BACKGROUND: DNA vaccination is an attractive approach for tumor vaccination because plasmid DNA (pDNA) can be used as a 'general vaccine' across major histocompatibility complex barriers. Coexpression of immunomodulatory molecules can help to amplify the immunogenicity of DNA vaccines. CCL19 (ELC) is a CC chemokine with immunoregulatory properties, binding to the chemokine receptor CCR7 that is expressed on dendritic cells (DCs) and T cells. In vivo, CCL19 is a key regulator for the interactions between DCs and T cells in regional lymph nodes. METHODS: pDNA encoding Her2/neu and CCL19 was used as an intramuscular vaccine. Vaccination was performed in BALB/c mice, which were subsequently challenged with syngeneic Her2/neu(+) tumor cells. Groups of mice were immunized with pDNA(Her2/neu) plus pDNA(CCL19), pDNA(Her2/neu) plus pDNA(CCL19) plus pDNA(GM-CSF), pDNA(Her2/neu) plus pDNA(GM-CSF), pDNA(Her2/neu), pDNA(CCL19), pDNA(GM-CSF) or mock vector. Tumor protection by the vaccine and immune responses were monitored. RESULTS: Coadministration of pDNA(Her2/neu) and pDNA(CCL19) led to substantial improvement of tumor protection by the vaccine and induced a TH1-polarized, Her2/neu-specific immune response. Forty-seven days after the tumor challenge, 58% of the mice coinjected with pDNA(Her2/neu) and pDNA(CCL19) remained tumor-free compared to 22% after vaccination with pDNA(Her2/neu) alone. Additional administration of pDNA(GM-CSF) led to further improvement of tumor protection and an amplification of Her2/neu-specific immune responses. CONCLUSIONS: CCL19 is able to induce a TH-1 polarization of the anti-Her2/neu immune response, which can be further amplified by granulocyte macrophage-colony-stimulating factor (GM-CSF). Clinical use of a pDNA(Her2/neu-CCL19 ± GM-CSF) vaccine might be promising in Her2/neu + breast cancer in the clinical situation of minimal residual disease.
BACKGROUND: DNA vaccination is an attractive approach for tumor vaccination because plasmid DNA (pDNA) can be used as a 'general vaccine' across major histocompatibility complex barriers. Coexpression of immunomodulatory molecules can help to amplify the immunogenicity of DNA vaccines. CCL19 (ELC) is a CC chemokine with immunoregulatory properties, binding to the chemokine receptor CCR7 that is expressed on dendritic cells (DCs) and T cells. In vivo, CCL19 is a key regulator for the interactions between DCs and T cells in regional lymph nodes. METHODS: pDNA encoding Her2/neu and CCL19 was used as an intramuscular vaccine. Vaccination was performed in BALB/c mice, which were subsequently challenged with syngeneic Her2/neu(+) tumor cells. Groups of mice were immunized with pDNA(Her2/neu) plus pDNA(CCL19), pDNA(Her2/neu) plus pDNA(CCL19) plus pDNA(GM-CSF), pDNA(Her2/neu) plus pDNA(GM-CSF), pDNA(Her2/neu), pDNA(CCL19), pDNA(GM-CSF) or mock vector. Tumor protection by the vaccine and immune responses were monitored. RESULTS: Coadministration of pDNA(Her2/neu) and pDNA(CCL19) led to substantial improvement of tumor protection by the vaccine and induced a TH1-polarized, Her2/neu-specific immune response. Forty-seven days after the tumor challenge, 58% of the mice coinjected with pDNA(Her2/neu) and pDNA(CCL19) remained tumor-free compared to 22% after vaccination with pDNA(Her2/neu) alone. Additional administration of pDNA(GM-CSF) led to further improvement of tumor protection and an amplification of Her2/neu-specific immune responses. CONCLUSIONS:CCL19 is able to induce a TH-1 polarization of the anti-Her2/neu immune response, which can be further amplified by granulocyte macrophage-colony-stimulating factor (GM-CSF). Clinical use of a pDNA(Her2/neu-CCL19 ± GM-CSF) vaccine might be promising in Her2/neu + breast cancer in the clinical situation of minimal residual disease.
Authors: Tam Nguyen-Hoai; Dennis Kobelt; Oliver Hohn; Minh D Vu; Peter M Schlag; Bernd Dörken; Steven Norley; Martin Lipp; Wolfgang Walther; Antonio Pezzutto; Jörg Westermann Journal: Oncoimmunology Date: 2012-12-01 Impact factor: 8.110