TLR2 Is a Negative Regulator of Th17 Cells and Tissue Pathology in a Pulmonary Model of Fungal Infection

Loures, Flávio Vieira; Pina, Adriana; Felonato, Maíra; Calich, Vera Lúcia Garcia

doi:10.4049/jimmunol.0801599

Cited by 136 publications

(154 citation statements)

References 60 publications

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“…However, the regulatory effects of TLR2 on Th17 cells have appeared to be contradictory in various studies. In pulmonary fungal infection and brain abscess, TLR2 was reported to act as a negative regulator for Th17 cells (24,37), whereas in experimental autoimmune encephalomyelitis, skin inflammation, and tuberculosis infection, TLR2 was reported to have the opposite effect (38)(39)(40). These findings suggest that the specific effect of TLR2 on Th17 cells varies with the type of immune response and depends on the microenvironment of the target tissues.…”

Section: Discussionmentioning

confidence: 65%

“…In several in vivo studies, TLR2 has been demonstrated to control the expansion and function of T reg cells (21)(22)(23), which inhibit Th17 cells via TLR2 signals in a pulmonary fungal infection model system (24). These findings led us to hypothesize that the TLR2-dependent expansion of T reg cells might inhibit Th17 cells in the BIPF model.…”

Section: Tlr2-dependent T Reg Cells Have Minimal Inhibitory Effect Onmentioning

confidence: 98%

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TLR2-Mediated Production of IL-27 and Chemokines by Respiratory Epithelial Cells Promotes Bleomycin-Induced Pulmonary Fibrosis in Mice

Kim

Akira

et al. 2011

The Journal of Immunology

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Idiopathic pulmonary fibrosis is a fatal disease characterized by progressive destruction of the lung. Although TLR2 bridges innate and adaptive immunity by sensing tissue damage, its role in pulmonary fibrosis remains unclear. To address this issue, TLR2−/− and WT mice were examined for bleomycin-induced pulmonary fibrosis (BIPF). Flow cytometric and immunohistochemical analysis revealed that TLR2 expression in bronchial epithelial and immune cells of the lungs was upregulated in WT mice during BIPF. Levels of IL-27, TGF-β, chemokines, and hydroxyproline were lower in lungs of TLR2−/− mice than in those of WT mice, but IL-17 levels were higher in TLR2−/− mice. In in vivo experiments using bone marrow-chimeric mice, TLR2 expression on respiratory epithelial cells, rather than immune cells, induced IL-27 and chemokine production in the lungs, further stimulating BIPF. This effect of TLR2 depended on IRF complexes and MyD88. BIPF was more severe in IL-17A−/− mice and in TLR2−/− mice treated with anti–IL-17 mAb than in TLR2−/− and WT mice. Furthermore, IL-27 blockade in WT mice reduced hydroxyproline levels by enhancing IL-17 production, whereas the treatment of TLR2−/− mice with a chemokine mixture increased hydroxyproline levels by recruiting inflammatory cells into the lungs. TLR2 signaling promotes BIPF by inducing IL-27 and chemokine production by respiratory epithelial cells, thereby inhibiting IL-17 production and recruiting inflammatory cells into the lungs.

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Section: Discussionmentioning

confidence: 65%

Section: Tlr2-dependent T Reg Cells Have Minimal Inhibitory Effect Onmentioning

confidence: 98%

TLR2-Mediated Production of IL-27 and Chemokines by Respiratory Epithelial Cells Promotes Bleomycin-Induced Pulmonary Fibrosis in Mice

Kim

Akira

et al. 2011

The Journal of Immunology

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“…In a murine model of S. aureus brain abscess, TLR2 deficiency was associated with the increased infiltration of IL-17 producing T cells to the lesions [24]. Similarly, in Paracoccidioides brasiliensis infection of the lung, TLR2 À/À mice displayed a Th17 phenotype that was associated with impaired expansion of regulatory CD4 1 CD25 1 Foxp3 1 T cells [25]. In contrast, the TLR2 ligand Pam 3 CSK 4 was shown to directly induce the production of IL-17 by gdT cells [26].…”

Section: Discussionmentioning

confidence: 99%

Divergent roles of Toll‐like receptor 2 in response to lipoteichoic acid and Staphylococcus aureus in vivo

et al. 2010

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The response of leukocytes to lipoteichoic acid (LTA), a TLR2-dependent major cell wall component of Staphylococcus aureus, is linked to the outcome of an infection. In this study we investigated the role of nonhematopoietic TLR2 in response to LTA and S. aureus by creating bone marrow chimeras. Significant leukocyte recruitment in response to LTA required IFN-c priming in WT C57BL/6 and TLR2 À/À ) WT mice, but was not observed in TLR2 À/À or WT ) TLR2 À/À animals. LTA also induced a proinflammatory response in IFN-c primed primary human microvascular endothelial cells leading to leukocyte recruitment in vitro. When mice were infected with S. aureus, the most profound elevation of TNF-a and IL-6 was seen in TLR2 À/À and TLR2 À/À ) WT mice. TLR2 À/À , but not chimeric mice, demonstrated increased IL-17, blood leukocytosis and pulmonary neutrophilia compared to WT mice. Collectively, the results suggest an essential role for IFN-c and nonhematopoietic TLR2 for leukocyte recruitment in response to LTA. In contrast, TLR2 on both hematopoietic and nonhematopoietic cells appears to orchestrate an inhibitory response to S. aureus such that in complete TLR2 deficiency, there is an exaggerated proinflammatory response and/or skewing of the immune response towards a Th17 phenotype that may contribute to the decreased survival of TLR2 À/À mice. Key words: Endothelial cells . Leukocyte recruitment . Lipoteichoic acidStaphyloccoccus aureus . TLR2 IntroductionStaphyloccoccus aureus is the most common causative agent of bacteremia in the Western world and is associated with high mortality. Despite the increasing importance of S. aureus infection, how the pathogen is recognized by the innate immune system in vivo remains incompletely understood. S. aureus possesses a number of PAMP that may activate the host innate immune system [1]. These PAMP include peptidoglycan (PGN), lipoteichoic acid (LTA), lipoproteins and unmethylated CpG DNA. PGN is recognized by the peptidoglyan recognizing proteins and the PGN subcomponent muramyl dipeptide (MDP) is recognized by the cytosolic sensor nucleotide-binding oligomerization domain 2 (NOD2). S. aureus LTA and lipoproteins are recognized by TLR2. CpG DNA is recognized by TLR9. The strongest evidence to date suggests that both TLR2 and NOD, Eur. J. Immunol. 2010. 40: 1639-1650 DOI 10.1002 Immunity to infection 1639 possibly in concert, facilitate innate immune recognition of S. aureus [2][3][4][5]. However the in vivo importance of each PAMP from S. aureus in driving the innate immune response and the target cells each acts on has not been clearly elucidated. The important role of TLR2 in host defense against S. aureus has long been established. An intravenous inoculum of 10 7 organisms resulted in 90% mortality by day 14 in TLR2-deficient mice, compared to 40% in WT animals [2]. A larger inoculum (10 8 cfu) resulted in 100% mortality by day 5 [3]. Mortality in TLR2 À/À mice was correlated with the inhibition of TNF-a production by peritoneal macrophages in response to LTA, a major cell wal...

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“…By contrast, TLR2 engagement was shown to favor Th2 responses in some cases (19), to promote IFN-␥ production in other studies (20), and has been shown to promote IL-10 production and enhance Treg activity in vivo (21). TLR2 has been shown to also regulate IL-17 production; however, different infection models have shown either enhancing (22,23) or inhibitory effects (24,25), and its direct effect on IL-17 production by Ag-specific T cells is not clear. Therefore, the role of TLR2 engagement in driving the differentiation of CD4 T cells during priming in vivo remains an unresolved issue.…”

Section: Tlr2 Engagement On Dendritic Cells Promotes Highmentioning

confidence: 93%

“…TLR2 expression was also found to promote IL-17 production in human CD4 T cells (22), consistent with our results here. However, in infection models, TLR2 deficiency has been associated with increased IL-17 production in inflammatory sites (24,25), suggesting that other influences of inflammation and infection may affect how different TLR control T cell responses. TLR2 engagement has also been associated with increased Treg expansion in vivo (20,33,46,54), although this TLR2-mediated effect was due to direct ligation of TLR2 on Tregs (20,33).…”

Section: Discussionmentioning

confidence: 99%

TLR2 Engagement on Dendritic Cells Promotes High Frequency Effector and Memory CD4 T Cell Responses

Chandran

Verhoeven

Teijaro

et al. 2009

The Journal of Immunology

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Ligation of TLR by distinct pathogen components provides essential signals for T cell priming, although how individual TLR engagement affects primary and memory T cell responses is not well defined. In this study, we demonstrate distinct effects of TLR2 vs TLR4 engagement on primary and memory CD4 T cell responses due to differential effects on APC. Priming of influenza hemagglutinin (HA)-specific naive CD4 T cells with HA peptide and the TLR2 agonist Pam3CysK in vivo resulted in a high frequency of activated HA-specific CD4 T cells that predominantly produced IL-2 and IL-17, whereas priming with HA peptide and the TLR4 agonist LPS yielded a lower frequency of HA-specific CD4 T cells and predominant IFN-γ producers. TLR2 agonist priming depended on TLR2 expression by APC, as wild-type CD4 T cells did not expand in response to peptide and Pam3CysK in TLR2-deficient hosts. TLR2-mediated priming also led to an increased frequency of Ag-specific memory CD4 T cells compared with TLR4 priming and mediated enhanced secondary responses to influenza challenge. Our results show that TLR engagement on APC influences both primary and secondary CD4 T cell responses, and suggest that long-term functional capacities of T cells are set by innate signals during early phases of an infection.

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TLR2 Is a Negative Regulator of Th17 Cells and Tissue Pathology in a Pulmonary Model of Fungal Infection

Cited by 136 publications

References 60 publications

TLR2-Mediated Production of IL-27 and Chemokines by Respiratory Epithelial Cells Promotes Bleomycin-Induced Pulmonary Fibrosis in Mice

TLR2-Mediated Production of IL-27 and Chemokines by Respiratory Epithelial Cells Promotes Bleomycin-Induced Pulmonary Fibrosis in Mice

Divergent roles of Toll‐like receptor 2 in response to lipoteichoic acid and Staphylococcus aureus in vivo

TLR2 Engagement on Dendritic Cells Promotes High Frequency Effector and Memory CD4 T Cell Responses

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