Virus-specific effector CD4+ T-cell responses in hemodialysis patients with hepatitis C virus infection

Patients with chronic renal failure undergoing hemodialysis who are infected with hepatitis C virus (HCV) may test consistently anti-HCV negative. Because CD4(+) T-cells provide help for antibody production virus-specific effector CD4(+) T-cell responses were investigated in relation to anti-HCV positivity in 15 hemodialysis patients grouped according to HCV antibody and viremia. CD4(+) T-cell reactivity was studied in peripheral blood mononuclear cells by standard lymphocyte proliferation assay and phenotypic/functional characterization (cell-surface staining/cytokine secretion) by flow cytometry. HCV-specific CD4(+) T-cell proliferation in viremic hemodialysis patients was weak or absent independently of their anti-HCV status. Virus-specific CD4(+) T-cells displayed a memory phenotype and showed low to undetectable capacity to secrete effector interferon (IFN)-gamma. Impaired activation-induced cytokine secretion appeared to be Th1 (IFN-gamma) but not Th2 (interleukin-4)-directed and was virus-specific as cytomegalovirus responses were preserved. The frequency ex vivo of CD3(+)CD4(+)IFN-gamma(+) T-cells was independent of the HCV antibody status and comparable between viremic (range: 0.08-1.54%) or non-viremic (0.11-3.2%) hemodialysis patients and healthy donors (0.13-1.10%; P = 0.58). The numbers of CD3(+)CD4(+)IFN-gamma(+) T-cells augmented slightly (P = 0.047) in HCV-infected hemodialysis patients but markedly in only one (greater than ninefold) after HCV stimulation. In conclusion, hemodialysis patients show limited HCV-specific effector CD4(+) Th1-cell responses which nonetheless seem unrelated to the anti-HCV status and are not more impaired due to the ongoing hemodialysis.     

CD8+ T-cell response against hepatitis C virus

CD8+ T-cell response is thought to be important for the control of hepatitis C virus (HCV) as well as for the liver cell injury caused by HCV infection. Studies on antigen-specific CD8+ T cells had long been hampered by lack of suitable techniques. Recently developed single-cell based assays, including peptide major histocompatibility complex (MHC) tetramer staining and intracellular cytokine staining, have greatly enhanced the opportunities for directly studying HCV-specific CD8+ T cells. Thanks to these novel assays the quantitative and qualitative nature of HCV-specific CD8+ T cells, including their number, phenotype, and effector functions, are starting to be revealed. However, much important information remains missing, including the signals for differentiation and migration of HCV-specific CD8+ T cells and the precise functions of antigen-specific effector cells in the virus-infected liver. The urgent need for effective immunotherapy and vaccines can not be met without a better understanding of the CD8+ T-cell response in HCV infection, which calls for a comprehensive strategy to study such cells directly using sensitive and quantitative assays.     

Evidence for lack of cross-genotype protection of CD4+ T cell responses during chronic hepatitis C virus infection

CD4+ T lymphocyte responses are thought to play a major role in control of the hepatitis C virus (HCV). Few, however, have been mapped down to the level of peptide and HLA restriction. Furthermore, the ability of such T cells to respond to viruses which differ in genotype has not been addressed in detail. In most cases of persistent infection with HCV, CD4 proliferative responses are weak or absent. From a large cohort of persistently infected patients, we identified an individual with unusually robust and persistent responses in the face of chronic infection. We firstly mapped two peptide epitopes to regions of the nonstructural protein NS4 (aa1686-1705 and aa 1746-1765). However, in contrast to the genotype 1a derived antigens used for mapping, the infecting virus was identified as genotype 3a. Strikingly, the patient's CD4 response to these epitopes were specific only for the genotype 1a sequence, and did not recognize genotype 3a synthetic peptides. Serologic assays indicated that prior exposure to HCV of genotype 1 had occurred. This patient therefore maintains strong CD4 proliferative responses which are genotype specific and not cross-reactive. The apparent 'misdirection' of these nonprotective responses has important implications for the role of natural and vaccine induced CD4 responses in the face of variable viruses.     

Pegylated interferon and ribavirin therapy for chronic hepatitis C virus genotype 4 infection

Hepatitis C Virus (HCV) is classified into six genotypes. Genotype 4 is now spreading in Europe, especially among drug users, who are often infected with both HCV and the human immunodeficiency virus (HIV). Previous studies have shown that HCV-4 responds poorly to interferon. Pegylated interferon (peg-IFN) associated with ribavirin is now the most effective treatment for eradicating the virus. We have now studied the response of HCV-4 to peg-IFN and ribavirin and investigated the influence of HIV infection on anti-HCV therapy. Twenty-eight patients infected with HCV-4 were given peg-IFN plus ribavirin for 48 weeks. Patients infected with HCV alone tended to have a better initial response (66%) than patients infected with both HCV and HIV (30%, P = 0.06) and eradication was better (50%) than in doubly infected patients (15%, P = 0.06). After controlling for major factors influencing virus response, the virus response 12 weeks after the beginning of treatment in patients infected with HCV-4 (50%) was similar to that of patients infected with genotype 1 (53%) and lower than that of patients infected with genotypes 2 or 3 (82%, P < 0.05). The response 24 weeks after the end of therapy in patients infected with HCV-4 (32%) was similar to that of patients infected with HCV-1 (28%) and lower than that of patients with HCV-2 or HCV-3 (62% P < 0.05). These results indicate that HCV-4 patients should be considered to be difficult-to-treat.     

Quantitative studies of CD8+ T-cell responses during microbial infection

MHC class I tetramer staining, intracellular cytokine staining and ELISPOT assays have made it possible to quantify CD8(+) T-cell responses precisely during and following viral and bacterial infection. Although these quantitative methods are by now familiar and trusted components of the immunologist's toolbox, their application to models of microbial infection continues to provide surprising insights into mammalian adaptive immunity. In the past year there have been many exciting new findings on CD8(+) T-cell priming, expansion and memory formation in response to microbial infection.     

CD8+ T lymphocyte responses are induced during acute hepatitis C virus infection but are not sustained

Cellular immune responses are likely to play a key role in determining the clinical outcome in acute infection with hepatitis C virus (HCV), but the dynamics of such responses and their relationship to viral clearance are poorly understood. In a previous study we have shown highly activated, multispecific cytotoxic T lymphocyte responses arising early and persisting in an individual who subsequently cleared the virus. In this study the HCV-specific CD8+ lymphocytes response has been similarly analyzed, using peptide-HLA class I tetramers, in a further nine individuals with documented acute HCV infection, six of whom failed to clear the virus. Significant populations of virus-specific CD8+ lymphocytes were detected at the peak of acute hepatic illness (maximally 3.5% of CD8+ lymphocytes). Frequencies were commonly lower than those seen previously and were generally not sustained. Early HCV-specific CD8+ lymphocytes showed an activated phenotype in all patients (CD38+ and HLA class II+), but this activation was short-lived. Failure to sustain sufficient numbers of activated virus-specific CD8+ lymphocytes may contribute to persistence of HCV.     

Therapy with interferon-alpha and ribavirin for chronic hepatitis C virus infection upregulates membrane HLA-ABC, CD86, and CD28 on peripheral blood mononuclear cells

Multiple interferon-stimulated genes (ISGs) involving T-cell activation are upregulated during initial interferon-alpha-based therapy for chronic hepatitis C virus (HCV) infection. However, the long-term impact on therapeutic outcome in patients remains unknown. In this study, the effects of anti-HCV therapy on the surface expression of HLA-ABC, CD86, and CD28 were longitudinally assessed. These proteins are integral membrane receptors of antigen presentation and triggering of costimulatory signals for activating CD8+ T cells. Peripheral blood mononuclear cells were collected at baseline and post-treatment for 1 day, and 2, 4, 12, and 24 weeks, respectively. This treatment led to a time-related elevation of membrane levels of HLA-ABC and CD86 on B-cells and monocytes in patients with a sustained response (n = 23), but not in those without (n = 8). Meanwhile, upregulation of CD28 on CD4+ and CD8+ T cells was comparable in both groups of sustained responders and non-responders. Steady increases in the B cells' surface and intracellular HLA-ABC were observed, thus, the surface-to-intracellular ratios did not alter over the period of treatment. Furthermore, multivariate analysis shows that increased HLA-ABC on monocytes by week 12 correlates significantly with sustained response (P = 0.033). In conclusion, differential modulation of T-cell activation ISGs, such as HLA-ABC and CD86 might correlate with the outcome of interferon-alpha-based therapy in chronic hepatitis C patients.     

Immune responses during acute and chronic infection with hepatitis C virus

Hepatitis C virus (HCV) induces persistent infection and causes chronic liver disease in most infected patients. Vigorous HCV-specific CD4+ and CD8+ T cell responses against HCV multiple epitopes are necessary for spontaneous viral clearance during the acute phase, but the virus appears to have multiple strategies to evade these defenses. There are relatively few studies on the role of immune responses during the chronic phase of infection. CD4+ T cell responses appear to protect against liver injury and may be important to clearance during interferon and ribavirin based therapy. Classic cytotoxic T cells (CTL) may primarily damage the liver in chronic HCV, but there may be subpopulations of T cells that protect against liver inflammation. Resolution of these outstanding questions is important to the development of a prophylactic vaccine as well as improving therapeutic options for those with chronic infection.     

Dendritic cell function during chronic hepatitis C virus and human immunodeficiency virus type 1 infection

Hepatitis C virus (HCV) infection can persist despite HCV-specific T-cell immunity and can have a more aggressive course in persons coinfected with human immunodeficiency virus type 1 (HIV-1). Defects in antigen-presenting, myeloid dendritic cells (DCs) could underlie this T-cell dysfunction. Here we show that monocyte-derived DCs from persons with chronic HCV infection, with or without HIV-1 coinfection, being treated with combination antiretroviral therapy produced lower levels of interleukin 12 (IL-12) p70 in response to CD40 ligand (CD40L), whereas the expression of DC surface activation and costimulatory molecules was unimpaired. The deficiency in IL-12 production could be overcome by addition of gamma interferon (IFN-gamma) with CD40L, resulting in very high, comparable levels of IL-12 production by DCs from HCV- and HIV-1-infected subjects. Smaller amounts of IL-12 p70 were produced by DCs treated with the immune modulators tumor necrosis factor alpha and IL-1beta, with or without IFN-gamma, and the amounts did not differ among the uninfected and infected subjects. Blocking of IL-10 with an anti-IL-10 monoclonal antibody in the CD40L-stimulated DC cultures from HCV-infected persons increased the level of IL-12 p70 production. The ability of DCs from HCV-infected persons to stimulate allogeneic CD4+ T cells or induce IL-2, IL-5, or IL-10 in a mixed lymphocyte reaction was not impaired. Thus, myeloid DCs derived from persons with chronic HCV infection or with both HCV and HIV-1 infections have defects in IL-12 p70 production related to IL-10 activity that can be overcome by treatment of the DCs with CD40L and IFN-gamma. DCs from these infected subjects have a normal capacity to stimulate CD4+ T cells. The functional effectiveness of DCs derived from HCV-infected individuals provides a rationale for the DC-based immunotherapy of chronic HCV infection.     

Impaired activation and costimulation of T CD4+ lymphocytes during chronic hepatitis C infection

Hepatitis C chronic infection occurs in 80% of the cases and eventually leads to cirrhosis and hepatocellular carcinoma. A deficient adaptive immune response has been described during chronic infection which contributes to viral persistence. This altered T cell response could be associated to deficient costimulation signals during priming of T cells. We have conducted an in vitro study to explore the activation phenomenon of CD4+ T cells focusing on costimulation via the CD28 receptor, associated to stimulation with purified Hepatitis C (HCV) core antigen. Our study involved the induction of CD69, CD25 and CD40L activation receptors, along with detection of intracellular cytokines such as IFN-gamma, TGF-beta and IL-10. Analysis was performed in chronically HCV infected patients, intrafamilial members of HCV-infected patients and healthy individuals. HCV core antigen induced CD40L expression in CD4+ cells from intrafamilial members, in contrast to chronically infected patients and control individuals. Association of CD28 crosslinking increased CD69 and IFN-gamma expression in chronically infected patients, suggesting a detriment in this signaling pathway. Additionally, an increased TGF-beta expression was observed in CD4+ cells from HCV-infected patients, which was corrected by addition of CD28 crosslinking. Our results may contribute to understand the underlying mechanism of T cell tolerance against HCV during chronic infection, and to provide new targets for the designing of therapeutic strategies to control the infection and to offer protective immunity against the virus.     

Naturally occurring CD4+ T-cell epitope variants act as altered peptide ligands leading to impaired helper T-cell responses in hepatitis C virus infection

Hepatitis C virus (HCV) has a high rate of replication and lacks RNA-proofreading capabilities, thereby leading to variant or mutant viruses circulating within the host as a quasispecies. Previous work in our laboratory identified viral variants that emerged in a class-II immunodominant epitope NS3(358-375) of the non-structural-3 (NS3) protein region of HCV, the sequence of which is based on genotype 1A, the most prevalent genotype in the United States. Further work suggested that positive immune selection pressure was driving viral variation. Paradoxically, viral variants account for only a small percentage of the circulating virus in human beings and in chimpanzees, suggesting that passive evasion is not the only means of escape by HCV. This observation suggests a unique pathogenesis for HCV as it persists in the host. In the current study, we hypothesize that viral variants are acting as altered peptide ligands (APLs). To test this hypothesis, we used cloned T cells specific for NS3(358-375) peptide, which demonstrated attenuated T-cell and interferon-γ (IFN-γ) responses to individual variant peptides, when compared with the NS3(358-375) stimulated T-cell clones. Furthermore, such variants could act as APLs, based on their ability to antagonize the IFN-γ proliferative responses of clones specific for NS3(358-375). In addition, major histocompatibility complex (MHC) class II tetramer staining demonstrated that variant peptide-MHC complexes were able to specifically bind to NS3(358-375) T-cell clones and that both the variant and NS3(358-375) tetramers were able to bind to the same CD4(+) T cells. Taken together, the results suggest that viral variants may act as APL to effectively blunt the T-cell response to an important HCV epitope.     

Influence of HCV genotype and co-infection with human immunodeficiency virus on CD4(+) and CD8(+) T-cell responses to hepatitis C virus

The role of T-cells in clearance of hepatitis C virus (HCV) during acute infection is critical. The relevance of the immunological response in the control of HCV replication is less clear in chronic HCV infection. HCV-specific T-cell responses were examined in 92 interferon-naive individuals with chronic hepatitis C. A panel of 441 overlapping peptides spanning all expressed HCV proteins was used to measure HCV-specific T-cell responses, using flow cytometry after stimulating peripheral blood mononuclear cells (PBMCs) with different pools of these peptides. Most patients showed responses to at least one HCV protein, with NS5B for CD8(+) responses and E2 for CD4(+) responses identified most frequently. Both the prevalence and breadth of CD4(+) and CD8(+) responses were lower in co-infected patients, independently of the HCV genotype.     

Modifications of T-lymphocyte subsets before and during interferon and ribavirin treatment for chronic hepatitis C infection

Our purpose was to determine in HCV-infected patients whether T-lymphocyte sub-populations were modified before and during interferon-alpha and ribavirin treatment, and whether this correlated with virological response. Twenty-two naive patients were given IFN-alpha 3 Million Units three times per week for 24 or 48 weeks and ribavirin. Sustained virological response corresponded to undetectable serum HCV RNA at treatment completion and 6 months later. Total blood lymphocyte counts and CD3(+)CD4(+), CD3(+)CD8(+), CD3(+)CD4(+)HLA-DR(+), and CD3(+)CD8(+)HLA-DR(+) lymphocyte subsets evaluated before, during, and after treatment were compared to values from 37 healthy subjects. At inclusion, patients and controls had similar total lymphocyte counts. CD3(+)CD4(+) counts and percentages were significantly higher in HCV patients. HLA-DR expression was also increased in CD4(+) (p < 0.0001) and CD8(+) T-cells (p = 0.0008) as compared with controls. During treatment, all lymphocyte subset counts and percentage decreased except the CD3(+)CD4(+) T-cell percentage which increased. Moreover, after 1 month of treatment, virological responders exhibited higher CD4(+) counts than nonresponders (p = 0.025), whereas they did not differ at inclusion or during the 2nd to 6th months of treatment. After treatment completion, all populations returned to baseline values. These results suggest that CD3(+)CD4(+) T-lymphocyte percentage increase under treatment could be related to IFN immunomodulation and associated with virological response.     

CD8+ T-cells suppress antigen-specific and allogeneic CD4+ T-cell responses to herpes simplex virus type 2-infected human dendritic cells

In this study we show that human dendritic cells (DC), productively infected with herpes simplex virus type 2 (HSV-2), activate CD8+ T cells that suppress antigen-specific and alloreactive CD4+ T cell expansion. Addition of CD8+ T cells to cultures of DC and CD4+ T cells blocked CD4+ T-cell proliferation in response to HSV-2-infected but not to uninfected DC. The effect was independent of prior HSV exposure or cognate MHC class I-restricted CD8-DC recognition as it was induced in CD8+ T cells from HSV-2-seronegative individuals and in mixed lymphocyte reactions using allogeneic DC. Both CD8+ CD25+ and CD8+ CD25- cells were shown to have suppressive capacities. The blood-derived CD25+ CD8+ T cells did not express Foxp3 mRNA but had a bona fide antiproliferative capacity in response to both uninfected and HSV-2-infected DC, whereas the CD25-CD8+ T cells were selectively activated to become antiproliferative by HSV-2-infected DC. These data imply that HSV infection of DC could modulate the immune response by activating CD8+ T cells.     

Towards a cellular definition of CD8+ T-cell memory: the role of CD4+ T-cell help in CD8+ T-cell responses

Whereas the definition of B-cell memory is based on well-known cellular properties and differentiation steps, the process of T-cell memory generation was, until recently, less well understood. A series of recent reports, however, have drastically modified our notion of CD8(+) memory T cells. They show that, in addition to division, the generation of efficient memory cells requires a previously unknown differentiation process. As a whole, the generation of CD8(+) memory T cells appears to mimic the generation of memory B cells. Both processes depend on the help of CD4(+) T cells, they are irreversible, they have the same mechanism, and they occur progressively during the late expansion phase of the primary immune response.     

CD4+ T-cell inhibitory ligands: a tool for characterizing dysfunctional CD4+ T cells during chronic infection

T helper type 17 (Th17) lymphocytes are found in high frequency in tumour‐burdened animals and cancer patients. These lymphocytes, characterized by the production of interleukin‐17 and other pro‐inflammatory cytokines, have a well‐defined role in the development of inflammatory and autoimmune pathologies; however, their function in tumour immunity is less clear. We explored possible opposing anti‐tumour and tumour‐promoting functions of Th17 cells by evaluating tumour growth and the ability to promote tumour infiltration of myeloid‐derived suppressor cells (MDSC), regulatory T cells and CD4⁺ interferon‐γ⁺ cells in a retinoic acid‐like orphan receptor γt (RORγt) ‐deficient mouse model. A reduced percentage of Th17 cells in the tumour microenvironment in RORγt‐deficient mice led to enhanced tumour growth, that could be reverted by adoptive transfer of Th17 cells. Differences in tumour growth were not associated with changes in the accumulation or suppressive function of MDSC and regulatory T cells but were related to a decrease in the proportion of CD4⁺ T cells in the tumour. Our results suggest that Th17 cells do not affect the recruitment of immunosuppressive populations but favour the recruitment of effector Th1 cells to the tumour, thereby promoting anti‐tumour responses.