicine.symptom, Cellular Types, Bronchoalveolar Lavage Fluid, Research Article, Inflammatory Diseases, Immune Cells, Science, 030106 microbiology, Immunology, Toxic Agents, Bacterial Toxins, Acute Lung Injury, Inflammation, Microbiology, 03 medical and health sciences, Signs and Symptoms, Microbial Control, medicine, Animals, Pharmacology, Blood Cells, Bacteria, business.industry, Interleukin-6, Gut Bacteria, Ecology and Environmental Sciences, Organisms, Biology and Life Sciences, Cell Biology, Molecular Development, medicine.disease, biology.organism_classification, respiratory tract diseases, Gastrointestinal Microbiome, Endotoxins, Mice, Inbred C57BL, Pneumonia, 030104 developmental biology, Bronchoalveolar lavage, chemistry, Immune System, Clinical Medicine, business, Developmental Biology

Abstract

BackgroundAn increasing body of evidence is indicating that the gut microbiota modulates pulmonary inflammatory responses. This so-called gut-lung axis might be of importance in a whole spectrum of inflammatory pulmonary diseases such as acute respiratory distress syndrome, chronic obstructive pulmonary disease and pneumonia. Here, we investigate the effect of antibiotic disruption of gut microbiota on immune responses in the lung after a intranasal challenge with lipopolysaccharide (LPS).Methods/resultsC57Bl/6 mice were treated for two weeks with broad-spectrum antibiotics supplemented to their drinking water. Afterwards, mice and untreated control mice were inoculated intranasally with LPS. Mice were sacrificed 2 and 6 hours post-challenge, after which bronchoalveolar lavage fluid (BALF) and lung tissues were taken. Gut microbiota analysis showed that antibiotic-treated mice had a pronounced reduction in numbers and diversity of bacteria. A modest, but time consistent, significant increase of interleukin (IL)-6 release was seen in BALF of antibiotic treated mice. Release of tumor necrosis factor alpha (TNFα), however, was not statistically different between groups.ConclusionAntibiotic induced microbiota disruption is associated with alterations in host responses during LPS-induced lung inflammation. Further studies are required to determine the clinical relevance of the gut-lung axis in pulmonary infection and inflammation.

Published

2020

16. Host-pathogen interaction in invasive Salmonellosis.

Author

Hanna K de Jong, Chris M Parry, Tom van der Poll, and W Joost Wiersinga

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Salmonella enterica infections result in diverse clinical manifestations. Typhoid fever, caused by S. enterica serovar Typhi (S. Typhi) and S. Paratyphi A, is a bacteremic illness but whose clinical features differ from other Gram-negative bacteremias. Non-typhoidal Salmonella (NTS) serovars cause self-limiting diarrhea with occasional secondary bacteremia. Primary NTS bacteremia can occur in the immunocompromised host and infants in sub-Saharan Africa. Recent studies on host-pathogen interactions in Salmonellosis using genome sequencing, murine models, and patient studies have provided new insights. The full genome sequences of numerous S. enterica serovars have been determined. The S. Typhi genome, compared to that of S. Typhimurium, harbors many inactivated or disrupted genes. This can partly explain the different immune responses both serovars induce upon entering their host. Similar genome degradation is also observed in the ST313 S. Typhimurium strain implicated in invasive infection in sub-Saharan Africa. Virulence factors, most notably, type III secretion systems, Vi antigen, lipopolysaccharide and other surface polysaccharides, flagella, and various factors essential for the intracellular life cycle of S. enterica have been characterized. Genes for these factors are commonly carried on Salmonella Pathogenicity Islands (SPIs). Plasmids also carry putative virulence-associated genes as well as those responsible for antimicrobial resistance. The interaction of Salmonella pathogen-associated molecular patterns (PAMPs) with Toll-like receptors (TLRs) and NOD-like receptors (NLRs) leads to inflammasome formation, activation, and recruitment of neutrophils and macrophages and the production of pro-inflammatory cytokines, most notably interleukin (IL)-6, IL-1β, tumor necrosis factor (TNF)-α, and interferon-gamma (IFN)-γ. The gut microbiome may be an important modulator of this immune response. S. Typhimurium usually causes a local intestinal immune response, whereas S. Typhi, by preventing neutrophil attraction resulting from activation of TLRs, evades the local response and causes systemic infection. Potential new therapeutic strategies may lead from an increased understanding of infection pathogenesis.

Published

2012

17. Osteopontin impairs host defense during established gram-negative sepsis caused by Burkholderia pseudomallei (melioidosis).

Author

Gerritje J W van der Windt, W Joost Wiersinga, Catharina W Wieland, Ivo C S I Tjia, Nicholas P Day, Sharon J Peacock, Sandrine Florquin, and Tom van der Poll

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

Melioidosis, caused by infection with Burkholderia (B.) pseudomallei, is a severe illness that is endemic in Southeast Asia. Osteopontin (OPN) is a phosphorylated glycoprotein that is involved in several immune responses including induction of T-helper 1 cytokines and recruitment of inflammatory cells.OPN levels were determined in plasma from 33 melioidosis patients and 31 healthy controls, and in wild-type (WT) mice intranasally infected with B. pseudomallei. OPN function was studied in experimental murine melioidosis using WT and OPN knockout (KO) mice. Plasma OPN levels were elevated in patients with severe melioidosis, even more so in patients who went on to die. In patients who recovered plasma OPN concentrations had decreased after treatment. In experimental melioidosis in mice plasma and pulmonary OPN levels were also increased. Whereas WT and OPN KO mice were indistinguishable during the first 24 hours after infection, after 72 hours OPN KO mice demonstrated reduced bacterial numbers in their lungs, diminished pulmonary tissue injury, especially due to less necrosis, and decreased neutrophil infiltration. Moreover, OPN KO mice displayed a delayed mortality as compared to WT mice. OPN deficiency did not influence the induction of proinflammatory cytokines.These data suggest that sustained production of OPN impairs host defense during established septic melioidosis.

Published

2010

18. Expression and function of macrophage migration inhibitory factor (MIF) in melioidosis.

Author

W Joost Wiersinga, Thierry Calandra, Liesbeth M Kager, Gerritje J W van der Windt, Thierry Roger, Didier le Roy, Sandrine Florquin, Sharon J Peacock, Fred C G J Sweep, and Tom van der Poll

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

Macrophage migration inhibitory factor (MIF) has emerged as a pivotal mediator of innate immunity and has been shown to be an important effector molecule in severe sepsis. Melioidosis, caused by Burkholderia pseudomallei, is an important cause of community-acquired sepsis in Southeast-Asia. We aimed to characterize the expression and function of MIF in melioidosis.MIF expression was determined in leukocytes and plasma from 34 melioidosis patients and 32 controls, and in mice infected with B. pseudomallei. MIF function was investigated in experimental murine melioidosis using anti-MIF antibodies and recombinant MIF. Patients demonstrated markedly increased MIF mRNA leukocyte and MIF plasma concentrations. Elevated MIF concentrations were associated with mortality. Mice inoculated intranasally with B. pseudomallei displayed a robust increase in pulmonary and systemic MIF expression. Anti-MIF treated mice showed lower bacterial loads in their lungs upon infection with a low inoculum. Conversely, mice treated with recombinant MIF displayed a modestly impaired clearance of B. pseudomallei. MIF exerted no direct effects on bacterial outgrowth or phagocytosis of B. pseudomallei.MIF concentrations are markedly elevated during clinical melioidosis and correlate with patients' outcomes. In experimental melioidosis MIF impaired antibacterial defense.

Published

2010

19. The urokinase receptor (uPAR) facilitates clearance of Borrelia burgdorferi.

Author

Joppe W R Hovius, Maarten F Bijlsma, Gerritje J W van der Windt, W Joost Wiersinga, Bastiaan J D Boukens, Jeroen Coumou, Anneke Oei, Regina de Beer, Alex F de Vos, Cornelis van 't Veer, Alje P van Dam, Penghua Wang, Erol Fikrig, Marcel M Levi, Joris J T H Roelofs, and Tom van der Poll

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

The causative agent of Lyme borreliosis, the spirochete Borrelia burgdorferi, has been shown to induce expression of the urokinase receptor (uPAR); however, the role of uPAR in the immune response against Borrelia has never been investigated. uPAR not only acts as a proteinase receptor, but can also, dependently or independently of ligation to uPA, directly affect leukocyte function. We here demonstrate that uPAR is upregulated on murine and human leukocytes upon exposure to B. burgdorferi both in vitro as well as in vivo. Notably, B. burgdorferi-inoculated C57BL/6 uPAR knock-out mice harbored significantly higher Borrelia numbers compared to WT controls. This was associated with impaired phagocytotic capacity of B. burgdorferi by uPAR knock-out leukocytes in vitro. B. burgdorferi numbers in vivo, and phagocytotic capacity in vitro, were unaltered in uPA, tPA (low fibrinolytic activity) and PAI-1 (high fibrinolytic activity) knock-out mice compared to WT controls. Strikingly, in uPAR knock-out mice partially backcrossed to a B. burgdorferi susceptible C3H/HeN background, higher B. burgdorferi numbers were associated with more severe carditis and increased local TLR2 and IL-1beta mRNA expression. In conclusion, in B. burgdorferi infection, uPAR is required for phagocytosis and adequate eradication of the spirochete from the heart by a mechanism that is independent of binding of uPAR to uPA or its role in the fibrinolytic system.

Published

2009

20. MyD88 dependent signaling contributes to protective host defense against Burkholderia pseudomallei.

Author

W Joost Wiersinga, Catharina W Wieland, Joris J T H Roelofs, and Tom van der Poll

Subjects

Medicine, Science

Abstract

BACKGROUND: Toll-like receptors (TLRs) have a central role in the recognition of pathogens and the initiation of the innate immune response. Myeloid differentiation primary-response gene 88 (MyD88) and TIR-domain-containing adaptor protein inducing IFNbeta (TRIF) are regarded as the key signaling adaptor proteins for TLRs. Melioidosis, which is endemic in SE-Asia, is a severe infection caused by the gram-negative bacterium Burkholderia pseudomallei. We here aimed to characterize the role of MyD88 and TRIF in host defense against melioidosis. METHODOLOGY AND PRINCIPAL FINDINGS: First, we found that MyD88, but not TRIF, deficient whole blood leukocytes released less TNFalpha upon stimulation with B. pseudomallei compared to wild-type (WT) cells. Thereafter we inoculated MyD88 knock-out (KO), TRIF mutant and WT mice intranasally with B. pseudomallei and found that MyD88 KO, but not TRIF mutant mice demonstrated a strongly accelerated lethality, which was accompanied by significantly increased bacterial loads in lungs, liver and blood, and grossly enhanced liver damage compared to WT mice. The decreased bacterial clearance capacity of MyD88 KO mice was accompanied by a markedly reduced early pulmonary neutrophil recruitment and a diminished activation of neutrophils after infection with B. pseudomallei. MyD88 KO leukocytes displayed an unaltered capacity to phagocytose and kill B. pseudomallei in vitro. CONCLUSIONS: MyD88 dependent signaling, but not TRIF dependent signaling, contributes to a protective host response against B. pseudomallei at least in part by causing early neutrophil recruitment towards the primary site of infection.

Published

2008

21. Toll-like receptor 2 impairs host defense in gram-negative sepsis caused by Burkholderia pseudomallei (Melioidosis).

Author

W Joost Wiersinga, Catharina W Wieland, Mark C Dessing, Narisara Chantratita, Allen C Cheng, Direk Limmathurotsakul, Wirongrong Chierakul, Masja Leendertse, Sandrine Florquin, Alex F de Vos, Nicholas White, Arjen M Dondorp, Nicholas P Day, Sharon J Peacock, and Tom van der Poll

Subjects

Medicine

Abstract

Toll-like receptors (TLRs) are essential in host defense against pathogens by virtue of their capacity to detect microbes and initiate the immune response. TLR2 is seen as the most important receptor for gram-positive bacteria, while TLR4 is regarded as the gram-negative TLR. Melioidosis is a severe infection caused by the gram-negative bacterium, Burkholderia pseudomallei, that is endemic in Southeast Asia. We aimed to characterize the expression and function of TLRs in septic melioidosis.Patient studies: 34 patients with melioidosis demonstrated increased expression of CD14, TLR1, TLR2, and TLR4 on the cell surfaces of monocytes and granulocytes, and increased CD14, TLR1, TLR2, TLR4, LY96 (also known as MD-2), TLR5, and TLR10 mRNA levels in purified monocytes and granulocytes when compared with healthy controls. In vitro experiments: Whole-blood and alveolar macrophages obtained from TLR2 and TLR4 knockout (KO) mice were less responsive to B. pseudomallei in vitro, whereas in the reverse experiment, transfection of HEK293 cells with either TLR2 or TLR4 rendered these cells responsive to this bacterium. In addition, the lipopolysaccharide (LPS) of B. pseudomallei signals through TLR2 and not through TLR4. Mouse studies: Surprisingly, TLR4 KO mice were indistinguishable from wild-type mice with respect to bacterial outgrowth and survival in experimentally induced melioidosis. In contrast, TLR2 KO mice displayed a markedly improved host defenses as reflected by a strong survival advantage together with decreased bacterial loads, reduced lung inflammation, and less distant-organ injury.Patients with melioidosis displayed an up-regulation of multiple TLRs in peripheral blood monocytes and granulocytes. Although both TLR2 and TLR4 contribute to cellular responsiveness to B. pseudomallei in vitro, TLR2 detects the LPS of B. pseudomallei, and only TLR2 impacts on the immune response of the intact host in vivo. Inhibition of TLR2 may be a novel treatment strategy in melioidosis.

Published

2007

22. Increased Von Willebrand factor, decreased ADAMTS13 and thrombocytopenia in melioidosis

Author

Gavin C. K. W. Koh, Tom van der Poll, Rapeephan R. Maude, Emma Birnie, Joost C. M. Meijers, W. Joost Wiersinga, Ester C. Löwenberg, Nicholas P. J. Day, Sharon J. Peacock, AII - Infectious diseases, APH - Aging & Later Life, APH - Global Health, Vascular Medicine, Experimental Vascular Medicine, Amsterdam Cardiovascular Sciences, Infectious diseases, Center of Experimental and Molecular Medicine, APH - Quality of Care, and ACS - Pulmonary hypertension & thrombosis

Subjects

0301 basic medicine, Male, Bacterial Diseases, Melioidosis, Burkholderia pseudomallei, Physiology, 030204 cardiovascular system & hematology, Pathology and Laboratory Medicine, Pathogenesis, 0302 clinical medicine, Endocrinology, Animal Cells, hemic and lymphatic diseases, Medicine and Health Sciences, Platelet, biology, lcsh:Public aspects of medicine, Hematology, Middle Aged, Thailand, ADAMTS13, 3. Good health, Body Fluids, Infectious Diseases, Blood, Female, Anatomy, Cellular Types, Research Article, Adult, Platelets, lcsh:Arctic medicine. Tropical medicine, Adolescent, Endocrine Disorders, Death Rates, lcsh:RC955-962, ADAMTS13 Protein, Blood Plasma, Sepsis, 03 medical and health sciences, Young Adult, Signs and Symptoms, Von Willebrand factor, Diagnostic Medicine, Diabetes mellitus, von Willebrand Factor, medicine, Diabetes Mellitus, Humans, Secretion, Aged, Demography, Blood Cells, business.industry, Public Health, Environmental and Occupational Health, Correction, Biology and Life Sciences, lcsh:RA1-1270, Cell Biology, medicine.disease, biology.organism_classification, Survival Analysis, Thrombocytopenia, 030104 developmental biology, Metabolic Disorders, Immunology, People and Places, biology.protein, business, Physiological Processes

Abstract

Background Melioidosis, caused by bioterror treat agent Burkholderia pseudomallei, is an important cause of community-acquired Gram-negative sepsis in Southeast Asia and Northern Australia. New insights into the pathogenesis of melioidosis may help improve treatment and decrease mortality rates from this dreadful disease. We hypothesized that changes in Von Willebrand factor (VWF) function should occur in melioidosis, based on the presence of endothelial stimulation by endotoxin, pro-inflammatory cytokines and thrombin in melioidosis, and investigated whether this impacted on outcome. Methods/Principal findings We recruited 52 controls and 34 culture-confirmed melioidosis patients at Sappasithiprasong Hospital in Ubon Ratchathani, Thailand. All subjects were diabetic. Platelet counts in melioidosis patients were lower compared to controls (p = 0.0001) and correlated with mortality (p = 0.02). VWF antigen levels were higher in patients (geometric mean, 478 U/dl) compared to controls (166 U/dL, p, Author summary Melioidosis, caused by bioterror threat agent Burkholderia pseudomallei, is an important cause of community-acquired sepsis in Southeast Asia and Northern Australia. Recently, it has been predicted that the annual burden of melioidosis is much higher than previously thought, with 165.000 human cases from which 89.000 patients die worldwide. Melioidosis has a mortality up to 40% despite appropriate antibiotic treatment and there is currently no vaccine available. Therefore, it is of importance to better understand the pathogenesis of this debilitating disease. There is extensive cross talk between the innate immune system and blood coagulation, which contributes to the host defense against invading bacteria. One of the hallmark features of melioidosis is extensive abnormalities in the coagulation system. Therefore, we hypothesized that, since endothelial stimulation by endotoxin, pro-inflammatory cytokines and thrombin all occur in melioidosis, these would result in derangements of Von Willebrand factor (a protein involved in hemostasis and platelet aggregation). In a cohort of culture-confirmed patients with severe melioidosis, we found that thrombocytopenia is a key feature of melioidosis and is correlated with mortality. Additionally, our study showed that excess VWF and ADAMTS13 deficiency are features of acute melioidosis, but are not the primary drivers of thrombocytopenia in melioidosis.

Published

2017

23. Identification of Burkholderia thailandensis with novel genotypes in the soil of central Sierra Leone

Author

Arie van der Ende, Floor Hugenholtz, Martin P. Grobusch, W. Joost Wiersinga, Yembeh Mansaray, Emma Birnie, Senne van ’t Hof, Anne Bijnsdorp, Erdi Huizenga, Graduate School, AII - Infectious diseases, APH - Aging & Later Life, APH - Global Health, Medical Microbiology and Infection Prevention, Center of Experimental and Molecular Medicine, Infectious diseases, AII - Cancer immunology, and APH - Quality of Care

Subjects

Bacterial Diseases, Evolutionary Genetics, 0301 basic medicine, Melioidosis, RC955-962, Pathology and Laboratory Medicine, Geographical locations, Database and Informatics Methods, 0302 clinical medicine, RNA, Ribosomal, 16S, Arctic medicine. Tropical medicine, Medicine and Health Sciences, Cluster Analysis, Phylogeny, Soil Microbiology, Data Management, Genetics, biology, Burkholderia thailandensis, Phylogenetic Analysis, Burkholderia Infections, Bacterial Pathogens, Phylogenetics, Infectious Diseases, Medical Microbiology, Pathogens, Public aspects of medicine, RA1-1270, Sequence Analysis, Research Article, DNA, Bacterial, Computer and Information Sciences, Genotype, Burkholderia, Bioinformatics, Sequence analysis, 030231 tropical medicine, Research and Analysis Methods, Microbiology, DNA, Ribosomal, Sierra Leone, Sierra leone, 03 medical and health sciences, Burkholderia Pseudomallei, medicine, Evolutionary Systematics, Typing, Microbial Pathogens, Taxonomy, Evolutionary Biology, Bacteria, Burkholderia pseudomallei, Organisms, Public Health, Environmental and Occupational Health, Biology and Life Sciences, Sequence Analysis, DNA, bacterial infections and mycoses, biology.organism_classification, medicine.disease, 030104 developmental biology, Africa, Burkholderia Infection, bacteria, Multilocus sequence typing, People and places, Multilocus Sequence Typing

Abstract

Background The soil-dwelling bacillus Burkholderia pseudomallei is the etiological-agent of the neglected and life-threatening emerging infection melioidosis. The distribution of B. pseudomallei in West Africa is unknown. In the present study we aimed to determine whether B. pseudomallei and B. thailandensis are present in the environment of central Sierra Leone. Methodology/Principal findings In June-July 2017, we conducted an environmental surveillance study–designed in accordance with existing consensus guidelines—in central Sierra Leone. A total of 1,000 soil samples (100 per site) were collected and cultured. B. pseudomallei was not identified in the soil, but we identified seven novel B. thailandensis sequence types with multi-locus sequence typing (MLST) and 16S rRNA gene sequence analyses. Conclusions/Significance The presence of B. pseudomallei was not demonstrated, however, multiple novel B. thailandensis sequence types were identified. More environmental and sequencing studies are needed to further understand the genetic diversity, evolution and virulence of these emerging organisms., Author summary The environmental bacterium Burkholderia pseudomallei is the cause of melioidosis, an often-fatal but neglected infection prevalent across tropical areas. B. thailandensis is a member of the B. pseudomallei complex, rarely causes disease in humans and is considered a-virulent. Modelling studies have estimated a high prevalence of B. pseudomallei in western Africa. In this study, we performed an environmental surveillance study in the West African country of Sierra Leone. Remarkably, we could not demonstrate the presence of B. pseudomallei in the soil of Sierra Leone. However, by both culture and sequencing methods, we identified multiple B. thailandensis strains and novel genotypes. Patients with debilitating B. thailandensis infection have been occasionally reported in among others Southeast Asia and the US. Environmental and sequencing studies on both B. pseudomallei and B. thailandensis are essential to further understand the genetic diversity and evolution of these neglected but emerging organisms.

Published

2019

24. Differential Toll-Like Receptor-Signalling of Burkholderia pseudomallei Lipopolysaccharide in Murine and Human Models

Author

Sergey A. Nepogodiev, Liesbeth M. Kager, Sarah A. Ngugi, Joann L. Prior, W. Joost Wiersinga, Cornelis van 't Veer, Thomas W. van der Vaart, Tassili A. F. Weehuizen, Robert A. Field, Alex F. de Vos, Other departments, Amsterdam institute for Infection and Immunity, Gastroenterology and Hepatology, Amsterdam Cardiovascular Sciences, Infectious diseases, and Center of Experimental and Molecular Medicine

Subjects

Lipopolysaccharides, Melioidosis, Burkholderia pseudomallei, Lipopolysaccharide, Virulence Factors, medicine.medical_treatment, lcsh:Medicine, Inflammation, Microbiology, chemistry.chemical_compound, medicine, Pneumonia, Bacterial, Animals, Humans, lcsh:Science, Toll-like receptor, Multidisciplinary, biology, lcsh:R, biochemical phenomena, metabolism, and nutrition, biology.organism_classification, medicine.disease, bacterial infections and mycoses, Mice, Mutant Strains, Toll-Like Receptor 2, Mice, Inbred C57BL, Toll-Like Receptor 4, TLR2, Cytokine, HEK293 Cells, chemistry, Immunology, Host-Pathogen Interactions, TLR4, bacteria, lipids (amino acids, peptides, and proteins), lcsh:Q, medicine.symptom, Research Article, Signal Transduction

Abstract

The Gram-negative bacterium Burkholderia pseudomallei causes melioidosis and is a CDC category B bioterrorism agent. Toll-like receptor (TLR)-2 impairs host defense during pulmonary B.pseudomallei infection while TLR4 only has limited impact. We investigated the role of TLRs in B.pseudomallei-lipopolysaccharide (LPS) induced inflammation. Purified B.pseudomallei-LPS activated only TLR2-transfected-HEK-cells during short stimulation but both HEK-TLR2 and HEK-TLR4-cells after 24 h. In human blood, an additive effect of TLR2 on TLR4-mediated signalling induced by B.pseudomallei-LPS was observed. In contrast, murine peritoneal macrophages recognized B.pseudomallei-LPS solely through TLR4. Intranasal inoculation of B.pseudomallei-LPS showed that both TLR4-knockout(-/-) and TLR2x4-/-, but not TLR2-/- mice, displayed diminished cytokine responses and neutrophil influx compared to wild-type controls. These data suggest that B.pseudomallei-LPS signalling occurs solely through murine TLR4, while in human models TLR2 plays an additional role, highlighting important differences between specificity of human and murine models that may have important consequences for B.pseudomallei-LPS sensing by TLRs and subsequent susceptibility to melioidosis.

Published

2015

25. Expression of intra- and extracellular granzymes in patients with typhoid fever

Author

Tom van der Poll, Willem Joost Wiersinga, M A Faiz, Arie J. Hoogendijk, Christopher M. Parry, Arjen M. Dondorp, Hanna K. de Jong, Maria Isabel Garcia-Laorden, Rapeephan R. Maude, Marks, F, Center of Experimental and Molecular Medicine, AII - Infectious diseases, Other departments, Infectious diseases, and Amsterdam institute for Infection and Immunity

Subjects

Bacterial Diseases, Male, 0301 basic medicine, Physiology, T-Lymphocytes, Fevers, NK cells, Pathology and Laboratory Medicine, Salmonella Typhi, Granzymes, White Blood Cells, Animal Cells, Salmonella, Immune Physiology, Medicine and Health Sciences, Typhoid, Cytotoxic T cell, Lymphocytes, Prospective Studies, Innate Immune System, Bangladesh, biology, T Cells, lcsh:Public aspects of medicine, Middle Aged, Flow Cytometry, Bacterial Pathogens, 3. Good health, Killer Cells, Natural, Infectious Diseases, Medical Microbiology, Cytokines, Female, Cellular Types, Pathogens, Intracellular, Research Article, Adult, lcsh:Arctic medicine. Tropical medicine, lcsh:RC955-962, Immune Cells, Immunology, Cytotoxic T cells, Microbiology, Typhoid fever, Interferon-gamma, Young Adult, 03 medical and health sciences, Signs and Symptoms, Enterobacteriaceae, Diagnostic Medicine, medicine, Extracellular, Humans, Lymphocyte Count, Typhoid Fever, Microbial Pathogens, Blood Cells, Bacteria, Organisms, Public Health, Environmental and Occupational Health, Biology and Life Sciences, lcsh:RA1-1270, Cell Biology, Molecular Development, medicine.disease, Granzyme B, 030104 developmental biology, Granzyme, Immune System, Case-Control Studies, biology.protein, Granzyme A, Granzyme K, Developmental Biology

Abstract

Background Typhoid fever, caused by the intracellular pathogen Salmonella (S.) enterica serovar Typhi, remains a major cause of morbidity and mortality worldwide. Granzymes are serine proteases promoting cytotoxic lymphocytes mediated eradication of intracellular pathogens via the induction of cell death and which can also play a role in inflammation. We aimed to characterize the expression of extracellular and intracellular granzymes in patients with typhoid fever and whether the extracellular levels of granzyme correlated with IFN-γ release. Methods and principal findings We analyzed soluble protein levels of extracellular granzyme A and B in healthy volunteers and patients with confirmed S. Typhi infection on admission and day of discharge, and investigated whether this correlated with interferon (IFN)-γ release, a cytokine significantly expressed in typhoid fever. The intracellular expression of granzyme A, B and K in subsets of lymphocytic cells was determined using flow cytometry. Patients demonstrated a marked increase of extracellular granzyme A and B in acute phase plasma and a correlation of both granzymes with IFN-γ release. In patients, lower plasma levels of granzyme B, but not granzyme A, were found at day of discharge compared to admission, indicating an association of granzyme B with stage of disease. Peripheral blood mononuclear cells of typhoid fever patients had a higher percentage of lymphocytic cells expressing intracellular granzyme A and granzyme B, but not granzyme K, compared to controls. Conclusion The marked increase observed in extra- and intracellular levels of granzyme expression in patients with typhoid fever, and the correlation with stage of disease, suggests a role for granzymes in the host response to this disease., Author summary Typhoid fever is an (sub)acute febrile illness that remains an important global burden with more than 27 million cases worldwide each year and an estimated 217,000 deaths. During infection by Salmonella (S.) Typhi, the etiologic agent for typhoid fever, a cascade of antimicrobial functions is triggered and causes release of signaling and cytotoxic proteins for the rapid control of the infection. Granzymes are proteins promoting cytotoxic lymphocytes mediated eradication of intracellular pathogens via the induction of cell death and which can also play a role in inflammation. In the present study we analyzed extracellular levels of different granzymes in healthy volunteers and patients with confirmed S. Typhi infection at the time of admission and discharge, as well as their correlation with levels of interferon (IFN)-γ, a cytokine significantly expressed in typhoid fever. Patients demonstrated a marked increase of extracellular released granzyme A and B in acute phase plasma, which correlated with IFN-γ levels, while granzyme B levels were associated with disease stage. Intracellular expression of both granzymes was also increased in patients compared to controls. In conclusion, granzymes are markedly elevated in human typhoid and correlate with stage of disease, suggesting their involvement in the host response to the disease.

Published

2017

26. Triggering Receptor Expressed on Myeloid Cells (TREM)-2 Impairs Host Defense in Experimental Melioidosis

Author

Alex F. de Vos, Tijmen J. Hommes, Marco Colonna, Tom van der Poll, Joris J. T. H. Roelofs, W. Joost Wiersinga, Tassili A. F. Weehuizen, Jacqueline M. Lankelma, Hanna K. de Jong, Other departments, Infectious diseases, Amsterdam institute for Infection and Immunity, Graduate School, Pathology, and Center of Experimental and Molecular Medicine

Subjects

Bacterial Diseases, Lung Diseases, Male, 0301 basic medicine, Burkholderia pseudomallei, Melioidosis, Physiology, Neutrophils, Pathology and Laboratory Medicine, White Blood Cells, Mice, 0302 clinical medicine, Animal Cells, Medicine and Health Sciences, Alveolar Macrophages, Receptors, Immunologic, Receptor, Immune Response, Mice, Knockout, Membrane Glycoproteins, lcsh:Public aspects of medicine, Animal Models, Hematology, Body Fluids, Specific Pathogen-Free Organisms, Blood, Infectious Diseases, medicine.anatomical_structure, Cell Processes, Cytokines, Anatomy, Cellular Types, medicine.symptom, Research Article, lcsh:Arctic medicine. Tropical medicine, lcsh:RC955-962, Immune Cells, Phagocytosis, Immunology, Mouse Models, Inflammation, Spleen, Biology, Research and Analysis Methods, Sepsis, 03 medical and health sciences, Signs and Symptoms, Model Organisms, Diagnostic Medicine, Immunity, medicine, Animals, Blood Cells, Public Health, Environmental and Occupational Health, Biology and Life Sciences, lcsh:RA1-1270, Cell Biology, medicine.disease, biology.organism_classification, Triggering Receptor Expressed on Myeloid Cells-1, 030104 developmental biology, Gene Expression Regulation, 030215 immunology

Abstract

Background Triggering receptor expressed on myeloid cells (TREM) -1 and TREM-2 are key regulators of the inflammatory response that are involved in the clearance of invading pathogens. Melioidosis, caused by the "Tier 1" biothreat agent Burkholderia pseudomallei, is a common form of community-acquired sepsis in Southeast-Asia. TREM-1 has been suggested as a biomarker for sepsis and melioidosis. We aimed to characterize the expression and function of TREM-1 and TREM-2 in melioidosis. Methodology/Principal Findings Wild-type, TREM-1/3 (Trem-1/3-/-) and TREM-2 (Trem-2-/-) deficient mice were intranasally infected with live B. pseudomallei and killed after 24, and/or 72 h for the harvesting of lungs, liver, spleen, and blood. Additionally, survival studies were performed. Cellular functions were further analyzed by stimulation and/or infection of isolated cells. TREM-1 and TREM-2 expression was increased both in the lung and liver of B. pseudomallei-infected mice. Strikingly, Trem-2-/-, but not Trem-1/3-/-, mice displayed a markedly improved host defense as reflected by a strong survival advantage together with decreased bacterial loads, less inflammation and reduced organ injury. Cellular responsiveness of TREM-2, but not TREM-1, deficient blood and bone-marrow derived macrophages (BMDM) was diminished upon exposure to B. pseudomallei. Phagocytosis and intracellular killing of B. pseudomallei by BMDM and alveolar macrophages were TREM-1 and TREM-2-independent. Conclusions/Significance We found that TREM-2, and to a lesser extent TREM-1, plays a remarkable detrimental role in the host defense against a clinically relevant Gram-negative pathogen in mice: TREM-2 deficiency restricts the inflammatory response, thereby decreasing organ damage and mortality., Author Summary Triggering receptor expressed on myeloid cells (TREM)-1 and -2 are receptors on immune cells that act as mediators of the innate immune response. It is thought that TREM-1 amplifies the immune response, while TREM-2 acts as a negative regulator. Previously, we found that TREM-1 is upregulated in melioidosis patients. In contrast, nothing is known on TREM-2 expression and its role in melioidosis. In this study we examined the expression and functional role of both TREM-1 and -2 in a murine melioidosis model. We found that TREM-1 and-2 expression was upregulated during melioidosis. Using our experimental melioidosis model, we observed that Trem-2-/- mice were protected against B.pseudomallei-induced lethality. Trem-2-/- mice demonstrated reduced bacterial loads, inflammation and organ damage compared to wild-type mice in experimental melioidosis. Despite reduced bacterial dissemination of B.pseudomallei to distant organs in Trem-1/3-/ mice-, no differences in survival were found between Trem-1/3-/- and wild-type mice during melioidosis. Lastly, we investigated cellular functions of TREM-1 and TREM-2 and found that TREM-2 deficiency led to decreased cellular responsiveness to B. pseudomallei infection. In conclusion, we found that TREM-2 plays an important role during experimental murine melioidosis. TREM-2-deficiency reduces inflammation and organ damage, thereby improving survival.

Published

2016

27. MyD88 dependent signaling contributes to protective host defense against Burkholderia pseudomallei

Author

Catharina W. Wieland, Tom van der Poll, W. Joost Wiersinga, Joris J. T. H. Roelofs, Infectious diseases, Center of Experimental and Molecular Medicine, Amsterdam Cardiovascular Sciences, Amsterdam institute for Infection and Immunity, and Pathology

Subjects

Male, Burkholderia pseudomallei, Melioidosis, Phagocytosis, Immunology/Innate Immunity, lcsh:Medicine, Inflammation, Biology, Respiratory Medicine/Respiratory Infections, Microbiology, Infectious Diseases/Bacterial Infections, Mice, Critical Care and Emergency Medicine/Sepsis and Multiple Organ Failure, Immunity, medicine, Animals, lcsh:Science, Mice, Knockout, Microbial Viability, Multidisciplinary, Innate immune system, Liver Diseases, lcsh:R, Pneumonia, medicine.disease, biology.organism_classification, Immunity, Innate, Microbiology/Immunity to Infections, Specific Pathogen-Free Organisms, Mice, Inbred C57BL, Adaptor Proteins, Vesicular Transport, Cytoprotection, TRIF, Myeloid Differentiation Factor 88, Immunology, Female, Tumor necrosis factor alpha, lcsh:Q, medicine.symptom, Research Article, Signal Transduction

Abstract

Background: Toll-like receptors (TLRs) have a central role in the recognition of pathogens and the initiation of the innate immune response. Myeloid differentiation primary-response gene 88 (MyD88) and TIR-domain-containing adaptor protein inducing IFN beta (TRIF) are regarded as the key signaling adaptor proteins for TLRs. Melioidosis, which is endemic in SE-Asia, is a severe infection caused by the gram-negative bacterium Burkholderia pseudomallei. We here aimed to characterize the role of MyD88 and TRIF in host defense against melioidosis. Methodology and Principal Findings: First, we found that MyD88, but not TRIF, deficient whole blood leukocytes released less TNF alpha upon stimulation with B. pseudomallei compared to wild-type (WT) cells. Thereafter we inoculated MyD88 knockout (KO), TRIF mutant and WT mice intranasally with B. pseudomallei and found that MyD88 KO, but not TRIF mutant mice demonstrated a strongly accelerated lethality, which was accompanied by significantly increased bacterial loads in lungs, liver and blood, and grossly enhanced liver damage compared to WT mice. The decreased bacterial clearance capacity of MyD88 KO mice was accompanied by a markedly reduced early pulmonary neutrophil recruitment and a diminished activation of neutrophils after infection with B. pseudomallei. MyD88 KO leukocytes displayed an unaltered capacity to phagocytose and kill B. pseudomallei in vitro. Conclusions: MyD88 dependent signaling, but not TRIF dependent signaling, contributes to a protective host response against B. pseudomallei at least in part by causing early neutrophil recruitment towards the primary site of infection

Published

2008

28. Expression and Function of S100A8/A9 (Calprotectin) in Human Typhoid Fever and the Murine Salmonella Model

Author

Thomas Vogl, Jaap T. van Dissel, Albert M Vollaard, Ahmed Achouiti, Willem Joost Wiersinga, Hanna K. de Jong, Christopher M. Parry, Ester M. M. van Leeuwen, Johannes Roth, Alex F. de Vos, Gavin C. K. W. Koh, Joris J. T. H. Roelofs, Stephen Baker, Tom van der Poll, M A Faiz, Center of Experimental and Molecular Medicine, Other departments, AII - Amsterdam institute for Infection and Immunity, Experimental Immunology, ACS - Amsterdam Cardiovascular Sciences, Pathology, and Infectious diseases

Subjects

Salmonella, lcsh:Arctic medicine. Tropical medicine, lcsh:RC955-962, Bacteremia, Inflammation, Spleen, Biology, wc_269, medicine.disease_cause, Salmonella typhi, Polymerase Chain Reaction, Typhoid fever, Microbiology, S100A8, Mice, 03 medical and health sciences, 0302 clinical medicine, medicine, Animals, Calgranulin B, Humans, Calgranulin A, Blood culture, Typhoid Fever, qw_131, 030304 developmental biology, 0303 health sciences, qw_4, medicine.diagnostic_test, lcsh:Public aspects of medicine, wc_270, Public Health, Environmental and Occupational Health, lcsh:RA1-1270, medicine.disease, 3. Good health, Toll-Like Receptor 4, Infectious Diseases, medicine.anatomical_structure, Gene Expression Regulation, Immunology, medicine.symptom, Calprotectin, Leukocyte L1 Antigen Complex, Research Article, 030215 immunology

Abstract

Background Typhoid fever, caused by the Gram-negative bacterium Salmonella enterica serovar Typhi, is a major cause of community-acquired bacteremia and death worldwide. S100A8 (MRP8) and S100A9 (MRP14) form bioactive antimicrobial heterodimers (calprotectin) that can activate Toll-like receptor 4, promoting lethal, endotoxin-induced shock and multi-organ failure. We aimed to characterize the expression and function of S100A8/A9 in patients with typhoid fever and in a murine invasive Salmonella model. Methods and principal findings S100A8/A9 protein levels were determined in acute phase plasma or feces from 28 Bangladeshi patients, and convalescent phase plasma from 60 Indonesian patients with blood culture or PCR-confirmed typhoid fever, and compared to 98 healthy control subjects. To functionally characterize the role of S100A8/A9, we challenged wildtype (WT) and S100A9-/- mice with S. Typhimurium and determined bacterial loads and inflammation 2- and 5- days post infection. We further assessed the antimicrobial function of recombinant S100A8/A9 on S. Typhimurium and S. Typhi replication in vitro. Typhoid fever patients demonstrated a marked increase of S100A8/A9 in acute phase plasma and feces and this increases correlated with duration of fever prior to admission. S100A8/A9 directly inhibited the growth of S. Typhimurium and S. Typhi in vitro in a dose and time dependent fashion. WT mice inoculated with S. Typhimurium showed increased levels of S100A8/A9 in both the liver and the systemic compartment but S100A9-/- mice were indistinguishable from WT mice with respect to bacterial growth, survival, and inflammatory responses, as determined by cytokine release, histopathology and organ injury. Conclusion S100A8/A9 is markedly elevated in human typhoid, correlates with duration of fever prior to admission and directly inhibits the growth of S. Typhimurium and S. Typhi in vitro. Despite elevated levels in the murine invasive Salmonella model, S100A8/A9 does not contribute to an effective host response against S. Typhimurium in mice., Author Summary Bacterial pathogens are recognized by the host upon infection through interactions between their virulence factors and host cell receptors leading to the activation and recruitment of innate immune cells. Salmonella Typhi, the etiologic agent for typhoid fever, however harbors a number of factors, such as a polysaccharide capsule, which prevent the detection of these virulence factors, and thereby dampens the innate host response. Besides bacterial virulence factors, the host can detect endogenous danger molecules which are released upon tissue damage. S100A8/A9, an extracellular protein complex, is such a danger signal that is able to further amplify the systemic inflammatory response upon infection. In the present study we investigated the role of S100A8/A9 during invasive Salmonella infection and observed a marked increase of this protein in patients with typhoid fever, which correlates with disease stage and severity. Furthermore we found that S100A8/A9 directly inhibited the growth of Salmonella species in vitro thereby functioning as an antimicrobial. When mice were infected with Salmonella, the levels of S100A8/A9 were also elevated but mice lacking this protein did not have an altered host response to infection. The role and importance of the elevated levels of S100A8/A9 in human typhoid fever requires further study.

Published

2015

29. A Thrombomodulin Mutation that Impairs Active Protein C Generation Is Detrimental in Severe Pneumonia-Derived Gram-Negative Sepsis (Melioidosis)

Author

W. Joost Wiersinga, Joris J. T. H. Roelofs, Cornelis van 't Veer, Tom van der Poll, Onno J. de Boer, Liesbeth M. Kager, Hartmut Weiler, Amsterdam institute for Infection and Immunity, Gastroenterology and Hepatology, Infectious diseases, Amsterdam Cardiovascular Sciences, Pathology, and Center of Experimental and Molecular Medicine

Subjects

Male, lcsh:Arctic medicine. Tropical medicine, Burkholderia pseudomallei, Melioidosis, lcsh:RC955-962, Thrombomodulin, Immunology, Inflammation, Pathogenesis, Biology, Pathology and Laboratory Medicine, Microbiology, Sepsis, Mice, Immune system, Pneumonia, Bacterial, Medicine and Health Sciences, medicine, Animals, Point Mutation, Gram Negative, Immune Response, Microbial Pathogens, lcsh:Public aspects of medicine, Public Health, Environmental and Occupational Health, Biology and Life Sciences, lcsh:RA1-1270, Bacteriology, medicine.disease, biology.organism_classification, Survival Analysis, Bacterial Pathogens, Mice, Inbred C57BL, Infectious Diseases, Burkholderia, Medical Microbiology, Host-Pathogen Interactions, Mutant Proteins, medicine.symptom, Protein C, Research Article, medicine.drug

Abstract

Background During severe (pneumo)sepsis inflammatory and coagulation pathways become activated as part of the host immune response. Thrombomodulin (TM) is involved in a range of host defense mechanisms during infection and plays a pivotal role in activation of protein C (PC) into active protein C (APC). APC has both anticoagulant and anti-inflammatory properties. In this study we investigated the effects of impaired TM-mediated APC generation during melioidosis, a common form of community-acquired Gram-negative (pneumo)sepsis in South-East Asia caused by Burkholderia (B.) pseudomallei. Methodology/Principal Findings (WT) mice and mice with an impaired capacity to activate protein C due to a point mutation in their Thbd gene (TMpro/pro mice) were intranasally infected with B. pseudomallei and sacrificed after 24, 48 or 72 hours for analyses. Additionally, survival studies were performed. When compared to WT mice, TMpro/pro mice displayed a worse survival upon infection with B. pseudomallei, accompanied by increased coagulation activation, enhanced lung neutrophil influx and bronchoalveolar inflammation at late time points, together with increased hepatocellular injury. The TMpro/pro mutation had limited if any impact on bacterial growth and dissemination. Conclusion/Significance TM-mediated protein C activation contributes to protective immunity after infection with B. pseudomallei. These results add to a better understanding of the regulation of the inflammatory and procoagulant response during severe Gram-negative (pneumo)sepsis., Author Summary Pneumonia and sepsis are conditions in which a procoagulant state is observed, with activation of coagulation and downregulation of anticoagulant pathways, both closely interrelated with inflammation. The protein C (PC) system is an important anticoagulant pathway implicated in the pathogenesis of sepsis. After binding to thrombomodulin (TM), PC is converted into active protein C (APC), mediated via high-affinity binding of thrombin to thrombomodulin (TM) and further augmented via association of the endothelial protein C receptor (EPCR) to the TM-thrombin complex. We studied the role of TM-associated PC-activation during the host response during pneumonia-derived sepsis caused by Burkholderia (B.) pseudomallei, the causative agent of melioidosis, a common form of community-acquired Gram-negative (pneumo)sepsis in South-East Asia and a serious potential bioterrorism threat agent. Mice with an impaired capacity to activate protein C displayed a worse survival upon infection with B. pseudomallei, accompanied by increased coagulation activation, enhanced lung neutrophil influx and bronchoalveolar inflammation at late time points, together with increased hepatocellular injury. These data further expand the knowledge about the role of the protein C system during melioidosis and may be of value in the development of therapeutic strategies against this dangerous pathogen.

Published

2014