DNA immunization of HLA transgenic mice with a plasmid expressing mycobacterial heat shock protein 65 results in HLA class I- and II-restricted T cell responses that can be augmented by cytokines.

Infection with Mycobacterium tuberculosis (MTB) remains a major cause of morbidity and mortality world-wide. An effective vaccination strategy is the immunization with plasmid DNA (pDNA), expressing an antigen (Ag) from a pathogen in vivo, which results in specific immune response against the encoded protein as well as the pathogen itself or cells infected with it. To test the ability to induce HLA-restricted T cell immune response against a mycobacterial antigen in humans by pDNA vaccination, we have used transgenic mice that express HLA class I (A0201/Kb) or HLA class II (DRB10301) molecules. pDNA immunization with mycobacterial heat shock protein 65 (Mhsp65)-expressing plasmid (P3M.65) resulted in HLA-II-restricted, Ag-specific T cell-mediated immune responses characterized by proliferation and cytokine production. These T cell responses could be further augmented by the coinjection of P3M.65 and plasmid expressing murine GM-CSF. Furthermore, coimmunizing HLA-I transgenic mice with P3M.65 and a plasmid expressing murine IFN-gamma induced a specific cytotoxic T lymphocyte response restricted by HLA-A2. These results represent the first evidence of a concomitant in vivo induction of HLA class I- as well as class II-restricted T cell responses by pDNA immunization, which is induced or augmented by the codelivery of cytokine-expressing plasmids, supporting its potential use in clinical trials.