<p>DNA vaccination is an effective means of inducing both humoral and cell-mediated immunity in animal models of infectious disease. Presented here are data generated in two distinct disease models; one viral (influenza) and one bacterial (tuberculosis). Specifically, plasmid DNA encoding an influenza virus antigen (nucleoprotein; NP) and a Mycobacterium tuberculosis antigen (antigen 85; Ag85) were prepared and tested as DNA vaccines in mice. In both cases, high titer antibody responses and robust cell-mediated immune responses were induced against the respective antigens. With respect to the latter, lymphocyte proliferation, Th1-type cytokine secretion, and cytotoxic T lymphocyte responses were observed upon restimulation with antige...
<p><b>OBJECTIVE: </b>To determine the efficacy of Ag85A-DNA against challenge with...
Over the last few years, some of our experiments in which mycobacterial antigens were presented to t...
Cell-mediated immune responses are crucial in the protection against tuberculosis. In this study, we...
<p>DNA plasmids encoding Mycobacterium tuberculosis antigen 85 (Ag85) were tested as vaccines ...
DNA vaccination is based on the observation that plasmid DNA could directly transfect muscle cells, ...
DNA vaccination is an effective method for elicitation of strong humoral as well as cellular immune ...
The development and widespread use of vaccines against infectious agents have been a great triumph o...
<p>Tuberculosis is the most widespread and lethal infectious disease affecting humans. Immuniz...
Novel tuberculosis DNA vaccines encoding native ESAT-6, MPT-64, KatG, or HBHA mycobacterial proteins...
DNA vaccination is an effective method for elicitation of strong humoral as well as cellular immune ...
Immune response and protective efficacy for the combination of four tuberculosis DNA vaccines were e...
Vaccines have significantly improved human health through decreasing morbidity and mortality associa...
Vaccines have significantly improved human health through decreasing morbidity and mortality associa...
Bovine tuberculosis is a major cause of economic loss in countries where it is endemic, and in some ...
DNA vaccines have been termed The Third Generation of Vaccines. The recent successful immunization o...
<p><b>OBJECTIVE: </b>To determine the efficacy of Ag85A-DNA against challenge with...
Over the last few years, some of our experiments in which mycobacterial antigens were presented to t...
Cell-mediated immune responses are crucial in the protection against tuberculosis. In this study, we...
<p>DNA plasmids encoding Mycobacterium tuberculosis antigen 85 (Ag85) were tested as vaccines ...
DNA vaccination is based on the observation that plasmid DNA could directly transfect muscle cells, ...
DNA vaccination is an effective method for elicitation of strong humoral as well as cellular immune ...
The development and widespread use of vaccines against infectious agents have been a great triumph o...
<p>Tuberculosis is the most widespread and lethal infectious disease affecting humans. Immuniz...
Novel tuberculosis DNA vaccines encoding native ESAT-6, MPT-64, KatG, or HBHA mycobacterial proteins...
DNA vaccination is an effective method for elicitation of strong humoral as well as cellular immune ...
Immune response and protective efficacy for the combination of four tuberculosis DNA vaccines were e...
Vaccines have significantly improved human health through decreasing morbidity and mortality associa...
Vaccines have significantly improved human health through decreasing morbidity and mortality associa...
Bovine tuberculosis is a major cause of economic loss in countries where it is endemic, and in some ...
DNA vaccines have been termed The Third Generation of Vaccines. The recent successful immunization o...
<p><b>OBJECTIVE: </b>To determine the efficacy of Ag85A-DNA against challenge with...
Over the last few years, some of our experiments in which mycobacterial antigens were presented to t...
Cell-mediated immune responses are crucial in the protection against tuberculosis. In this study, we...