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      Immune recognition of Pseudomonas aeruginosa mediated by the IPAF/NLRC4 inflammasome

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          Abstract

          Pseudomonas aeruginosa is a Gram-negative bacterium that causes opportunistic infections in immunocompromised individuals. P. aeruginosa employs a type III secretion system to inject effector molecules into the cytoplasm of the host cell. This interaction with the host cell leads to inflammatory responses that eventually result in cell death. We show that infection of macrophages with P. aeruginosa results in activation of caspase-1 in an IPAF-dependent, but flagellin-independent, manner. Macrophages deficient in IPAF or caspase-1 were markedly resistant to P. aeruginosa–induced cell death and release of the proinflammatory cytokine interleukin (IL)-1β. A subset of P. aeruginosa isolates express the effector molecule exoenzyme U (ExoU), which we demonstrate is capable of inhibiting caspase-1–driven proinflammatory cytokine production. This study shows a key role for IPAF and capase-1 in innate immune responses to the pathogen P. aeruginosa, and also demonstrates that virulent ExoU-expressing strains of P. aeruginosa can circumvent this innate immune response.

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          Cytoplasmic flagellin activates caspase-1 and secretion of interleukin 1beta via Ipaf.

          Edward Miao, Celia Alpuche-Aranda, Monica Dors (2006)
          Macrophages respond to Salmonella typhimurium infection via Ipaf, a NACHT-leucine-rich repeat family member that activates caspase-1 and secretion of interleukin 1beta. However, the specific microbial salmonella-derived agonist responsible for activating Ipaf is unknown. We show here that cytosolic bacterial flagellin activated caspase-1 through Ipaf but was independent of Toll-like receptor 5, a known flagellin sensor. Stimulation of the Ipaf pathway in macrophages after infection required a functional salmonella pathogenicity island 1 type III secretion system but not the flagellar type III secretion system; furthermore, Ipaf activation could be recapitulated by the introduction of purified flagellin directly into the cytoplasm. These observations raise the possibility that the salmonella pathogenicity island 1 type III secretion system cannot completely exclude 'promiscuous' secretion of flagellin and that the host capitalizes on this 'error' by activating a potent host-defense pathway.
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            Critical role for NALP3/CIAS1/Cryopyrin in innate and adaptive immunity through its regulation of caspase-1.

            Fayyaz S. Sutterwala, Yasunori Ogura, Marian Szczepanik (2006)
            Mutations in the NALP3/CIAS1/cryopyrin gene are linked to three autoinflammatory disorders: Muckle-Wells syndrome, familial cold autoinflammatory syndrome, and chronic infantile neurologic cutaneous and articular syndrome. NALP3, with the adaptor molecule ASC, has been proposed to form a caspase-1-activating "inflammasome," a complex with pro-IL1beta-processing activity. Here, we demonstrate the effect of NALP3 deficiency on caspase-1 function. NALP3 was essential for the ATP-driven activation of caspase-1 in lipopolysaccharide-stimulated macrophages and for the efficient secretion of the caspase-1-dependent cytokines IL-1alpha, IL-1beta, and IL-18. IL-1beta has been shown to play a key role in contact hypersensitivity; we show that ASC- and NALP3-deficient mice also demonstrate an impaired contact hypersensitivity response to the hapten trinitrophenylchloride. NALP3, however, was not required for caspase-1 activation by Salmonella typhimurium, and NALP3 deficiency only partially protects mice from the lethal effects of endotoxin. These data suggest that NALP3 plays a specific role in the caspase-1 activation pathway.
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              Nod-like proteins in immunity, inflammation and disease.

              Jörg Fritz, Richard L. Ferrero, Dana J. Philpott (2006)
              The intracellular Nod-like proteins or receptors are a family of sensors of intracellularly encountered microbial motifs and 'danger signals' that have emerged as being critical components of the innate immune responses and of inflammation in mammals. Several Nod-like receptors, including Nod1, Nod2, NALP3, Ipaf and Naip, are strongly associated with host responses to intracellular invasion by bacteria or the intracellular presence of specific bacterial products. An additional key function of Nod-like receptors is in inflammatory conditions, which has been emphasized by the identification of several different mutations in the genes encoding Nod1, Nod2 and NALP3 that are associated with susceptibility to inflammatory disorders. Those and other issues related to the Nod-like receptor family are discussed here.
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                Author and article information

                Journal
                Journal ID (nlm-ta): J Exp Med
                Title: The Journal of Experimental Medicine
                Publisher: The Rockefeller University Press
                ISSN (Print): 0022-1007
                ISSN (Electronic): 1540-9538
                Publication date (Print): 24 December 2007
                Volume: 204
                Issue: 13
                Pages: 3235-3245
                Affiliations
                [1 ]Department of Immunobiology, [2 ]Section of Infectious Diseases, [3 ]Howard Hughes Medical Institute, and [4 ]Section of Microbial Pathogenesis, Yale University School of Medicine, New Haven, CT 06520
                Author notes

                CORRESPONDENCE Richard A. Flavell: richard.flavell@ 123456yale.edu ; OR Barbara I. Kazmierczak: barbara.kazmierczak@ 123456yale.edu

                Article
                Publisher ID: 20071239
                DOI: 10.1084/jem.20071239
                PMC ID: 2150987
                PubMed ID: 18070936
                SO-VID: 30f5fb7e-2ee0-403f-8f51-56267f75e474
                Copyright © Copyright © 2007, The Rockefeller University Press
                History
                Date received : 18 June 2007
                Date accepted : 7 November 2007
                Categories
                Subject: Articles
                Subject: Article

                ScienceOpen disciplines: Medicine
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                ScienceOpen disciplines: Medicine

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