Subunit vaccine development against dengue fever based on the recombinant forms of the domain III of the E protein and the NS1 protein.

The present study proposes the development and characterization of a strategy for prophylactic vaccination against dengue virus (VD) based on the NS1 protein and the domain III of the envelope glycoprotein (EIII), using recombinant proteins in subcutaneous immunization in a murine model. These antigens were obtained by cloning and expression of their DNA coding sequences in prokaryotic system (E. coli). In addition, the s non-toxic forms of the heat-labile toxin from enterotoxigenic E. coli (ETEC) (LTK63 and LTG33D) were obtained and incorporated as adjuvants to vaccine formulations. Anti-NS1 and anti-EIII cellular and humoral immune responses were monitored by antibody and cytokine ELISA, , intracellular citokine staining (ICS) and in vivo cytotoxic activity. We observed that animals immunized with the recombinant NS1 and LTG33D were capable to induce immune responses including specific antibodies with high affinity for the antigen. In challenge assays performed to evaluate the immunization protective efficacy such vaccine conferred protection of 50% against infection with a reference type 2 VD (VD2) strain(NGC). Alongside to these results, we demonstrated that EIII is not a good vaccine antigen and can induce the generation of antibodies that enhance DENV infection. We also described the isolation and the genetic and pathological characterization of a VD2 clinical isolate naturally lethal to immunocompetent Balb/c mice. The new strain was shown to cause weight loss, general tissue damage, and hematological disturbances similar to those observed in VDinfected humans, and therefore, may be applied as infection model to evaluate vaccine candidates. The results obtained in this study represent an important contribution to DENV vaccine development and established an important background for future studies of the dengue pathology. (AU)