Background: Genes encoding non-self proteins may be injected into skeletal muscles in vivo to obtain induction of cellular and humoral immune responses against the encoded antigens (DNA vaccination). Bone marrow derived professional antigen-presenting cells (APCs) play a key role in the induction of immunity by DNA vaccination. In the present work we have investigated whether the APCs are transfected by DNA injection into muscle.
Methods: DNA encoding green fluorescent protein (GFP) was injected into rat and mouse limb muscle and followed by electroporation. Whole mount muscle tissue with GFP-positive mononuclear cells (MNCs) were treated with immunocytochemical markers specific for leukocytes, and studied with fluorescent microscopy. To detect transfected cells migrating to peripheral lymphoid tissue RT-PCR was applied on RNA isolated from the draining popliteal lymph node and spleen. Lymphoid tissue was also analyzed with real-time PCR for distribution of the injected plasmid.
Results: MNCs were transfected after intramuscular DNA injection, and, following DNA injection with electroporation, the number of GFP-positive MNCs increased 6-fold in rats and 14-fold in mice. None of the GFP-positive MNCs were stained with leukocyte-specific antibodies. Even though GFP encoding DNA was detected in the popliteal lymph node, no RNA encoding GFP was found in the lymph node or spleen. However, MHC II-positive cells in the muscle tissue appeared preferentially around the transfected MNCs.
Conclusions: Many MNCs in the muscle are transfected after intramuscular DNA injection. Electroporation significantly increases the number of transfected MNCs. None of the observed transfected MNCs however were leukocytes. MHC II-positive cells accumulated around transfected MNCs; this suggests that transfer of antigen from transfected MNCs to APCs may contribute to the immune response.
Copyright 2003 John Wiley & Sons, Ltd.