Gary R. Klimpel scite author profile

Apoptosis is implicated in the generation and resolution of inflammation in response to bacterial pathogens. All bacterial pathogens produce lipoproteins (BLPs), which trigger the innate immune response. BLPs were found to induce apoptosis in THP-1 monocytic cells through human Toll-like receptor-2 (hTLR2). BLPs also initiated apoptosis in an epithelial cell line transfected with hTLR2. In addition, BLPs stimulated nuclear factor-kappaB, a transcriptional activator of multiple host defense genes, and activated the respiratory burst through hTLR2. Thus, hTLR2 is a molecular link between microbial products, apoptosis, and host defense mechanisms.

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Binding of the Hepatitis C Virus Envelope Protein E2 to CD81 Inhibits Natural Killer Cell Functions

Tseng

Klimpel

2001

409

302

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Infection with hepatitis C virus (HCV) is a leading cause of chronic liver disease worldwide. Little is known about how this virus is able to persist or whether this persistence might be because of its ability to alter the early innate immune response. The major HCV envelope protein E2 has been shown to bind to CD81. Thus, HCV binding to natural killer (NK) cells could result in the cross-linking of CD81. To explore this possibility, we investigated whether cross-linking CD81 on NK cells could alter NK cell function. CD81 cross-linking by monoclonal antibody (mAb) specific for CD81 or by immobilized E2 have been shown to result in costimulatory signals for human T cells. In this study, we show that CD81 cross-linking via immobilized E2 or mAbs specific for CD81 inhibits not only non major histocompatibility complex–restricted cytotoxicity mediated by NK cells but also interferon (IFN)-γ production by NK cells after exposure to interleukin (IL)-2, IL-12, IL-15, or CD16 cross-linking. These results show that CD81 cross-linking mediates completely different signals in NK cells versus T cells. Importantly, these results suggest that one mechanism whereby HCV can alter host defenses and innate immunity is via the early inhibition of IFN-γ production by NK cells.

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Stimulated Innate Resistance of Lung Epithelium Protects Mice Broadly against Bacteria and Fungi

Evans

Scott²,

Clement³

et al. 2010

Am J Respir Cell Mol Biol

104

158

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Pneumonia is a serious problem worldwide. We recently demonstrated that innate defense mechanisms of the lung are highly inducible against pneumococcal pneumonia. To determine the breadth of protection conferred by stimulation of lung mucosal innate immunity, and to identify cells and signaling pathways activated by this treatment, mice were treated with an aerosolized bacterial lysate, then challenged with lethal doses of bacterial and fungal pathogens. Mice were highly protected against a broad array of Gram-positive, Gram-negative, and class A bioterror bacterial pathogens, and the fungal pathogen, Aspergillus fumigatus. Protection was associated with rapid pathogen killing within the lungs, and this effect was recapitulated in vitro using a respiratory epithelial cell line. Gene expression analysis of lung tissue showed marked activation of NF-kB, type I and II IFN, and antifungal Card9-Bcl10-Malt1 pathways. Cytokines were the most strongly induced genes, but the inflammatory cytokines TNF and IL-6 were not required for protection. Lung-expressed antimicrobial peptides were also highly up-regulated. Taken together, stimulated innate resistance appears to occur through the activation of multiple host defense signaling pathways in lung epithelial cells, inducing rapid pathogen killing, and conferring broad protection against virulent bacterial and fungal pathogens. Augmentation of innate antimicrobial defenses of the lungs might have therapeutic value for protection of patients with neutropenia or impaired adaptive immunity against opportunistic pneumonia, and for defense of immunocompetent subjects against a bioterror threat or epidemic respiratory infection.

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Protective Immune Response to Hepatitis C Virus in Chimpanzees Rechallenged Following Clearance of Primary Infection

et al. 2001

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Hepatitis C virus (HCV) infections were evaluated in chimpanzees that had previously cleared HCV and were rechallenged. Animals that had previously cleared HCV infection rapidly cleared homologous and heterologous virus upon rechallenge, indicative of a strong protective immunity. In one animal, sterilizing immunity was observed with regard to viremia, although viral RNA was transiently detected in the liver. Accelerated viral clearance following rechallenge with HCV was observed in animals that had not been exposed to HCV for over 16 Hepatitis C virus (HCV) infections represent a serious health problem. The majority of HCV infections develop into chronic infections that may progress to cirrhosis and hepatocellular carcinoma. 1 HCV is classified in the Hepacivirus genus of the Flaviviridae family. 2 The HCV genome is approximately 9.6 kb and consists of single-stranded RNA of positive polarity. The viral RNA has a single large open reading frame that encodes for a polyprotein of approximately 3,000 amino acids. 3 The structural proteins are located at the amino terminal end of the polyprotein and include the capsid protein and 2 envelope glycoproteins, E1 and E2. The nonstructural proteins are preceded by a p7 domain of unknown function and include NS2-NS5. The NS2 domain forms an autoprotease with the amino-terminal portion of NS3. The amino terminus of NS3 encodes a serine protease and the carboxy terminus encodes a helicase, which plays a role in viral RNA replication. NS4A is a cofactor for the serine protease. The viral RNAdependent RNA polymerase is encoded by NS5B. 4 The functions of NS4B and NS5A are unknown.The chimpanzee is the only animal model for studying HCV infection. Humans and chimpanzees with persistent HCV infections mount an antibody response to most HCV proteins. 5 HCV-specific antibody does not appear to protect humans and chimpanzees from infection and is actually associated with active viremia rather than viral clearance. The kinetics of antibody production to HCV proteins and the pattern of antibodies to individual proteins do not appear to predict disease outcome (clearance versus persistence).The humoral immune response to the nonstructural HCV proteins appears to be similar in humans and chimpanzees. 5 In contrast, antibody responses to HCV structural proteins are observed less frequently in chimpanzees than in humans for reasons not understood. [5][6][7][8][9][10][11] Studies in chimpanzees have revealed that antibody neutralization of HCV is not easily attained. 12,13 Recently, Cooper et al. observed that strong antibody responses to HCV proteins were not necessary for viral clearance in HCV-inoculated chimpanzees. 14 Several investigators have also observed that circulating HCV-specific antibodies do not prevent reinfection of chimpanzees with HCV. [15][16][17][18] Therefore, T cells may play a more critical role than antibodies in the resolution of HCV infection.HCV antigen-specific CD8 ϩ T cells have been observed in the peripheral blood and liver of humans and chimpanzees durin...

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Critical role for serum opsonins and complement receptors CR3 (CD11b/CD18) and CR4 (CD11c/CD18) in phagocytosis of Francisella tularensis by human dendritic cells (DC): uptake of Francisella leads to activation of immature DC and intracellular survival of the bacteria

et al. 2006

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Francisella tularensis is one of the most infectious human pathogens known. Although much has been learned about the immune response of mice using an attenuated live vaccine strain (LVS) derived from F. tularensis subspecies holarctica (Type B), little is known about the responses of human monocyte-derived immature dendritic cells (DC). Here, we show that optimal phagocytosis of LVS by DC is dependent on serum opsonization. We demonstrate that complement factor C3-derived opsonins and the major complement receptors expressed by DC, the integrins CR3 (CD11b/CD18) and CR4 (CD11c/CD18), play a critical role in this adhesion-mediated phagocytosis. LVS induced proinflammatory cytokine production and up-regulation of costimulatory surface proteins (CD40, CD86, and MHC Class II) on DC but resisted killing. Once taken up, LVS grew intracellularly, resulting in DC death. DC maturation and cytokine production were induced by direct contact/phagocytosis of LVS or interaction with soluble products of the bacteria, and enhanced activation was seen when LVS was pretreated with serum. Sonicated LVS and supernatants from LVS cultures were potent activators of DC, but LVS LPS failed to activate DC maturation or cytokine production. Serum-treated LVS rapidly induced (within 6 h) a number of cytokines including IL-10, a potent suppressor of macrophage functions and down-regulator of Th1-like responses and the Th1 response inducer IL-12. These results suggest that the simultaneous production of an activating (IL-12, IL-1beta, and TNF-alpha) and a suppressing (IL-10) cytokine profile could contribute to the immunopathogenesis of tularemia.

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Gary R. Klimpel

Cell Activation and Apoptosis by Bacterial Lipoproteins Through Toll-like Receptor-2

Binding of the Hepatitis C Virus Envelope Protein E2 to CD81 Inhibits Natural Killer Cell Functions

Stimulated Innate Resistance of Lung Epithelium Protects Mice Broadly against Bacteria and Fungi

Protective Immune Response to Hepatitis C Virus in Chimpanzees Rechallenged Following Clearance of Primary Infection

Critical role for serum opsonins and complement receptors CR3 (CD11b/CD18) and CR4 (CD11c/CD18) in phagocytosis of Francisella tularensis by human dendritic cells (DC): uptake of Francisella leads to activation of immature DC and intracellular survival of the bacteria

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