Adenovirally transduced dendritic cells induce bispecific cytotoxic T lymphocyte responses against adenovirus and cytomegalovirus pp65 or against adenovirus and Epstein-Barr virus EBNA3C protein: a novel approach for immunotherapy

Cytomegalovirus (CMV), Epstein-Barr virus (EBV), and adenovirus (Ad) cause significant morbidity and mortality in immunocompromised patients undergoing allogeneic stem cell transplantation. We have established a procedure to generate polyclonal cytotoxic T lymphocyte (CTL) populations with specificity against Ad and CMV or against Ad and EBV. Healthy donor-derived dendritic cells (DCs) were transduced with recombinant adenovirus encoding either CMV pp65 or EBV EBNA3C and used to stimulate autologous T cells. Stimulated T lymphocytes displayed specific simultaneous cytotoxicity against CMV and adenovirus and to a lesser extent against adenovirus and EBV. Recombinant vaccinia virus encoding individual adenovirus proteins showed that the T cell response to the adenovirus was directed mainly against the capsid protein hexon. The frequency of IFN-gamma-secreting T cells was 0.02% for adenovirus alone, and 0.05 and 0.14% for adenoviruses encoding EBNA3C and pp65, respectively. pp65-specific CTLs killed autologous fibroblasts infected with the laboratory strain CMV AD169. The culture conditions were specific as alloreactive T cells were not expanded. Therefore, this approach could be considered in order to generate efficient virus cytolytic T cells to be used as adoptive immunotherapy in transplanted patients.     

Autologous dendritic cells transfected with prostate-specific antigen RNA stimulate CTL responses against metastatic prostate tumors

Autologous dendritic cells (DCs) transfected with mRNA encoding prostate-specific antigen (PSA) are able to stimulate potent, T cell-mediated antitumor immune responses in vitro. A phase I trial was performed to evaluate this strategy for safety, feasibility, and efficacy to induce T cell responses against the self-protein PSA in patients with metastatic prostate cancer. In 13 study subjects, escalating doses of PSA mRNA-transfected DCs were administered with no evidence of dose-limiting toxicity or adverse effects, including autoimmunity. Induction of PSA-specific T cell responses was consistently detected in all patients, suggesting in vivo bioactivity of the vaccine. Vaccination was further associated with a significant decrease in the log slope PSA in six of seven subjects; three patients that could be analyzed exhibited a transient molecular clearance of circulating tumor cells. The demonstration of vaccine safety, successful in vivo induction of PSA-specific immunity, and impact on surrogate clinical endpoints provides a scientific rationale for further clinical investigation of RNA-transfected DCs in the treatment of human cancer.     

Primary stimulation by dendritic cells induces antiviral proliferative and cytotoxic T cell responses in vitro

We used well-gassed hanging drop (20 microliters) cultures with high concentrations of purified T cells from normal BALB/c mice to examine whether dendritic cells (DC) can induce primary antiviral proliferative T cell responses and generate virus-specific CTL. We found that DC exposed to infectious influenza virus in vitro or in vivo in small numbers (0.1-1%) resulted in strong proliferation of responder T cells within 3 d, and this was strongly inhibited by antibodies to class II MHC molecules. In addition, in 5-d cultures, the influenza-treated DC generated CTL specifically able to lyse influenza-infected syngeneic target cells bearing MHC class I antigens. The most potent nucleoprotein (NP) epitope recognized by BALB/c CTL is peptide 147-158 (Arg156-) and influenza-infected DC in vitro stimulated CTL recognizing this peptide, thus mimicking the response in mice primed by intranasal influenza infection. We also induced T cell proliferation and virus-specific CTL in cultures of normal T cells by stimulating with DC pulsed with the natural NP sequence 147-158 or the potent peptide 147-158 (Arg156-). Small numbers of peritoneal exudate cells, after activation with Con A to produce class II MHC expression and after removal of DC with a specific mAb (33DI), did not lead to primary CTL generation but initiated secondary stimulation in vitro. Our results using the hanging drop culture method and DC as APC have implications for studying the T cell repertoire for viral components in humans without the necessity of previous immunization.     

Soluble proteins delivered to dendritic cells via pH-sensitive liposomes induce primary cytotoxic T lymphocyte responses in vitro

Effective immunity to many infectious agents, particularly viruses, requires a CD8+ cytotoxic T lymphocyte (CTL) response. Understanding how to achieve CTL induction with soluble proteins is important for vaccine development since such antigens are usually not processed appropriately to induce CTL. In the present report, we have demonstrated that a potent primary CTL response against a soluble protein can be achieved by delivering antigen in pH-sensitive liposomes to dendritic cells (DC) either in vivo or in vitro. Since the pH-sensitive liposome delivery system is efficient and easy to use, the approach promises to be valuable both in the study of basic mechanisms in antigen processing, and as a practical means of immunization.     

Human lymphokine-activated killer cells are cytotoxic against cells infected with Toxoplasma gondii

We have recently reported that on human B lymphocytes, membrane IgM (mIgM) associates with a heterodimer of 47- and 37-kD polypeptides, the 47-kD subunit being encoded by the mb-1 gene. We show here that expression of mb-1, both at the mRNA and the protein level, is not restricted to IgM+ B cells but can also be found in IgM- pre-B cells and mIgM-IgG+ B cells. Membrane forms of IgD and IgG, isolated from freshly isolated human B cells and B cell lines, are expressed together with heterodimeric protein structures biochemically similar to the mIgM-associated polypeptides, and these were shown to comprise the products of the mb-1 and B29 genes, or homologous genes. Finally, all three classes of antigen receptors are linked to protein kinases, capable of phosphorylating the Ig-associated heterodimers. Our findings provide insight in the structural organization of the different antigen receptors on human B cells and have implications for their function.     

Human myeloid dendritic cells transduced with an adenoviral interleukin-10 gene construct inhibit human skin graft rejection in humanized NOD-scid chimeric mice

Human myeloid DC were generated from peripheral blood mononuclear cells by monocyte adhesion and subsequent culture with rhGM-CSF and rhIL-4. We transduced immature (day 5 of culture) myeloid DC with an E1-deleted replication-deficient adenoviral vector encoding the cytokine IL-10 (AdV IL-10) and a control adenovirus MX-17 (AdV MX 17). Human DC transduced with AdV IL-10 showed inhibition of the mixed leukocyte culture, reduced cell surface expression of co-stimulatory molecules (CD80/CD86) and were unable to produce the potent allo-stimulatory cytokine, interleukin-12. In order to test the in vivo properties of these cells a humanized immunodeficient mouse skin transplantation model was developed. Immunodeficient NOD-scid mice were engrafted with human skin, reconstituted via intraperitoneal injection with allogeneic mononuclear cells (MNC) mixed with 1 x 10(6) DC that were autologous to the skin donor and that had been transduced with either AdV IL-10 or AdV MX-17. Skin grafts were removed at day 7 and 14 after reconstitution and studied histologically for evidence of rejection. In animals that received DC modified with AdV IL-10 there was reduced skin graft rejection as characterized by reduced mononuclear cell infiltration and less dermo-epidermal junction destruction compared with those animals that received DC modified with the control virus alone. Injection of equivalent numbers of donor-derived fibroblasts transduced with AdV IL-10 were ineffective at modifying rejection of skin grafts. Immunosuppressive cytokine gene therapy targeting human DC is a novel means of inhibition of the alloimmune response.     

Pre-clinical evaluation of an in vitro selection protocol for the enrichment of transduced CD34+ cell-derived human dendritic cells

The efficient genetic modification of CD34+ cell-derived dendritic cells (DC) will provide a significant advancement towards the development of immunotherapy protocols for cancer, autoimmune disorders and infectious diseases. Recent reports have described the transduction of CD34+ cells via retrovirus- and lentivirus-based gene transfer vectors and subsequent differentiation into functional DC. Since there is significant apprehension regarding the clinical uses of HIV-based vectors, in this report, we compare a murine leukemia virus (MLV)- and a human immunodeficiency virus (HIV)-based bicistronic vector for gene transfer into human CD34+ cells and subsequent differentiation into mature DC. Each vector expressed both EGFP and the dominant selectable marker DHFR(L22Y) allowing for the enrichment of marked cells in the presence of the antifolate drug trimetrexate (TMTX). Both MLV-based and HIV-based vectors efficiently transduced cytokine mobilized human peripheral blood CD34+ cells. However, in vitro expansion and differentiation in the presence of GM-CSF, TNF-alpha, Flt-3L, SCF and IL-4 resulted in a reduction in the percentage of DC expressing the transgene. Selection with TMTX during differentiation increased the percentage of marked DC, resulting in up to 79% (MLV vector) and up to 94% (lentivirus-vector) transduced cells expressing EGFP without loss of DC phenotype. Thus, MLV-based vectors and in vitro selection of transduced human DC show great promise for immunotherapy protocols.     

Liposomal amphotericin B inhibits in vitro T-lymphocyte response to antigen.

The effects of free amphotericin B (as Fungizone) and amphotericin B (AMB) incorporated into liposomes on the proliferation of lymphocytes were determined. Freshly obtained guinea pig and rat antigen-specific lymphocytes were compared with rat T-lymphocyte cell lines cultured for a long period of time. Incorporation of AMB into multilayered vesicles significantly reduced its effect relative to that of Fungizone on cultured T-cell lines, as reported by others for mammalian cells. In contrast, the effects on freshly obtained antigen-specific lymphocytes were different. Fungizone inhibited proliferation of antigen-specific lymph node cells freshly obtained from immunized guinea pigs at fungicidal concentrations, and incorporation into multilayered lipid vesicles did not have much of a protective effect. Higher concentrations of Fungizone were required to inhibit proliferation of fresh rat lymph node cells, but incorporation into multilayered lipid vesicles still did not have much of a protective effect. Some T lymphocytes in the peripheral circulation of guinea pigs and in the lymph nodes of rats were more resistant to liposomal AMB than another more sensitive T-lymphocyte population was. Proliferation of lymphocytes in response to mitogens was inhibited less than that in response to specific antigen was. Thus, sensitivity to AMB depended on the species, the strength of the stimulus used to activate the lymphocytes, and on some other property of the lymphocytes, possibly their state of differentiation. Regardless of the reason for the difference in effects on freshly obtained lymph node lymphocytes and cultured line cells, the former may be more relevant to effects in vivo and should be considered in a complete evaluation of the in vivo toxicity of these forms of the drug. Incorporation into sonicated unilamellar vesicles had more of a protective effect, while equimolar drug-lipid complexes had even more of a protective effect. These forms of AMB might have less of an immunosuppressive potential than multilayered vesicles containing low amounts of AMB do.     

Induction of antigen-specific CD8+ cytotoxic T cells by dendritic cells co-electroporated with a dsRNA analogue and tumor antigen mRNA

The maturation state of dendritic cells (DCs) is an important determinant for the initiation and regulation of adaptive immune responses. In this study, we wanted to assess whether functional activation of human monocyte-derived DCs can be achieved by electroporation of an activation signal in the form of double-stranded (ds) RNA and whether simultaneous electroporation of the dsRNA with tumor antigen encoding mRNA can lead to the induction of a cytotoxic T-lymphocyte (CTL) response. Electroporation of immature DCs with poly(I:C(12)U), a dsRNA analogue, resulted in phenotypic as well as functional changes, indicative of DC maturation. Co-electroporation of DCs with both poly(I:C(12)U) and Melan-A/MART-1 encoding mRNA induced strong anti-Melan-A/MART-1 CD8(+) T-cell responses in vitro. Higher numbers of Melan-A/MART-1-specific CTLs were consistently obtained with poly(I:C(12)U)-activated DCs compared to DCs matured in the presence of an inflammatory cytokine cocktail. These results indicate that DC co-electroporation with both dsRNA and tumor antigen encoding mRNA induces fully activated and antigen-loaded DCs that promote antigen-specific CTL responses and may provide the basis for future immunotherapeutic strategies.     

IL-12 in conjunction with dendritic cells enhances antiviral CD8+ CTL responses in vitro.

CD8+ cytolytic T lymphocytes (CTLs) are important mediators for resistance to infections and malignant diseases. IL-12 enhances proliferative and cytolytic responses by killer cells, but its function in the generation of human antiviral CD8+ T cell responses has not been defined. We therefore evaluated the role of IL-12 in the generation of CTLs to influenza-infected dendritic cells. IL-12 was not detectable in supernatants of infected-dendritic cells, or during CTL generation. Furthermore, anti-IL-12 antibody did not block CTL generation. However, exogenous IL-12 (30-300 pg/ml) enhanced CD8+ T cell proliferative and cytolytic responses. The effect was greatest in individuals with weak reactivity to influenza virus or at antigen-presenting cell (APC):T cell ratios of 1:100 or less. IL-12 augmented interferon-gamma production during CTL generation. The CTL enhancing effects of the cytokine, however, could not be blocked by neutralizing anti-interferon-gamma antibody. Together with IL-12, antigen-pulsed dendritic cells may be a useful approach for boosting CTL responses against infectious agents and malignancies.     

Human immune responses to hapten-conjugated cells. I. Primary and secondary proliferative responses in vitro

An in vitro model was developed to study both primary and secondary proliferative responses of human lymphocytes to hapten-conjugated peripheral blood mononuclear cells. Coculture of human lymphocytes with autologous trinitrophenyl (TNP)-conjugated stimulator cells resulted in primary proliferative responses. Subjects segregated into high and low primary responders with mean stimulation indices of 11 and 2.1, respectively. Restimulation of primed cells from high responder subjects 3 wk after initial sensitization generated secondary proliferative responses. To investigate the antigenic requirements for secondary stimulation, autologous TNP-conjugate primed responders were restimulated with both autologous and allogeneic TNP-conjugated stimulators. In all experiments restimulation with autologous conjugated cells yielded substantially greater proliferative responses than with allogeneic conjugates. Experiments were then performed to ascertain whether HLA determinant homology between primed responder and stimulator cells influenced the level of secondary responsiveness. Homology for HLA-A and B locus serologic determinants was not associated with enhanced responsiveness. In contrast, D region determinant homology, detected by B-cell antigen typing, showed a highly significant positive correlation with the magnitude of secondary responses. The data thus strongly suggest that for secondary proliferative responses to TNP, human T cells recognize hapten in association with HLA-D region determinants.     

Rat marrow stromal cells rapidly transduced with a self-inactivating retrovirus synthesize L-DOPA in vitro

Autologous bone marrow stromal cells engineered to produce 3,4,-dihydroxyphenylalanine (L-DOPA) can potentially be used as donor cells for neural transplantation in Parkinson's disease. Here, we examined the possibility of using several different promoters and either a self-inactivating retrovirus (pSIR) or standard retroviruses to introduce into marrow stromal cells (MSCs), the two genes necessary for the cells to synthesize L-DOPA. pSIR vectors were constructed using the mouse phosphoglycerate kinase-1 (PGK) promoter or the cytomegalovirus (CMV) promoter to drive expression of either a GFP reporter gene or a bicistronic sequence containing the genes for human tyrosine hydroxylase type I (TH) and rat GTP cyclohydrolase I (GC) separated by an internal ribosome entry site (IRES). rMSCs were successfully transduced with both standard retroviral vectors and pSIR containing the PGK promoter. Transduced rMSCs expressed GFP (90.4--94.4% of cells) or were able to synthesize and secrete L-DOPA (89.0--283 pmols/10(6) cells/h). After transduced rMSCs were plated at low density (3--6 cells/cm(2)), the cells expanded over 1000-fold in 3--4 weeks, and the rMSCs continued to either express GFP or produce L-DOPA. Furthermore, two high-expressing clones were isolated and expanded at low-density from rMSCs transduced with pSIR driven by the PGK promoter (97.0% GFP+ or 1096.0 pmols L-DOPA/10(6) cells/h).     

Generation of cytotoxic T lymphocytes specific for human cytomegalovirus using dendritic cells in vitro

For the adoptive immunotherapy in immunodeficient bone marrow transplant recipients to prevent and treat human cytomegalovirus (HCMV)-associated diseases, HCMV-pulsed dendritic cells (DCs) were used as antigen-presenting cells for the induction of cytotoxic T lymphocytes (CTLs) specific to HCMV antigens in vitro. The antiviral CTL responses induced by HCMV-pulsed DCs were as highly efficient as those induced by HCMV-infected dermal fibroblasts, and endogenous viral gene expression was not required to induce virus-specific T-cell lines. The strong cytotoxic activity against HCMV-pp65, known as HCMV major antigen, was identified using autologous B lymphoblastoid cell line expressing pp65 antigen. The cytotoxic activity toward HCMV-infected target cells was found to be mediated primarily by CD8+ T cells, although both CD8+ cells and CD4+ cells were able to lyse autologous virus-infected target cells. The CTLs contained a mixture of effector cells that recognized virus peptides in the context of major histocompatibility complex. This system may be useful for defining the cellular immune response to HCMV and for the treatment of HCMV infection in immunocompromised patients.     

Expansion and characterization of T cells transduced with a chimeric receptor against ovarian cancer

Adoptive immunotherapy with genetically modified T lymphocytes is being utilized in clinical trials for the treatment of a broad range of diseases including cancer and HIV infection. To improve on these treatments, and to better understand their mechanisms of action, it is necessary to develop techniques to generate large numbers of cells and characterize the functional heterogeneity of the cells produced. In this study, patient peripheral blood lymphocytes were transduced with a chimeric antigen receptor (MOv-gamma) derived from a mouse monoclonal antibody against folate-binding protein, which is overexpressed on many ovarian cancers. Thus, irrespective of their original specificity, normal human T lymphocytes were redirected to react against ovarian cancer cells. Lymphocytes from five patients were transduced and grown to large numbers, with a median expansion of more than 7000-fold. When proliferation was inadequate, the cells were expanded by stimulation utilizing anti-CD3, IL-2, and irradiated allogeneic PBMCs. The cells maintained their functional ability to recognize ovarian cancer over several months. Cloning of transduced cells was undertaken to determine the level of gene expression and function of individual cells making up the bulk population. Transduced CD4(+) and CD8(+) cell clones were isolated from the bulk and demonstrated antitumor activity. These clones had a diverse repertoire with respect to secretion of cytokines, and individual clones maintained their cytokine profile on subsequent expansion. These studies establish the feasibility of consistently generating large numbers of gene-modified tumor-reactive lymphocytes, with a stable and diverse cytokine repertoire, that could be utilized for patient treatment.     

K562细胞RNA负载人树突状细胞后体外诱导特异性CTL的研究

目的探讨人的树突状细胞(dendriticcell,DC)体外经K562细胞株总RNA转染后,能否诱导出p210蛋白表达,并诱导特异性细胞毒T淋巴细胞(CTL)。方法自健康人浓缩白细胞制品(白膜)分离有粘附特性的单核细胞(PBMC),经GMCSF、IL4培养5d后,获得未成熟的DC(imatureDC,imDC);体外以脂质体DOTAP或直接电穿孔转染K562细胞总RNA。抽提转染前后以及转染24h后的DC内RNA进行RTPCR检测,Westernblot分析p210蛋白表达,以及诱导CTL杀伤K562细胞功能检测等。PBMC以每组5×106/ml,分别在不同组分的培养液中培养DC,通过细胞计数、流式细胞仪测定CD1a表达、细胞纯度来估计制备效果。结果RTPCR检测表明DC经K562总RNA转染后,细胞内出现BcrAbl的cDNA条带,24h后消失。Westernblot试验表明转染24h后,开始表达p210特征性蛋白;并且明显促进T细胞对K562的杀伤活性。1%自体血浆体积分数RPMI1640培养的DC的CD1a表达量最高,并且细胞获得数量也仅屈居第二,为总体评价较高的一组。结论应用肿瘤总RNA负载DC来制备DC疫苗具有可行性,预示改良的DC疫苗抗肿瘤的广泛应用前景。     

Human infection with Trypanosoma cruzi induces parasite antigen-specific cytotoxic T lymphocyte responses.

Experimental models of Chagas' disease, an infection caused by the intracellular protozoan Trypanosoma cruzi, have demonstrated the crucial immunoprotective role played by CD8(+) T lymphocytes. These cells dominate inflammatory foci in parasitized tissues and their elimination from mice leads to uncontrolled parasite replication and subsequent death of the infected host. A trypomastigote surface antigen, TSA-1, and two amastigote surface molecules, ASP-1 and ASP-2, were recently identified as targets of CD8(+) cytotoxic T lymphocytes (CTL) in T. cruzi-infected mice. Until now, however, there was no evidence for the development of parasite-specific CTL in T. cruzi-infected humans. In this study, human CTL specific for TSA-1-, ASP-1-, and ASP-2-derived peptides were detected in the peripheral blood mononuclear cells from 21 of 24 HLA-A2(+) T. cruzi-infected patients. CTL recognition was antigen specific, A2-restricted, and CD8(+) T cell-dependent. Demonstration of human CTL against T. cruzi and against target molecules identified using the murine model provides important information for the optimal design and evaluation of vaccines to prevent or ameliorate Chagas' disease.     

Various cells retrovirally transduced with N-acetylgalactosoamine-6-sulfate sulfatase correct Morquio skin fibroblasts in vitro.

Gene therapy may provide a long-term approach to the treatment of mucopolysaccharidoses. As a first step toward the development of an effective gene therapy for mucopolysaccharidosis type IVA (Morquio syndrome), a recombinant retroviral vector, LGSN, derived from the LXSN vector, containing a full-length human wildtype N-acetylgalactosamine-6-sulfate sulfatase (GALNS) cDNA, was produced. Severe Morquio and normal donor fibroblasts were transduced by LGSN. GALNS activity in both Morquio and normal transduced cells was several fold higher than normal values. To measure the variability of GALNS expression among different transduced cells, we transduced normal and Morquio lymphoblastoid B cells and PBLs, human keratinocytes, murine myoblasts C2C12, and rabbit synoviocytes HIG-82 with LGSN. In all cases, an increase of GALNS activity after transduction was measured. In Morquio cells co-cultivated with enzyme-deficient transduced cells, we demonstrated enzyme uptake and persistence of GALNS activity above normal levels for up to 6 days. The uptake was mannose-6-phosphate dependent. Furthermore, we achieved clear evidence that LGSN transduction of Morquio fibroblasts led to correction of the metabolic defect. These results provide the first evidence that GALNS may be delivered either locally or systematically by various cells in an ex vivo gene therapy of MPS IVA.     

肿瘤全抗原激活的树突状细胞体外肿瘤的杀伤实验

目的：树突状细胞是功能最强的抗原提呈细胞，能够向T淋巴细胞有效地提呈抗原，发挥特异性的杀伤肿瘤的作用，本实验主要观察树突状细胞的体外抗癌作用。 方法：实验于2002-03／2003-03在华北煤炭医学院完成。选取华北煤炭医学院健康志愿者30例，抽取外周血10mL，分离出外周血单个核细胞。联合应用重组人集落细胞刺激因子和重组人白细胞介素14诱导外周血单个核细胞7d后获取树突状细胞。以肺癌细胞系CALU-6肿瘤细胞全抗原负载的树突状细胞和重组人白细胞介素-2联合活化自体混合T淋巴细胞，使其增殖为树突状细胞活化的杀伤细胞；体外观察树突状细胞活化的杀伤细胞及其培养上清对肿瘤细胞的杀伤活性，并检测不同的树突状细胞对其活化的杀伤细胞杀伤活性的影响。 结果：①10mL健康人外周血单个核细胞经重组人集落细胞刺激因子和重组人白细胞介素-4联合培养7d收获的树突状细胞数量为（1．88&;#177;0．77）&;#215;10^6个。②树突状细胞活化的杀伤细胞其细胞表型CD8阳性率明显增加。③树突状细胞活化的杀伤细胞对于肿瘤细胞全抗原来源的肺癌细胞系CALU-6肿瘤细胞有明显的特异性杀伤作用。④树突状细胞浓度适中，其活化的杀伤细胞的杀伤肿瘤细胞的能力最强，树突状细胞浓度过高或过低，其活化的杀伤细胞的杀伤力均减弱。⑤树突状细胞活化的杀伤细胞上清液有一定的杀伤活性，并且随着树突状细胞浓度的降低而降低。 结论：负载抗原的树突状细胞能诱导自体的混合T淋巴细胞，产生树突状细胞活化的杀伤细胞进而诱导高效而特异性的抗肿瘤免疫作用。树突状细胞诱导的抗肿瘤免疫与其浓度有关，呈双向调节作用。     

Induction of leukemia-specific CD8+ cytotoxic T cells with autologous myeloid leukemic cells maturated with a fiber-modified adenovirus encoding TNF-alpha.

Acute myeloid leukemia (AML) cells can be differentiated into dendritic cells (DCs) using appropriate combinations of cytokines but generation of autologous antileukemic cytotoxic T cells using leukemic DCs remains difficult. Transduction by adenoviral vectors has been reported to induce efficient maturation of monocyte-derived DCs but AML cells are generally resistant to adenoviral gene transfer. In this study we tested the effects of adenoviral TNF-alpha gene transfer on maturation of AML cells using the fiber-modified AdTNF.F(pK7) adenovirus. All samples expressed high and sustained levels of TNF-alpha following transduction. AdTNF.F(pK7) induced significantly greater maturation of AML cells into antigen-presenting cells (APC) than did recombinant TNF-alpha or control adenoviral vector. Maturation of leukemic cells into APCs was mediated at least partially via a PI3K/mTOR pathway, as the inhibitors LY294002, wortmannin, and rapamycin inhibited the maturation effect induced by the AdTNF.F(pK7) adenovirus. In addition, CD8+ T cells expanded with AdTNF.F(pK7)-transduced AML cells showed greater expansion and specific CD8+ CTL activity against autologous AML cells than T cells expanded by other means. Thus, fiber-modified adenoviral vectors encoding TNF-alpha are able to maturate AML cells into APCs with high efficacy and reproducibility, providing a useful tool to generate efficiently specific CD8+ CTLs against leukemic disease.     

Induction of immune tolerance to a transplantation carbohydrate antigen by gene therapy with autologous lymphocytes transduced with adenovirus containing the corresponding glycosyltransferase gene

Induction of tolerance to transplantation carbohydrate antigens is of clinical significance in recipients of ABO-incompatible allografts, or of xenografts. The experimental animal model used for studying such tolerance was that of alpha1,3galactosyltransferase (alpha1,3GT) knockout (KO) mice, which lacks the alpha-gal epitope (Galalpha1-3Galbeta1-4GlcNAc-R) and which can produce the anti-Gal antibody against it. In contrast, wild-type (WT) mice synthesize the alpha-gal epitope and are immunotolerant to it. KO lymphocytes transduced in vitro with adenovirus containing the alpha1,3GT gene (AdalphaGT) express alpha-gal epitopes. Administration of such lymphocytes into KO mice resulted in tolerization of na?ve and memory anti-Gal B cells. Mice tolerized by AdalphaGT transduced lymphocytes failed to produce anti-Gal following immunizations with pig kidney membranes (PKM) expressing multiple alpha-gal epitopes. This tolerance was perpetuated by transplanted syngeneic WT mouse hearts expressing alpha-gal epitopes. Transplanted WT hearts survived in the tolerized KO mice for at least 100 days, despite repeated PKM immunizations. Control mice receiving lymphocytes transduced with adenovirus lacking the alpha1,3GT gene were not tolerized, but produced anti-Gal and rejected transplanted WT hearts. This study suggests that autologous lymphocytes transduced with adenovirus containing A or B transferase genes may induce a similar tolerance to blood group antigens in humans.