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      Brucella Control of Dendritic Cell Maturation Is Dependent on the TIR-Containing Protein Btp1

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          Abstract

          Brucella is an intracellular pathogen able to persist for long periods of time within the host and establish a chronic disease. We show that soon after Brucella inoculation in intestinal loops, dendritic cells from ileal Peyer's patches become infected and constitute a cell target for this pathogen. In vitro, we found that Brucella replicates within dendritic cells and hinders their functional activation. In addition, we identified a new Brucella protein Btp1, which down-modulates maturation of infected dendritic cells by interfering with the TLR2 signaling pathway. These results show that intracellular Brucella is able to control dendritic cell function, which may have important consequences in the development of chronic brucellosis.

          Author Summary

          A key determinant for intracellular pathogenic bacteria to induce infectious diseases is their ability to avoid recognition by the host immune system. Although most microorganisms internalized by host cells are efficiently cleared, Brucella behave as a Trojan horse causing a zoonosis called brucellosis that affects both humans and animals. Here we show that pathogenic Brucella are able to target host cell defense mechanisms by controlling the function of the sentinels of the immune system, the dendritic cells. In particular, the Brucella TIR-containing protein (Btp1) targets the Toll-like receptor 2 activation pathway, which is a major host response system involved in bacterial recognition. Btp1 is involved in the inhibition of dendritic cell maturation. The direct consequence is a control of inflammatory cytokine secretion and antigen presentation to T lymphocytes. These bacterial proteins are not specific for Brucella and have been identified in other pathogens and may be part of a general virulence mechanism used by several intracellular pathogens to induce disease.

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          Differential Roles of TLR2 and TLR4 in Recognition of Gram-Negative and Gram-Positive Bacterial Cell Wall Components

          Osamu Takeuchi, Katsuaki Hoshino, Taro Kawai (1999)
          Toll-like receptor (TLR) 2 and TLR4 are implicated in the recognition of various bacterial cell wall components, such as lipopolysaccharide (LPS). To investigate in vivo roles of TLR2, we generated TLR2-deficient mice. In contrast to LPS unresponsiveness in TLR4-deficient mice, TLR2-deficient mice responded to LPS to the same extent as wild-type mice. TLR2-deficient macrophages were hyporesponsive to several Gram-positive bacterial cell walls as well as Staphylococcus aureus peptidoglycan. TLR4-deficient macrophages lacked the response to Gram-positive lipoteichoic acids. These results demonstrate that TLR2 and TLR4 recognize different bacterial cell wall components in vivo and TLR2 plays a major role in Gram-positive bacterial recognition.
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            Recognition of single-stranded RNA viruses by Toll-like receptor 7.

            Jennifer Lund, Lena Alexopoulou, Ayuko Sato (2004)
            Viral infection of mammalian host results in the activation of innate immune responses. Toll-like receptors (TLRs) have been shown to mediate the recognition of many types of pathogens, including viruses. The genomes of viruses possess unique characteristics that are not found in mammalian genomes, such as high CpG content and double-stranded RNA. These genomic nucleic acids serve as molecular signatures associated with viral infections. Here we show that TLR7 recognizes the single-stranded RNA viruses, vesicular stomatitis virus and influenza virus. The recognition of these viruses by plasmacytoid dendritic cells and B cells through TLR7 results in their activation of costimulatory molecules and production of cytokines. Moreover, this recognition required intact endocytic pathways. Mice deficient in either the TLR7 or the TLR adaptor protein MyD88 demonstrated reduced responses to in vivo infection with vesicular stomatitis virus. These results demonstrate microbial ligand recognition by TLR7 and provide insights into the pathways used by the innate immune cells in the recognition of viral pathogens.
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              Targeted disruption of the MyD88 gene results in loss of IL-1- and IL-18-mediated function.

              Osamu Adachi, Taro Kawai, Kiyoshi Takeda (1998)
              MyD88, originally isolated as a myeloid differentiation primary response gene, is shown to act as an adaptor in interleukin-1 (IL-1) signaling by interacting with both the IL-1 receptor complex and IL-1 receptor-associated kinase (IRAK). Mice generated by gene targeting to lack MyD88 have defects in T cell proliferation as well as induction of acute phase proteins and cytokines in response to IL-1. Increases in interferon-gamma production and natural killer cell activity in response to IL-18 are abrogated. In vivo Th1 response is also impaired. Furthermore, IL-18-induced activation of NF-kappaB and c-Jun N-terminal kinase (JNK) is blocked in MyD88-/- Th1-developing cells. Taken together, these results demonstrate that MyD88 is a critical component in the signaling cascade that is mediated by IL-1 receptor as well as IL-18 receptor.
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                Author and article information

                Contributors
                : Role: Editor
                Journal
                Journal ID (nlm-ta): PLoS Pathog
                Journal ID (publisher-id): ppat
                Journal ID (publisher-id): plpa
                Journal ID (pmc): plospath
                Title: PLoS Pathogens
                Publisher: Public Library of Science (San Francisco, USA )
                ISSN (Print): 1553-7366
                ISSN (Electronic): 1553-7374
                Publication date (Print): February 2008
                Publication date (Electronic): 8 February 2008
                Volume: 4
                Issue: 2
                Electronic Location Identifier: e21
                Affiliations
                [1 ] Centre d'Immunologie de Marseille-Luminy, Aix Marseille Université, Faculté de Sciences de Luminy, Marseille, France
                [2 ] INSERM, U631, Marseille, France
                [3 ] CNRS, UMR6102, Marseille, France
                [4 ] Instituto de Investigaciones Biotecnológicas, IIB-INTECH Universidad Nacional de San Martin, San Martin, Buenos Aires, Argentina
                [5 ] Consejo Nacional de Investigaciones Cientificas y Tecnologicas CONICET-INTI-Ed. 24-, San Martin, Buenos Aires, Argentina
                Duke University Medical Center, United States of America
                Author notes
                * To whom correspondence should be addressed. E-mail: pierre@ 123456ciml.univ-mrs.fr (PP); gorvel@ 123456ciml.univ-mrs.fr (JPG)
                Article
                Publisher ID: 07-PLPA-RA-0538R2 Serial Item and Contribution ID: plpa-04-02-10
                DOI: 10.1371/journal.ppat.0040021
                PMC ID: 2233671
                PubMed ID: 18266466
                SO-VID: a426ff1e-2687-4883-813a-570d978bd72d
                Copyright © Copyright: © 2008 Salcedo et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
                History
                Date received : 10 August 2007
                Date accepted : 20 December 2007
                Page count
                Pages: 16
                Categories
                Subject: Research Article
                Subject: Infectious Diseases
                Subject: Microbiology
                Subject: Eubacteria
                Subject: Mus (Mouse)
                Custom metadata
                citation Salcedo SP, Marchesini MI, Lelouard H, Fugier E, Jolly G, et al. (2008) Brucella control of dendritic cell maturation is dependent on the TIR-containing protein Btp1. PLoS Pathog 4(2): e21. doi: 10.1371/journal.ppat.0040021

                ScienceOpen disciplines: Infectious disease & Microbiology
                Data availability:
                ScienceOpen disciplines: Infectious disease & Microbiology

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