Priming of immune responses to hepatitis B surface antigen with minimal DNA expression constructs modified with a nuclear localization signal peptide.

Nuclear localization signal (NLS) peptides conjugated to DNA increase transfection efficiency in vitro. We tested in mice whether conjugation of NLS peptides to DNA vaccines enhances their immunogenicity after intramuscular injection or gene gun mediated intradermal delivery. We constructed the plasmid pMOK-HBsAY that contains a transcription unit encoding hepatitis B surface antigen (HBsAg) and bacterial sequences for amplification of plasmid DNA. From this plasmid we derived the minimal expression construct pMOK-HBsAY-MIDGE, a covalently closed linear DNA that contains only the HBsAg transcription unit. Both constructs stimulated similar (predominantly IgG1) antibody response to HBsAg after gene gun immunization. In contrast, pMOK-HBsAY plasmid DNA was more efficient than pMOK-HBsAY-MIDGE DNA in priming predominantly IgG2a antibody responses to HBsAg after intramuscular injection. Both constructs efficiently primed cytotoxic T lymphocyte responses after intramuscular immunization. When a NLS peptide was coupled to the pMOK-HBsAY-MIDGE DNA, HBsAg transfection efficiency in vitro and priming of antibody responses to HBsAg after intramuscular (but not gene gun mediated) injection was enhanced 10- to 15-fold. These data show: (a) MIDGE constructs can be used as DNA vaccines indicating that bacterial sequences are not essential cofactors; and (b) in intramuscular (but not gene gun mediated) delivery the immunogenicity of a MIDGE-based vaccine is enhanced by coupling NLS peptides to the vector DNA.

A novel minimal-size vector (MIDGE) improves transgene expression in colon carcinoma cells and avoids transfection of undesired DNA.

Viral and plasmid vectors may cause unwanted immunological side effects resulting from the expression of nontherapeutic genes contained in their sequence. Furthermore, replication-defective viral vectors carry the potential risk of recombination with wild-type viruses or activation of oncogenes. A new vector type for minimalistic, immunologically defined gene expression (MIDGE) may overcome these problems. MIDGE is a minimal-size gene transfer unit containing the expression cassette, including promoter, gene, and RNA-stabilizing sequence, flanked by two short hairpin oligonucleotide sequences. The resulting vector is a small, linear, covalently closed, dumbbell-shaped molecule. DNA not encoding the desired gene is reduced to a minimum. Here, we transfected colon carcinoma cell lines using cationic lipid, cationic polymer, and electroporation with several MIDGE vectors and corresponding plasmids containing transgenes encoding enhanced green fluorescent protein (eGFP) and human interleukin-2 (hIL-2). Transfection efficiency as measured qualitatively and quantitatively with eGFP was found to be comparable for both vector types. However, hIL-2 secretion and eGFP expression were approximately two- to fourfold higher in most cells transfected with these transgenes using MIDGE vectors compared to the plasmid control. This report demonstrates the advantages of this new vector type and its prospects for ex vivo gene therapy studies.

Expression of interferon regulatory factor 4 in chronic myeloid leukemia: correlation with response to interferon alfa therapy.

PURPOSE: Mice experiments have established an important role for interferon regulatory factor (IRF) family members in hematopoiesis. We wanted to study the expression of interferon regulatory factor 4 (IRF4) in various hematologic disorders, especially chronic myeloid leukemia (CML), and its association with response to interferon alfa (IFN-alpha) treatment in CML. MATERIALS AND METHODS: Blood samples from various hematopoietic cell lines, different leukemia patients (70 CML, 29 acute myeloid leukemia [AML], 10 chronic myelomonocytic leukemia [CMMoL], 10 acute lymphoblastic leukemia, and 10 chronic lymphoid leukemia patients), and 33 healthy volunteers were monitored for IRF4 expression by reverse transcriptase polymerase chain reaction. Then, with a focus on CML, the IRF4 level was determined in sorted cell subpopulations from CML patients and healthy volunteers and in in vitro-stimulated CML cells. Furthermore, IRF4 expression was compared in the CML samples taken before IFN-alpha therapy and in 47 additional CML samples taken during IFN-alpha therapy. IRF4 expression was then correlated with cytogenetic response to IFN-alpha. RESULTS: IRF4 expression was significantly impaired in CML, AML, and CMMoL samples. The downregulation of IRF4 in CML samples was predominantly found in T cells. In CML patients during IFN-alpha therapy, a significant increase in IRF4 levels was detected, and this was also observed in sorted T cells from CML patients. The increase seen during IFN-alpha therapy was not due to different blood counts. In regard to the cytogenetic response with IFN-alpha, a good response was associated with high IRF4 expression. CONCLUSION: IRF4 expression is downregulated in T cells of CML patients, and its increase is associated with a good response to IFN-alpha therapy. These data suggest IRF4 expression as a useful marker to monitor, if not predict, response to IFN-alpha in CML.

Ballistic transfer of minimalistic immunologically defined expression constructs for IL4 and CTLA4 into the corneal epithelium in mice after orthotopic corneal allograft transplantation.

BACKGROUND: Experiments were performed to determine whether corneal epithelium transfected with minimalistic immunologically defined expression constructs for the extracellular fragment of CTLA4 and for interleukin-4 (IL-4) or interleukin-10 (IL-10) is able to modulate an allospecific immune response after orthotopic corneal grafting in mice. METHODS: Six groups of BALB/c (H-2d) mice received a C3H (H-2k) corneal graft and dexamethasone eye drops until day 11. Five groups of BALB/c mice had gold particles delivered into the corneal epithelium by Gene Gun on day 10 after transplantation. In four groups, minimalistic immunologically defined gene expression (MIDGE) vectors were delivered into the corneal epithelium by ballistic transfer. The levels of expressed IL-4 and IL-10 were determined by an enzyme-linked immunosorbent assay (ELISA) in shock-frozen homogenized corneas. The expression kinetics of Gene-Gun-transfected corneas were determined by measuring luciferase in lysed whole corneas at different time intervals. RESULTS: Luciferase expression was detectable during the first 5 days following transfection. ELISA was used to determine IL-4 and IL-10 expression in corneal tissue 36 h after transfection. Ballistic IL-4 and CTLA4 gene transfer significantly prolonged corneal graft survival in comparison with the gold-treated control group and the IL-10-treated group. CONCLUSION: 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.