Methodologies for the Analysis of HCV-Specific CD4(+) T Cells.

Virus-specific CD4(+) T cells play a major role in viral infections, such as hepatitis C virus (HCV). Viral clearance is associated with vigorous and multi-specific CD4(+) T-cell responses, while chronic infection has been shown to be associated with weak or absent T-cell responses. Most of these studies have used functional assays to analyze virus-specific CD4(+) T-cell responses; however, these and other detection methods have various limitations. Therefore, the important question of whether virus-specific CD4(+) T cells are completely absent or primarily impaired in specific effector functions during chronic infection, has yet to be analyzed in detail. A novel assay, in which virus-specific CD4(+) T-cell frequencies can be determined by de novo CD154 (CD40 ligand) expression in response to viral antigens, can help to overcome some of the limitations of functional assays and restrictions of multimer-based methods. This and other current established methods for the detection of HCV-specific CD4(+) T cells will be discussed in this review.

Adaptive immune response during hepatitis C virus infection.

Hepatitis C virus (HCV) infection affects about 170 million people worldwide and it is a major cause of liver cirrhosis and hepatocellular carcinoma. HCV is a hepatotropic non-cytopathic virus able to persist in a great percentage of infected hosts due to its ability to escape from the immune control. Liver damage and disease progression during HCV infection are driven by both viral and host factors. Specifically, adaptive immune response carries out an essential task in controlling non-cytopathic viruses because of its ability to recognize infected cells and to destroy them by cytopathic mechanisms and to eliminate the virus by non-cytolytic machinery. HCV is able to impair this response by several means such as developing escape mutations in neutralizing antibodies and in T cell receptor viral epitope recognition sites and inducing HCV-specific cytotoxic T cell anergy and deletion. To impair HCV-specific T cell reactivity, HCV affects effector T cell regulation by modulating T helper and Treg response and by impairing the balance between positive and negative co-stimulatory molecules and between pro- and anti-apoptotic proteins. In this review, the role of adaptive immune response in controlling HCV infection and the HCV mechanisms to evade this response are reviewed.

HCV-specific CD8+ cell detection at week 12 of chronic hepatitis C treatment with PEG-interferon-α2b/ribavirin correlates with infection resolution.

Lower than 2-log viral-load (VL) decrease at week 12 (w12) of chronic hepatitis C (CHC) treatment with Peg-interferon/ribavirin has 100% negative predictive value (PV) of sustained virologic response (SVR), and this could be related with absence of HCV-specific cytotoxic T lymphocyte (CTL) response. In this study, percentage of cases with SVR, according to peripheral HCV-specific cytotoxic response at w12, was analysed (Group-1: detection(+), Group-2: detection(-)). SVR was higher in group-1 (93%) than in group-2 (47%) (p=0.003). An increase on HCV-specific CTL frequency between baseline and w12 and higher specific reactivity were observed in group-1 (p=0.011 and p=0.025). HCV-specific CTL detection at w12 correlated with level of VL decrease (p=0.016, r=0.389), and among HCV genotype-1 patients with either early or delayed virologic response (EDVR), 100% positive PV of SVR was observed. In summary, HCV-specific CTL detection at w12 of Peg-interferon/ribavirin treatment correlates with SVR and in EDVR genotype-1 cases predicts SVR.

Role of T cell death in maintaining immune tolerance during persistent viral hepatitis.

Virus-specific T cells play an important role in the resolution of hepatic infection. However, during chronic hepatitis infection these cells lack their effector functions and fail to control the virus. Hepatitis B virus and hepatitis C virus have developed several mechanisms to generate immune tolerance. One of these strategies is the depletion of virus-specific T cells by apoptosis. The immunotolerogenic liver has unique property to retain and activate naïve T cell to avoid the over reactivation of immune response against antigens which is exploited by hepatotropic viruses to persist. The deletion of the virus-specific T cells occurs by intrinsic (passive) apoptotic mechanism. The pro-apoptotic molecule Bcl-2 interacting mediator (Bim) has attracted increasing attention as a pivotal involvement in apoptosis, as a regulator of tissue homeostasis and an enhancer for the viral persistence. Here, we reviewed our current knowledge on the evidence showing critical role of Bim in viral-specific T cell death by apoptotic pathways and helps in the immune tolerance.

Bim-mediated apoptosis and PD-1/PD-L1 pathway impair reactivity of PD1(+)/CD127(-) HCV-specific CD8(+) cells targeting the virus in chronic hepatitis C virus infection.

PD-1 molecule promotes anergy and IL-7 receptor (CD127) induces an anti-apoptotic effect on T cells. Correlation between PD-1/CD127 phenotype and hepatitis C virus (HCV)-specific CD8(+) cell reactivity in resolved infection (RI) after treatment and persistent HCV-infection (PI) was analysed. Directly ex vivo, PD-1 and CD127 expression on HCV-specific CD8(+) cells displayed a positive and negative correlation, respectively with viraemia. Proliferation after stimulation on PD-1(-)/CD127(+) cells from RI cases was preserved, while it was impaired on PD-1(+)/CD127(-) cells from PI patients. PD1(+)/CD127(+) population was observed in PI, and these maintained expansion ability but they did not target the virus. Frequency of PI cases with HCV-specific CD8(+) cell proliferation increased after anti-PD-L1 and anti-apoptotic treatment. Bim expression on HCV-specific CD8(+) cells from PI patients was enhanced. In conclusion, during chronic HCV infection non-reactive HCV-specific CD8(+) cells targeting the virus are PD-1(+)/CD127(-)/Bim(+) and, blocking apoptosis and PD-1/PD-L1 pathway on them enhances in vitro reactivity.