Several approaches involving DC-based vaccines were developed as early-stage attempts to manage/cure HCV infection, some of them being developed at the experimental level while some advanced towards the translational level.37 The DC-based HCV vaccine development is summarized

in Table 2. Moriya et al.115 employed the anthrax toxin fusion protein containing the HCV-core epitope as a vehicle for antigen loading on DC, and reported that immunization with the fusion protein-treated DC induced HCV-core-specific cytotoxic lymphocytes (CTL) in mice. Later, they immunized mice with DC transduced with recombinant adenovirus expressing HCV-core protein effectively induced HCV-core-specific CTL. Hence, adenovirus-transduced DC may be a promising candidate see more for a CTL-based vaccine against HCV infection.116 Racanelli et al.36 present a system to induce cellular immunity and to study the immunological implications of time-delayed DC apoptosis and antigen reprocessing in vivo. They generated a self-replicating cytopathic pestivirus RNA to enhance production and presentation of HCV antigens and to induce apoptosis in DC 24–48 hr after

transfection. Replicon-transfected H-2b DC used to immunize HLA-A2 transgenic mice induced protection upon challenge with a vaccinia virus expressing HCV antigens. Induction of cell death enhanced the immunogenicity of DC-associated antigen. Transfer of cellular selleck material from vaccine DC to endogenous antigen-presenting cells was visualized in lymph nodes and spleen, and cross-primed CD8+T cells were characterized. Dendritic cells pulsed with HCV-LPs stimulated HCV core-specific CD4+ T cells, indicating that uptake of HCV-LPs by DC leads to antigen processing and presentation on MHC class II molecules. The HCV-LP-derived antigens were efficiently cross-presented to HCV core-specific CD8+ T cells. These findings demonstrate that HCV-LPs

represent a novel model system to study HCV-DC interaction allowing FER definition of the molecular mechanisms of HCV uptake, DC activation, and antigen presentation to T cells. Furthermore, HCV-LP may be a potent vaccine candidate for the induction of antiviral cellular immune responses in humans.35 By using recombinant adenoviral vectors,103 DC expressing HCV NS3 or core proteins expressed several inflammatory cytokine mRNAs, had a normal phenotype, and effectively stimulated allogeneic T cells, as well as T cells specific for another foreign antigen (tetanus toxoid). These findings are important for the rational design of cellular-vaccine approaches for the immunotherapy of chronic HCV. Zabaleta et al.117 proved that immunization with DC transfected with an adenovirus encoding NS3 protein, from HCV (AdNS3), induced multi-epitopic CD4 Th1 and CD8+ T-cell responses in different mouse strains.