In contrast to a detailed understanding of antiviral cellular immune responses, the impact of neutralizing antibodies for the resolution of acute hepatitis C is poorly defined. The analysis of neutralizing responses has been hampered by the fact that patient cohorts as well as hepatitis C virus (HCV) strains are usually heterogeneous, and that clinical data from acute-phase and long-term follow-up after infection are not readily available. Using an infectious retroviral HCV pseudoparticle model system, we studied a cohort of women accidentally exposed to the same HCV strain of known sequence. In this single-source outbreak of hepatitis C, viral clearance was associated with a rapid induction of neutralizing antibodies in the early phase of infection. Neutralizing antibodies decreased or disappeared after recovery from HCV infection. In contrast, chronic HCV infection was characterized by absent or low-titer neutralizing antibodies in the early phase of infection and the persistence of infection despite the induction of cross-neutralizing antibodies in the late phase of infection. These data suggest that rapid induction of neutralizing antibodies during the early phase of infection may contribute to control of HCV infection. This finding may have important implications for understanding the pathogenesis of HCV infection and for the development of novel preventive and therapeutic antiviral strategies.vaccines ͉ pathogenesis ͉ host reponses
We have previously shown that Toll-like receptor (TLR)-activated murine nonparenchymal liver cells [(NPC); Kupffer cells (KC), liver sinusoidal endothelial cells (LSEC)]T he hepatitis B virus (HBV) is a hepatotropic DNA virus that can lead to chronic hepatitis, which can be complicated by the development of liver cirrhosis and hepatocellular carcinoma. Current approved therapeutic strategies for treatment HBV include interferon-alpha (IFN-␣) and nucleoside and nucleotide analogs. 1,2 However, only a minority of patients that are treated with these agents show a long-term sustained response with "eradication" [for example, hepatitis B surface antigen (HBsAg) loss] of the virus.
We are researchers who have published analyses of nucleic acid sequence variation of hepatitis C virus (HCV) and associated virological and clinical significance. We are concerned that our investigations are hampered by the lack of a consensus nomenclature for variants of HCV and that this leads to confusion when results from different laboratories are compared. Furthermore, because there are no consistently applied criteria by which new genotypes are defined, investigators assign new type descriptions to novel sequence variants on an ad hoc basis without agreement from
Hepatitis B virus (HBV) infection isCurrently, only interferon (IFN)-␣ and nucleoside or nucleotide analogues have been shown to be effective in suppressing HBV replication and in inducing clinical remission of liver disease. 2 However, increasing evidence suggests that immune mediators such as Toll-like receptor (TLR) ligands could be used successfully as therapeutic agents in HBV 3 or other viral infections. [4][5][6] TLRs play a crucial role in early host defense by recognizing so-called pathogen-associated molecular patterns that are essential for the survival of the microorganism but are not present in eukaryotes. 7 To date, 13 mammalian TLRs have been identified (10 in humans and 13 in mice), each containing a unique extracellular domain and a conserved cytoplasmic Toll/interleukin (IL)-1 receptor domain. 8 After ligand binding, the cytoplasmic Toll/IL-1 receptor domain of TLRs associates with intracellular adapters and activates downstream signaling molecules, including the transcription factors nuclear factor B, interferon regulatory factor-1, interferon regulatory factor-7, and mitogen-activated protein kinases, which lead to the activation of type I IFNs, proinflammatory cytokines, or costimulatory molecules. 9 Five adapter proteins
Virus-specific CD8؉ T cell responses play an important role in the natural course of infection; however, the impact of certain CD8؉ T cell responses in determining clinical outcome has not been fully defined. A well-defined cohort of women inoculated with HCV from a single source showed that HLA-B27 has a strong association with spontaneous clearance. The immunological basis for this association is unknown. However, the finding is especially significant because HLA-B27 has also been shown to have a protective role in HIV infection. We report the identification of an HLA-B27 restricted hepatitis C virus (HCV)-specific CD8؉ T cell epitope that is recognized in the majority of recovered HLA-B27 positive women. In chronically HCV-infected individuals, analysis of the corresponding viral sequence showed a strong association between sequence variations within this epitope and expression of HLA-B27, indicating allele-specific selection pressure at the population level. T he hepatitis C virus (HCV) is a small positivestranded RNA virus within the Flaviviridae family that persists in 70% of infected individuals. Growing evidence suggests that the cellular host immune response against HCV plays an important role in the outcome of infection. Indeed, viral clearance is temporarily associated with sustained HCV-specific CD4ϩ and CD8ϩ T cell responses that accumulate in the infected liver. [1][2][3] In addition, the important antiviral role of virusspecific CD8ϩ T cells has recently been directly demonstrated by CD8ϩ cell depletion studies in chimpanzees. 4 The mechanisms that lead to the failure of the virus-specific T cell response and the persistence of HCV in most patients are still not well understood. 5 Several different pathways, such as a primary failure to induce T cells, functional exhaustion, or the emergence of viral escape mutations, have been discussed. [5][6][7] Indeed, a growing body of evidence suggests that T cell escape mutations develop early during acute HCV infection and that they remain fixed in the circulating quasispecies for several years. [8][9][10][11][12][13][14][15][16][17] However, the development of escape mutations during HCV infection is not universal. For example, viral clearance can occur with minimal epitope variation before From the
Summary
Little is known of how the Toll‐like receptor (TLR) system can modulate the function of non‐parenchymal liver cells (NPC) as a major component of the innate and adaptive immune system of the liver. To investigate the diversification of TLR signalling pathways in NPC, we isolated Kupffer cells (KC) and liver sinusoidal endothelial cells (LSEC) from wild‐type C57BL/6 mice and examined their responses to TLR1 to TLR9 agonists. The data show that KC respond to all TLR ligands by producing tumour necrosis factor‐α (TNF‐α) or interleukin‐6 (IL‐6), to TLR3 and TLR4 ligands only by producing interferon‐β (IFN‐β), to TLR1 and TLR8 ligands by significantly up‐regulating major histocompatibility complex (MHC) class II and costimulatory molecules, and to TLR1, ‐2, ‐4 and ‐6 ligands by inducing high levels of T‐cell proliferation and IFN‐γ production in the mixed lymphocyte reaction (MLR). Similarly, LSEC respond to TLR1 to ‐4, ‐6, ‐8 and ‐9 ligands by producing TNF‐α, to TLR3 and ‐4 ligands by producing IL‐6, and to TLR3 ligands by producing IFN‐β. Interestingly, despite significant up‐regulation of MHC class II and co‐stimulatory molecules in response to TLR8 ligands, LSEC stimulated by TLR1, ‐2 or ‐6 could stimulate allogeneic T cells as assessed by MLR. By contrast, myeloid dendritic cells, used as positive control for classical antigen‐presenting cells, respond to TLR1, ‐2, ‐4 and ‐9 ligands by both up‐regulation of CD40 and activation of allogeneic T cells. In conclusion, NPC display a restricted TLR‐mediated activation profile when compared with ‘classical’ antigen‐presenting cells which may, at least in part, explain their tolerogenic function in the liver.
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