Burghardt Wittig

Angiotensin II Activates Nuclear Transcription Factor κB Through AT1 and AT2 in Vascular Smooth Muscle Cells Molecular Mechanisms

Nuclear factor-kappaB (NF-kappaB) regulates many genes involved in vascular physiopathology. We have previously observed in vivo NF-kappaB activation in injured vessels that diminished by angiotensin-converting enzyme inhibition. In the present work, we investigated the effect of angiotensin II (Ang II) on NF-kappaB activity in rat vascular smooth muscle cells, evaluating the molecular mechanisms and the specific receptor subtype involved. Ang II increased NF-kappaB DNA binding (5-fold, 10(-)(9) mol/L at 1 hour; electrophoretic mobility shift assay), nuclear translocation of p50/p65 subunits, and cytosolic inhibitor kappaBalpha (IkappaBalpha) degradation. Ang II elicited NF-kappaB-mediated transcription (transfection of a reporter gene) and expression of NF-kappaB-related genes (monocyte chemoattractant protein-1 and angiotensinogen). AT(1) (DUP753) and AT(2) (PD123319 and CGP42112) receptor antagonists inhibited Ang II-induced NF-kappaB DNA binding in a dose-dependent manner ( approximately 85% for each one; 10(-)(5) mol/L at 1 hour). The AT(2) agonist p-aminophenylalanine(6)-Ang II augmented NF-kappaB binding (4.6-fold, 10(-)(9) mol/L at 1 hour), p65 nuclear levels, and transcription of an NF-kappaB reporter gene. AT(1) antagonist markedly inhibited NF-kappaB-mediated transcription and gene expression. Some differences between AT(1)/AT(2) intracellular signals were found. Antioxidants and ceramide inhibitors, but not protein kinase C inhibitors, diminished NF-kappaB activation elicited by both Ang II and the AT(2) agonist, while tyrosine kinase inhibitors only decreased Ang II-induced NF-kappaB activity. Our results demonstrate that Ang II activates NF-kappaB via AT(1) and AT(2), although NF-kappaB-mediated transcription occurred mainly through AT(1). Both receptors share some signaling pathways (oxygen radicals and ceramide); however, tyrosine kinases only participate in AT(1)/NF-kappaB responses. These data provide novel insights into Ang II actions, suggesting a potential implication of the AT(2) in the pathobiology of vascular cells.

Vaccination with IL-12 gene-modified autologous melanoma cells: preclinical results and a first clinical phase I study

Cytokine gene transfer into tumor cells has been shown to mediate tumor regression and antimetastatic effects in several animal models via immunomodulation. Therefore, clinical protocols have been developed to treat cancer patients with cytokine gene-modified tumor cells. We inserted the genes coding for the p35 and p40 chain of interleukin-12 (IL-12) in two independent eukaryotic expression vectors and transduced melanoma cells of 15 different primary tumor cultures with both plasmids by a ballistic gene transfer approach. Secreted IL-12 demonstrated strong bioactivity by inducing interferon-γ release from peripheral blood lymphocytes upon coculture with cell culture supernatants after IL-12 gene transfer which could at least partly be blocked by IL-12-specific antisera. Further enrichment of transduced tumor cells by magnetic separation directly after gene transfer increased cytokine secretion from a mean of 119 pg in the unsorted to 507 pg IL-12 (24 h/106 cells) in the magnetically enriched cell fraction. Irradiation of these cells led to a further elevation of secreted IL-12 (mean 987 pg). Elevated IL-12 levels were detected over 7 days after irradiation in vitro. In a subsequent first clinical phase I study six patients with metastatic melanoma were vaccinated with autologous, interleukin-12 gene-modified tumor cells. Melanoma cells were expanded in vitro from surgically removed metastases, transduced by ballistic gene transfer, irradiated and were then injected subcutaneously (s.c.) at weekly intervals. Clinically, there was no major toxicity except for mild fever. All patients completed more than four s.c. vaccinations over 6 weeks and were eligible for immunological evaluation. Post-vaccination, peripheral mononuclear cells were found to contain an increased number of tumor-reactive proliferative as well as cytolytic cells as determined by a limiting dilution analysis in two patients. Two patients developed DTH reactivity against autologous melanoma cells and one had a minor clinical response. Biopsies taken from that patient’s metastases revealed a heavy infiltration of CD4+ and CD8+ T lymphocytes. In conclusion, vaccination induced immunological changes even in a group of advanced, terminally ill patients. These changes can be interpreted as an increased antitumor immune response.

Therapeutic Vaccination against Metastatic Carcinoma by Expression-Modulated and Immunomodified Autologous Tumor Cells: A First Clinical Phase I/II Trial

Therapeutic vaccination of tumor patients with cytokine gene-transfected tumor cells leads to tumor regression in animal models but has so far not resulted in significant clinical benefit. We and others demonstrated that tumor cells transfected to mediate overexpression of a cytokine gene activate immunologic effector cells for an improved proliferation rate and significantly higher antitumoral cytotoxic activity. Here, we performed a pilot study of therapeutic vaccination in patients with metastatic disease. Autologous tumor cells were simultaneously transfected with novel minimalistic, immunogenically defined, gene expression constructs (MIDGE) for overexpression of the two cytokines interleukin 7 (IL-7) and GM-CSF and newly designed double stem-loop immunomodulating oligodeoxyribonucleotides (d-SLIM) as a Th1-promoting and NK cell-stimulating adjuvant. Transfection was performed ex vivo by ballistomagnetic gene transfer. Patients received four subcutaneous injections of at least 1 x 10(6) of their expression-modulated and immunomodified autologous tumor cells. Ten patients have been enrolled in the study protocol. In all patients no adverse effects could be detected. IL-7 and interferon gamma levels were elevated in the serum of the patients after treatment. Interestingly, cytotoxicity of patient-derived PBLs increased significantly during treatment. All 10 patients had progressive disease when entering our protocol. One complete, one partial, and one mixed response with progression of abdominal metastases and regression of lung metastases were observed. Two patients showed a stable disease after treatment and five patients remained in progressive disease. Our observations confirm the capability of autologous expression-modified and immunomodulated tumor cell vaccines to stimulate a strong immune response in patients with metastatic cancer even in the presence of a large tumor burden.

Heat shock gene expression is regulated during teratocarcinoma cell differentiation and early embryonic development.

Abstract Undifferentiated teratocarcinoma stem cells do not express heat shock genes. Solid teratocarcinomas grown in vivo which contain clusters of teratocarcinoma-derived differentiated tissue do respond to heat shock. During mouse embryonic development the expression of heat shock genes is first observed with morula/blastocyst stages of mouse primplantation embryos.

DNA vaccination with linear minimalistic (MIDGE) vectors confers protection against Leishmania major infection in mice

Immunization protocols based on priming with plasmid DNA and boosting with recombinants of vaccinia virus (rVV) encoding the same antigen offer great promise for the prevention and treatment of many parasitic and viral infections for which conventional vaccination has little or no effect. To overcome some of the potential problems associated to the use of plasmids, we have developed minimalistic, immunogenically defined, gene expression (MIDGE((R))) vectors. These linear vectors contain only the minimum sequence required for gene expression and can be chemically modified to increase the immune response. Here, we demonstrate that MIDGE vectors coding for the LACK antigen confer a highly effective protection against Leishmania infection in susceptible Balb/c mice. Protection is achieved at lower doses of vector compared to conventional plasmids. This efficacy could be greatly improved by the addition of a nuclear localization signal (NLS) peptide to the end of the MIDGE vector. In fact, immunization with two doses of NLS-modified MIDGE conferred similar or even better protection than that achieved by priming with plasmid DNA followed by boosting with rVV. These results demonstrate that MIDGE vectors are a good alternative to plasmid and rVV for immunization.

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

Abstract 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 specific Go heterotrimer couples somatostatin receptors to voltage-gated calcium channels in RINm5F cells

The peptide hormone somatostatin inhibits glucose‐induced insulin secretion in the rat insulinoma RINm5F cells by inhibition of voltage‐gated calcium channels. Here we used microinjection of antisene oligonucleotides directed against subtypes of G‐protein subunits to determine the subunit composition involved in somatostatin‐induced inhibition of voltage‐gated calcium channels in RINmF5 cells. Injection of antisene oligonucleotides annealing to the respective mRNA of Gαo2, Gβ1 and Gγ3 reduced the somatostatin‐induced inhibition of calcium channels in these cells. Injection of antisene oligonucleotides directed against other G‐protein subunits did not, suggesting that in RINm5F cells the somatostatin receptor couples to a G protein of Gαo2β1γ3 composition. By using a selective agonist of type 2 somatostatin receptors (SSTR 2) NC 8–12, we identified this receptor as the subtype coupling to calcium channels in RINm5F cells.

Protection against FIV challenge infection by genetic vaccination using minimalistic DNA constructs for FIV env gene and feline IL-12 expression.

ObjectiveTo evaluate the efficacy of a genetic vaccination protocol based on minimalistic, immunogenic defined gene expression (MIDGE) vectors coding for domains of the feline immunodeficiency virus (FIV) env gene and feline IL-12. MethodsThree groups of four cats each were immunized three times within 6 weeks by the ballistic transfer of gold particles coated with MIDGE vectors. Group 1 received non-coated gold beads, groups 2 and 3 MIDGE vectors expressing FIV surface plus part of the transmembrane protein. In addition, group 3 received feline IL-12 DNA. All cats were challenged by intraperitoneal injection of 25 TCID50 of infectious FIV Z2. The following criteria were monitored: clinical signs, antibodies to transmembrane protein, antibodies to whole FIV, haematological parameters and kinetics of CD4 and CD8 cells, FIV proviral load (determined by quantitative polymerase chain reaction; PCR) and cytotoxic T lymphocyte (CTL) activity (in selected cats). ResultsNone of the cats developed a detectable antibody response during immunizations. Four weeks after challenge exposure, all cats in group 1 (control) and group 2 (FIV surface-transmembrane protein) had seroconverted and showed a high proviral load until week 19 (end of experiment). In contrast, only one of four cats in group 3 (surface-transmembrane protein and IL-12) showed antibodies; it was provirus positive at reduced virus load. Short-lived CTL activity was found in two cats in group 3. ConclusionGenetic vaccination using a MIDGE-based construct for the expression of the surface-transmembrane protein domain of FIV env and feline IL-12 DNA led to protection against homologous virus challenge in three out of four vaccinated cats.

Gβγ Activation Site in Adenylyl Cyclase Type II ADENYLYL CYCLASE TYPE III IS INHIBITED BY Gβγ

The Gβγ complex of heterotrimeric G proteins is the most outstanding example for the divergent regulation of mammalian adenylyl cyclases. The heterodimeric Gβγ complex inhibits some isoforms, e.g. ACI, and stimulates the isoforms ACII, -IV, and -VII. Although former studies identified the QEHA region located in the C2 domain of ACII as an important interaction site for Gβγ, the determinant of the stimulatory effect of Gβγ has not been detected. Here, we identified the C1b domain as the stimulatory region using full-length adenylyl cyclase. The relevant Gβγ signal transfer motif in IIC1b was determined as MTRYLESWGAAKPFAHL (amino acids 493–509). Amino acids of this PFAHL motif were absolutely necessary for ACII to be stimulated by Gβγ, whereas they were dispensable for Gαs or forskolin stimulation. The PFAHL motif is present in all three adenylyl cyclase isoforms that are activated by Gβγ but is absent in other adenylyl cyclase isoforms as well as other known effectors of Gβγ. The emerging concept of two contact sites on different molecule halves for effective regulation of adenylyl cyclase is discussed.

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.