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1.
Mucosal Immunol ; 10(4): 1069-1081, 2017 07.
Article in English | MEDLINE | ID: mdl-28247861

ABSTRACT

Approximately 2 billion people are infected with Mycobacterium tuberculosis (Mtb), resulting in 1.4 million deaths every year. Among Mtb-infected individuals, clinical isolates belonging to the W-Beijing lineage are increasingly prevalent, associated with drug resistance, and cause severe disease immunopathology in animal models. Therefore, it is exceedingly important to identify the immune mechanisms that mediate protection against rapidly emerging Mtb strains, such as W-Beijing lineage. IL-22 is a member of the IL-10 family of cytokines with both protective and pathological functions at mucosal surfaces. Thus far, collective data show that IL-22 deficient mice are not more susceptible to aerosolized infection with less virulent Mtb strains. Thus, in this study we addressed the functional role for the IL-22 pathway in immunity to emerging Mtb isolates, using W-Beijing lineage member, Mtb HN878 as a prototype. We show that Mtb HN878 stimulates IL-22 production in TLR2 dependent manner and IL-22 mediates protective immunity during chronic stages of Mtb HN878 infection in mice. Interestingly, IL-22-dependent pathways in both epithelial cells and macrophages mediate protective mechanisms for Mtb HN878 control. Thus, our results project a new protective role for IL-22 in emerging Mtb infections.


Subject(s)
Epithelial Cells/immunology , Interleukins/metabolism , Lung/immunology , Macrophages/immunology , Mycobacterium tuberculosis/immunology , Tuberculosis/immunology , Animals , Cells, Cultured , Chronic Disease , Drug Resistance , Humans , Immunity, Mucosal , Interleukins/genetics , Lung/microbiology , Lung/pathology , Macaca mulatta , Mice , Mice, Inbred C57BL , Mice, Knockout , Toll-Like Receptor 2/genetics , Toll-Like Receptor 2/metabolism , Interleukin-22
2.
Mucosal Immunol ; 8(5): 1099-109, 2015 Sep.
Article in English | MEDLINE | ID: mdl-25627812

ABSTRACT

Tuberculosis (TB) vaccine development has focused largely on targeting T helper type 1 (Th1) cells. However, despite inducing Th1 cells, the recombinant TB vaccine MVA85A failed to enhance protection against TB disease in humans. In recent years, Th17 cells have emerged as key players in vaccine-induced protection against TB. However, the exact cytokine and immune requirements that enable Th17-induced recall protection remain unclear. In this study, we have investigated the requirements for Th17 cell-induced recall protection against Mycobacterium tuberculosis (Mtb) challenge by utilizing a tractable adoptive transfer model in mice. We demonstrate that adoptive transfer of Mtb-specific Th17 cells into naive hosts, and upon Mtb challenge, results in Th17 recall responses that confer protection at levels similar to vaccination strategies. Importantly, although interleukin (IL)-23 is critical, IL-12 and IL-21 are dispensable for protective Th17 recall responses. Unexpectedly, we demonstrate that interferon-γ (IFN-γ) produced by adoptively transferred Th17 cells impairs long-lasting protective recall immunity against Mtb challenge. In contrast, CXCR5 expression is crucial for localization of Th17 cells near macrophages within well-formed B-cell follicles to mediate Mtb control. Thus, our data identify new immune characteristics that can be harnessed to improve Th17 recall responses for enhancing vaccine design against TB.


Subject(s)
Interleukins/immunology , Mycobacterium tuberculosis/immunology , Th1 Cells/immunology , Th17 Cells/immunology , Tuberculosis Vaccines/immunology , Tuberculosis/immunology , Animals , Humans , Mice , Mice, Knockout , Tuberculosis/prevention & control , Tuberculosis Vaccines/pharmacology , Vaccines, DNA
3.
Mucosal Immunol ; 6(5): 972-84, 2013 Sep.
Article in English | MEDLINE | ID: mdl-23299616

ABSTRACT

The variable efficacy of tuberculosis (TB) vaccines and the emergence of drug-resistant strains of Mycobacterium tuberculosis (Mtb) emphasize the urgency for not only generating new and more effective vaccines against TB but also understanding the underlying mechanisms that mediate vaccine-induced protection. We demonstrate that mucosal adjuvants, such as type II heat labile enterotoxin (LT-IIb), delivered through the mucosal route induce pulmonary Mtb-specific T helper type 17 (Th17) responses and provide vaccine-induced protection against Mtb infection. Importantly, protection is interferon-γ (IFNγ)-independent but interleukin-17 (IL-17)-dependent. Our data show that IL-17 mediates C-X-C motif chemokine ligand 13 (CXCL13) induction in the lung for strategic localization of proinflammatory cytokine-producing CXCR5+ (C-X-C motif chemokine receptor 5-positive) T cells within lymphoid structures, thereby promoting early and efficient macrophage activation and the control of Mtb. Our studies highlight the potential value of targeting the IL-17-CXCL13 pathway rather than the IFNγ pathway as a new strategy to improve mucosal vaccines against TB.


Subject(s)
Chemokine CXCL13/metabolism , Mycobacterium tuberculosis/immunology , Th17 Cells/immunology , Tuberculosis Vaccines , Tuberculosis/immunology , Animals , Enterotoxins/genetics , Humans , Interleukin-17/metabolism , Macrophage Activation , Mice , Mice, Inbred C57BL , Molecular Targeted Therapy , Receptors, CXCR5/metabolism , Signal Transduction , Tuberculosis/prevention & control
4.
Mucosal Immunol ; 6(5): 900-10, 2013 Sep.
Article in English | MEDLINE | ID: mdl-23250275

ABSTRACT

Oropharyngeal candidiasis (OPC) is an opportunistic infection caused by Candida albicans. Despite its prevalence, little is known about C. albicans-specific immunity in the oral mucosa. Vaccines against Candida generate both T helper type 1 (Th1) and Th17 responses, and considerable evidence implicates interleukin (IL)-17 in immunity to OPC. However, IL-17 is also produced by innate immune cells that are remarkably similar to Th17 cells, expressing the same markers and localizing to similar mucosal sites. To date, the relative contribution(s) of Th1, Th17, and innate IL-17-producing cells in OPC have not been clearly defined. Here, we sought to determine the nature and function of adaptive T-cell responses to OPC, using a new recall infection model. Mice subjected to infection and re-challenge with Candida mounted a robust and stable antigen-specific IL-17 response in CD4+ but not CD8+ T cells. There was little evidence for Th1 or Th1/Th17 responses. The Th17 response promoted accelerated fungal clearance, and Th17 cells could confer protection in Rag1-/- mice upon adoptive transfer. Surprisingly, CD4 deficiency did not cause OPC but was instead associated with compensatory IL-17 production by Tc17 and CD3+CD4-CD8- cells. Therefore, classic CD4+Th17 cells protect from OPC but can be compensated by other IL-17-producing cells in CD4-deficient hosts.


Subject(s)
Candida albicans/immunology , Candidiasis/immunology , Mouth Mucosa/immunology , Oropharynx/immunology , T-Lymphocyte Subsets/immunology , Th17 Cells/immunology , Adaptive Immunity , Adoptive Transfer , Animals , Cells, Cultured , Disease Models, Animal , Humans , Immunity, Mucosal , Interleukin-17/metabolism , Mice , Mice, Inbred C57BL , Mice, Knockout , Oropharynx/microbiology , Oropharynx/pathology , T-Lymphocyte Subsets/transplantation , Th17 Cells/transplantation
5.
Mucosal Immunol ; 2(5): 403-11, 2009 Sep.
Article in English | MEDLINE | ID: mdl-19587639

ABSTRACT

T helper type 17 (Th17) cells are a distinct lineage of T cells that produce the effector molecules IL-17, IL-17F, IL-21, and IL-22. Although the role of Th17 cells in autoimmunity is well documented, there is growing evidence that the Th17 lineage and other interleukin (IL)-17-producing cells are critical for host defense against bacterial, fungal, and viral infections at mucosal surfaces. Here we summarize recent progress in our understanding of the function of IL-17-producing cells as a bridge between innate and adaptive immunity against infectious diseases at the mucosa.


Subject(s)
Immunity, Innate/immunology , Infections/immunology , Lymphocyte Cooperation/immunology , Mucous Membrane/immunology , T-Lymphocyte Subsets/immunology , T-Lymphocytes, Helper-Inducer/immunology , Animals , Cell Lineage , Humans , Immunologic Deficiency Syndromes/immunology , Immunotherapy , Interleukins/metabolism , Mice , Mice, Knockout , Models, Immunological , Receptors, Interleukin-17/deficiency , Receptors, Interleukin-17/physiology , Signal Transduction , T-Lymphocyte Subsets/metabolism , T-Lymphocytes, Helper-Inducer/metabolism , Tumor Necrosis Factor-alpha/metabolism
6.
Indian Heart J ; 53(6): 776-8, 2001.
Article in English | MEDLINE | ID: mdl-11838935

ABSTRACT

A 41-year-old man with atrial septal defect-Eisenmenger syndrome presented with progressively worsening breathlessness. The echocardiogram, computerized tomographic scan and magnetic resonance imaging of the thorax showed dilated pulmonary arteries and large thrombi in the right and left pulmonary arteries. Contrast-enhanced computerized tomographic scan was better than magnetic resonance imaging in picking up the thrombus. The possibility of in situ thrombus formation was considered more likely than thromboembolism, as there were none of the acute symptoms expected with the embolization of such large thrombi.


Subject(s)
Eisenmenger Complex/complications , Heart Septal Defects, Atrial/complications , Thrombosis , Thrombosis/complications , Adult , Humans , Male , Pulmonary Artery/diagnostic imaging , Radiography , Thrombosis/diagnosis , Ultrasonography
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