Vaccination with HIV/SIV DNAs elicits potent T-cell responses. To improve humoral immune responses, we combined DNA and protein in a co-immunization protocol using in vivo electroporation in mice and macaques. DNA&protein co-immunization induced higher antibody responses than DNA or protein alone, or DNA prime/protein boost in mice. DNA&protein co-immunization induced similar levels of cellular responses as those obtained by DNA only vaccination. The inclusion of SIV or HIV Env gp120 protein did not impair the development of cellular immune responses elicited by DNA present in the vaccine regimen. In macaques, the DNA&protein co-immunization regimen also elicited higher levels of humoral responses with broader cross-neutralizing activity. Despite the improved immunogenicity of DNA&protein co-immunization, the protein formulation with the EM-005 (GLA-SE) adjuvant further increased the anti-Env humoral responses. Dissecting the contribution of EM-005, we found that its administration upregulated the expression of co-stimulatory molecules and stimulated cytokine production, especially IL-6, by dendritic cells in vivo. These terminally differentiated, mature, dendritic cells possibly promote higher levels of humoral responses, supporting the inclusion of the EM-005 adjuvant with the vaccine. Thus, DNA&protein co-immunization is a promising strategy to improve the rapidity of development, magnitude and potency of the humoral immune responses.
Keywords: Adjuvant; Antibody; Cellular responses; Dendritic cell maturation; Electroporation; Humoral responses; Immunization; Neutralizing antibody; Vaccination.
Copyright © 2013 The Authors. Published by Elsevier Ltd.. All rights reserved.