Autologous Dendritic Cell Vaccine for Treatment of Patients With Chronic HCV-Infection

Overview

Clearance of HCV infection requires early and multi-specific HLA class I restricted CD8+ T cell and class II restricted CD4+ T cell responses to both structural (Core) and non-structural HCV proteins (NS3, NS4A, NS5A, NS5B). Dendritic cells (DCs) are professional antigen-presenting cells that link innate and adaptive immune responses, and play a major role in priming, initiating, and sustaining strong anti-HCV T cell immune responses. The general objective of this study is to evaluate safety, feasibility and clinical efficacy of therapeutic vaccination in genotype 1 HCV patients using autologous DCs pulsed with recombinant HCV-antigens (Core and NS3). Expected effects: DC vaccination induces Core/NS3-specific immune response and reduces viral load in patients with chronic HCV-infection.

Hepatitis C virus (HCV) has chronically infected an estimated 170 million people worldwide. People infected with HCV are at risk for developing chronic liver diseases, such as liver cirrhosis and primary hepatocellular carcinoma. It has been estimated that HCV accounts for 27% of cirrhosis and 25% of hepatocellular carcinoma worldwide. Therapy for chronically HCV-infected patients has involved a pegylated interferon-alpha and ribavirin (pegIFN/RBV) and is still the only FDA-approved therapeutic combination. However, this therapy is expensive, non-specific, toxic, and only effective in about 50% of genotype-1 HCV patients. An early immune response, represented by the activation of NK cells, the development of vigorous anti-HCV CD4+ and CD8+ T-cell responses, and the appearance of HCV-specific antibodies, is mounted by the host during acute HCV infection and leads to clearance of the virus. However, in the vast majority (≈85%) of infected individuals HCV causes a persistent infection. The mechanisms of HCV persistence remain elusive and are largely related to inefficient clearance of the virus by the host immune system. Although HCV genome is very variable with hundreds of serotypes and six genotypes, several structural (Core) and nonstructural proteins (NS3, NS4A, NS5A, NS5B) are highly conserved among genotypes and subtypes. It is apparent that clearance of hepatitis C infection requires early and multi-specific HLA class I restricted CD8+ T cell and class II restricted CD4+ T cell responses to both structural and non-structural HCV proteins. DCs are professional antigen-presenting cells that link innate and adaptive immune responses. DCs play a major role in priming, initiating, and sustaining strong T cell responses against pathogen-derived antigens. Therefore DC-based therapy represents a promising immunotherapeutic approach in terms of their propensity to establish anti-HCV adaptive immune responses. This trial is a prospective, non-blinded, interventional study to determine safety, feasibility and clinical efficacy of therapeutic vaccination in genotype 1 HCV patients using autologous DCs pulsed with recombinant HCV-antigens (Core and NS3). Our previous work has shown that the short-term loading of DCs with recombinant HCV proteins Core (1-120) and NS3 (1192-1457) have no any marked inhibitory effect on maturation and functions of DCs. In experimental group thirty patients with chronic hepatitis C (genotype 1) will be vaccinated via intracutaneous injection of monocyte-derived DCs, generated in the presence of IFN-α/GM-CSF and pulsed with recombinant HCV Core (1-120) and NS3 (1192-1457) proteins. The vaccination protocol will includes initiating (one injection per week, no 4) and maintaining (one injection per month, no 6) courses with subsequent 6-month of follow up. The safety will be determined by the evaluation of the number of participants with the adverse events. Liver safety will be assessed by blood analysis and Ultrasound. Patients will be monitored in a 2 months (after completing of initiating course), 7 months (after completing of maintaining course) and 13 months (in a 6 months post-vaccination follow-up).