The beneficial effect of IL-4 and CTLA4, but not IL-10 gene transfer into the corneal epithelium by MIDGE vectors was demonstrated for the first time in corneal transplantation.
Ballistic gene transfer into the corneal epithelium allows high cytokine expression in the cornea without measurable side effects if an apparatus is used that is adapted for this specific purpose.
Although 70 – 80 % of children with childhood acute lymphoblastic leukemia (ALL) can be cured by poly-chemo-therapy, the prognosis of patients with Philadelphia chromosome positive (Ph+) ALL remains poor. Therefore, new relapse prevention strategies are needed for patients with Ph+ ALL during remission. We have shown previously, that vaccination of mice with leukemia cell lines modified to express costimulatory molecules and cytokines induce a systemic immunity against the syngeneic BCR-ABLp185 expressing cell line BM185. However, the difficulties to culture and transfect human leukemia cells limit the clinical application of leukemia cell based vaccines. Thus, we evaluated the pre-immunization of mice with DNA based vaccines subsequently challenged by the cell line BM185. Ballistic transfer of minimalistic immunogenically defined gene expression (MIDGE) vectors encoding a BCR-ABLp185 fusion specific peptide or GM-CSF were used for in vivo transfection of murine skin. In addition, we used double stem-loop immunomodulators (dSLIM), containing three CpG-motifs as non-specific immune adjuvant. We provide survival data that shows specific immunization and protection of mice which received the complete vaccine BCR-ABL/GM-CSF/dSLIM. Mean tumor-free survival (p=0.019) and overall survival (p=0.008) were significantly longer compared to non-vaccinated mice and 26.7% survived and never developed leukemia. In contrast, tumor-free and overall survival of mice immunized with either dSLIM or GM-CSF alone or both dSLIM and GM-CSF was not significantly longer compared to non-vaccinated mice. Similarly, substitution of BCR-ABL by irrelevant TEL-AML1 sequences abolished the vaccine efficacy of the BCR-ABL/GM-CSF/dSLIM vaccine. The biometrical data were confirmed by CTL assays which showed that specific lysis was significantly higher after vaccination with BCR-ABL/GM-CSF/dSLIM compared to GM-CSF/dSLIM (p<0.05) and to naïve mice (p<0.005). Previously, we have shown in T-cell depletion studies that CD8+ T cells were the effector cells in the BM185 cell vaccine model and we suggest that CD8+ T cells also play an essential role in the BM185 DNA vaccine model. Together, we provide biometrical and functional data that DNA-based vaccination with BCR-ABLp185 fusion specific sequences, GM-CSF and dSLIM can protect mice against a lethal Ph+ ALL challenge.
Cytosine-guanine (CpG) motifs containing oligonucleotides (ODN) are commonly used for immunomodulatory purpose in cancer therapy and for the treatment of allergic diseases since they resemble bacterial DNA and serve as “danger signals”. These CpG-ODNs promote predominately a TH1-response with secretion of IL-12 and IFN-γ, In addition their broad potential includes activation of B-cell proliferation, monocyte stimulation and secretion of IgM and IL-6, and stimulation of plasmacytoid DC to produce IFN-α/-β and thus γδT-cells and NK-cells to express CD69 and secrete IFN-γ. Usually phosphorothioate (PS) modifications are to enhance the stability, but these are leading to several side-effects, like severe organ enlargements, morphological changes and immunosuppression in mice. We designed immunomodulatory molecules based on short covalently-closed dumbbell-like structures (dSLIM) to stabilize the DNA without the otherwise necessary PS-modification. To evaluate the anti-tumor effect of the dSLIM molecules we developed an in vitro anti-tumor assay. This assay uses supernatant from dSLIM-activated human PBMCs for incubation with tumor cells in vitro. We observed increased apoptosis and necrosis of the HT-29 tumor cell line after incubation with supernatant from dSLIM-treated PBMC which was significantly higher than the effect of supernatant from non-treated PBMC. In addition, supernatant from dSLIM-treated PBMC increased the expression of HLA-ABC on the tumor cells, a pre-requisite for tumor cell recognition by the immune system. These effects were confirmed with human HEK293 and murine Renca cell lines. Analyzing the effect with neutralizing antibodies to various apoptosis-related cytokines, we observed a crucial role of IFN-γ but not IFN-α or TNFα. To investigate the anti-tumor effects of dSLIM in vivo, we employed a SKH1 murine model which is prone to spontaneous development of papillomas. Using chemicals for initiation and weekly promotion of de novo papilloma development we compared groups of weekly s.c. or i.p. dSLIM injections, respectively, with the PBS control group. The number of papilloma developing mice was significantly lower in the dSLIM groups and the total number of papillomas on all mice was reduced by approximately 50%. In conclusion, we showed that dSLIM immunomodulators exhibit potent anti-tumor effects in vitro and in vivo.
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