Control of IBMIR in neonatal porcine islet xenotransplantation in baboons.

The instant blood-mediated inflammatory reaction (IBMIR) is a major obstacle to the engraftment of intraportal pig islet xenografts in primates. Higher expression of the galactose-α1,3-galactose (αGal) xenoantigen on neonatal islet cell clusters (NICC) than on adult pig islets may provoke a stronger reaction, but this has not been tested in the baboon model. Here, we report that WT pig NICC xenografts triggered profound IBMIR in baboons, with intravascular clotting and graft destruction occurring within hours, which was not prevented by anti-thrombin treatment. In contrast, IBMIR was minimal when recipients were immunosuppressed with a clinically relevant protocol and transplanted with NICC from αGal-deficient pigs transgenic for the human complement regulators CD55 and CD59. These genetically modified (GM) NICC were less susceptible to humoral injury in vitro than WT NICC, inducing significantly less complement activation and thrombin generation when incubated with baboon platelet-poor plasma. Recipients of GM NICC developed a variable anti-pig antibody response, and examination of the grafts 1 month after transplant revealed significant cell-mediated rejection, although scattered insulin-positive cells were still present. Our results indicate that IBMIR can be attenuated in this model, but long-term graft survival may require more effective immunosuppression or further donor genetic modification.

Shutdown of immunological priming and presentation after in vivo administration of adenovirus.

Adenoviral (Adv) vectors are widely used in both experimental and clinical trials for vaccination and gene therapy. Recombinant Adv can evoke potent innate immune responses and adaptive immune responses to encoded antigens. However, how Adv infection affects the response to subsequently encountered antigens is poorly understood. We show that intravenously administered replication defective (E1 and E3 deleted) Adv educes functional changes in dendritic cells (DC) resulting in impaired priming of cytotoxic T lymphocytes (CTL) more than 7 days after Adv treatment. Generalized DC activation was indicated by transient upregulation of CD86 and reduced endocytosis of fluorescent beads. It is known that CD8+ DC are predominantly responsible for uptake and presentation (cross-presentation) of exogenous antigens to CD8+ CTL. Hence, impaired endocytosis in CD8+, but not CD8-, DC at 7 days after Adv administration provided an explanation for the impaired CTL response to antigen at this time. Shutdown of cross-presentation was confirmed using cytochrome c (cytc), an agent that selectively depletes cross-presenting DC. Adv-infection rendered CD8+ DC resistant to depletion by cytc. As the cross-presentation pathway underlies CD8 T-cell responses to many cancers and to vaccines or viruses that do not directly infect DC, systemic Adv administration may impair these responses.

Local effector failure in mesothelioma is not mediated by CD4+ CD25+ T-regulator cells.

The aim of the present study was to define the point at which mesothelioma T-cell responses fail in order to design better immunotherapies. A murine model of mesothelioma was used which was established with asbestos. Inoculation of tumour cells into syngeneic mice results in progressing tumours with similar histopathology to human mesothelioma. The tumour cells secrete a marker tumour antigen similar to secreted tumour-associated products, such as mesothelin. The mesothelioma microenvironment contains stromal elements including dendritic cells, effector CD8(+) and CD4(+) T-cells, and CD4(+) T-regulatory (Tregs) cells, all of which are activated in situ, implying chronic inflammation. Tumour antigens are rapidly transported to draining lymph nodes wherein tumour-specific T-cell responses are generated. Despite the generation of potent CD8(+) cytotoxic lymphocyte in lymphoid organs, those that infiltrate tumours cannot restrain tumour growth suggesting local suppression. Splenic Tregs did not suppress protective responses in adoptive transfer experiments suggesting that systemic Tregs play little role in regulating anti-mesothelioma immune responses. Finally, removal of CD25(+) Tregs from the tumour site and lymphoid organs did not alter tumour growth with or without interleukin (IL)-2 or IL-21 immunotherapy. Tregs are not potent regulators of anti-mesothelioma immunity and targeting these cells may not improve results.

Generic construction of single component particles that elicit humoural and cellular immune responses without the need for adjuvants.

Insoluble, pure protein particles could be advantageous as single-entity vaccines or as carriers for small peptide epitopes. Dense gas anti-solvent precipitation was employed to produce pure protein particles which were found to be insoluble in water. As particulate and multimerized antigens are more immunogenic and hence more advantageous for vaccination, particles were produced via this method using ovalbumin as a model antigen. The particles produced had a mean diameter of approximately 300nm, and remained as discrete particles at low pH. At neutral pH or in the presence of electrolyte, the particles exhibited predictable flocculation behaviour to produce aggregates 1-5microm in diameter. Immunisation of mice with these flocculates elicited specific ovalbumin antibody production, T-cell proliferation and a cytotoxic T-cell response, all in the absence of adjuvant. Thus, dense gas processing could be used as a generic method to produce pure protein particulate vaccines.

Molecular cloning and characterization of pig, cow and sheep MAdCAM-1 cDNA and the demonstration of cross-reactive epitopes amongst mammalian homologues.

Full-length cDNA clones for the pig, cow and sheep mucosal addressin cellular adhesion molecule (MAdCAM)-1 homologues were isolated from Peyer's patches by a combination of reverse transcription (RT)-polymerase chain reaction and 5' and 3' RACE strategies. Degenerate primers based on conserved amino acid (aa) sequences within the N-terminal immunoglobulin (Ig)-like domains of the human and rodent MAdCAM-1 molecules were used for initial sequencing of the Ig-like domains. MAdCAM-1 transcripts of 1425 bp, 1525 bp and 1510 bp obtained for the pig, cow and sheep contained an open-reading frame for proteins of 390, 424 and 418 aa, respectively. The pig and ruminant MAdCAM-1 had two N-terminal Ig-like domains, a mucin-like region and a third Ig-like domain found in rodent but not human MAdCAM-1. Antibodies raised against bacterially expressed N-terminal Ig-like domains of pig, human and sheep MAdCAM-1 demonstrated the existence of cross-reactive epitopes, raising the possibility of producing monoclonal antibodies which can be used as multi-species MAdCAM-1-targeting reagent for the development of mucosal vaccines.

Without CD4 help, CD8 rejection of pig xenografts requires CD28 costimulation but not perforin killing.

Although CD4 cells are major mediators in cellular rejection of fetal pig pancreas (FPP) in the mouse, rejection still occurs in the absence of CD4 cells, albeit with delayed kinetics. CD4 cell-independent mechanisms of cellular rejection are poorly understood. To investigate the involvement of CD8 T cells in FPP rejection and their activation requirements, we used mice transgenic for anti-CD4 Ab; this is the most complete model of CD4 cell deficiency. We showed that in such mice FPP was infiltrated with CD8 cells starting from 2 wk posttransplantation and FPP was eventually rejected 8 wk posttransplantation. Ab depletion of CD8 cells greatly improved the survival of FPP and reduced cell infiltration at the graft site. This suggests that CD8 cells can mediate the rejection of porcine xenografts in the absence of CD4 cells. This CD8-mediated rejection of FPP is independent of their perforin-mediated lytic function, as graft survival was not affected in mice deficient in perforin. The production of IFN-gamma and IL-5 by the graft infiltrates indicates that CD8 cells may act through cytokine-mediated mechanisms. Remarkably, in the absence of CD4 cells, lymphocyte infiltration at the graft site was absent in mice transgenic for CTLA4Ig such that the islet grafts flourished beyond 24 wk. In contrast, rejection was little affected by CD40 ligand deficiency. Therefore, we show that CD8 cells are activated to mediate FPP rejection independent of perforin and that this CD4-independent activation of CD8 cells critically depends on B7/CD28 costimulation.

Molecular cloning of a C-type lectin superfamily protein differentially expressed by CD8alpha(-) splenic dendritic cells.

Dendritic cells (DC) are potent antigen presenting cells that activate naive T cells. It is becoming increasingly clear that DC are not a homogeneous cell population, but comprise different subpopulations that differ in ontogeny and function. To further the molecular characterisation of DC, we screened for genes that were differentially expressed amongst DC subsets and could therefore give insight into their varying biological functions. Using Representational Difference Analysis (RDA) we identified a gene (CIRE) that is expressed at higher levels in the myeloid-related CD8alpha(-) DC than in the lymphoid-related CD8alpha(+) DC. CIRE is a 238 amino acid type II membrane protein, of approximately 33 kDa in size, whose extracellular region contains a C-type lectin domain. Northern blot analysis revealed that CIRE is almost exclusively expressed in DC and was not detected in organs such as heart, brain, kidney, liver, and thymus. T cells failed to express message for CIRE, whilst B cells expressed very low levels. These data here further substantiated by Northern blot analysis of 18 cell lines of various origins (myeloid, macrophage, B and T cell) where only one cell line, which was of myeloid origin and could give rise to DC, expressed mRNA for CIRE. Semi-quantitative RT-PCR suggested that CIRE is down-regulated upon activation. CIRE shares 57% identity with human DC-SIGN, a molecule that has been shown to be the ligand of ICAM-3 and that is also a receptor that binds HIV and facilitates trans-infection of T cells.

Molecular cloning of F4/80-like-receptor, a seven-span membrane protein expressed differentially by dendritic cell and monocyte-macrophage subpopulations.

A novel dendritic cell (DC) surface molecule termed F4/80-like-receptor (FIRE) has been selected based on its differential expression between DC subsets. The gene encoding FIRE has been cloned and sequenced, and mAbs specific for FIRE have been produced. FIRE is a seven-transmembrane-spanning molecule with two epidermal growth factor-like domains in the extracellular region. It is a novel member of the epidermal growth factor/transmembrane-7 protein subfamily and shows similarity to the macrophage marker F4/80. FIRE is expressed by CD8- DC, but not by CD8+ DC, and it is down-regulated on DC activation. It is expressed by blood monocytes and by some tissue macrophages, but not by most macrophage cell lines or by lymphoid cells. FIRE is a useful marker of myeloid cells with a DC developmental potential.

The comparative efficacy of CTLA-4 and L-selectin targeted DNA vaccines in mice and sheep.

The access of antigens to antigen presenting cells (APCs) appears to be a rate-limiting step in the generation of immune responses to DNA vaccines. The cytotoxic T lymphocyte antigen 4 (CTLA-4) and L-selectin represent attractive ligands for use in the targeting of antigen to APCs and lymph nodes. CTLA-4 binds with high affinity to the B7 membrane antigen on APCs, while L-selectin functions as a lymphocyte homing marker and binds to CD34 on the surface of high endothelial venule cells. DNA vaccines encoding human immunoglobulin (HIg), fused to either CTLA-4 or L-selectin, have been shown to generate up to 10,000-fold higher anti-HIg antibody responses than DNA vaccines encoding HIg alone. In this study, the ability of CTLA-4 or L-selectin mediated targeting to enhance the humoral immune response to an alternate vaccine antigen was investigated. DNA vaccines encoding CTLA-4-HIg and L-selectin-HIg fused to the host-protective 45W antigen from Taenia ovis were constructed. In BALB/c mice, the L-selectin targeted vaccine did not improve either the magnitude or speed of antibody responses of vaccinated mice. In contrast, the CTLA-4 targeted DNA vaccine generated 45W-specific antibody responses which were up to 30-fold higher than those achieved with non-targeted DNA vaccination. The kinetic of the antibody response generated following CTLA-4 targeted DNA vaccination was also significantly faster than that achieved with non-targeted DNA vaccination, or with adjuvanted protein vaccination. Vaccination of outbred sheep with DNA vaccines expressing either murine or ovine CTLA-4 targeted antigen failed to enhance immune responses. These findings indicate that CTLA-4 targeting may find application in the improvement of DNA vaccines, but requires further development for applications in large animal species.

The human IgG3 hinge mediates the formation of antigen dimers that enhance humoral immune responses to DNA immunisation.

A series of plasmid DNA constructs containing the 45W antigen gene from Taenia ovis were used to investigate the impact of antigen dimerisation on the humoral immune response to genetic immunisation. Genes encoding dimeric 45W were generated via fusion to the hinge region of human IgG3 (hIg). This region was selected because it is compact and contains 11 inter-chain disulphide-bridges. The DNA encoding the IgG3 hinge contains four exons, with the last three exons being repeats and possibly superfluous. Plasmids containing the 45W gene linked to exons 1-2, 1-3 or 1-4 of the hIgG3 hinge, were compared to a control plasmid containing a form of the 45W gene which encodes secreted, monomeric 45W protein. Western blot analysis was used to investigate the formation of the fusion-proteins in transfected Cos-7 cells. The full-length fusion construct expressed predominantly dimeric forms of the fusion-protein, while truncation of the hinge region decreased the abundance of dimeric fusion-protein and increased the proportion monomeric fusion antigen. In immunised BALB/c mice, 45W-specific antibody titres were increased 3 to 4-fold via fusion to the full-length hinge region, whereas the truncated constructs were similar to the control. IgG subclass analysis indicated that all mice generated predominantly IgG1, IgG2a and IgG2b antibodies. Therefore, these results suggest that the efficient formation of dimeric antigen, via fusion to the full-length hinge of human IgG3, can increase the immunogenicity of expressed antigens without altering the form of the immune response elicited by DNA immunisation.

Cell-associated ovalbumin is cross-presented much more efficiently than soluble ovalbumin in vivo.

To better understand the antigenic requirements for cross-presentation, we compared the in vivo efficiency of presentation of cell-associated vs soluble OVA with the OT-I (CD8) and OT-II (CD4) TCR transgenic lines. Cross-presentation of cell-associated OVA was very efficient, requiring as little as 21 ng of OVA to activate OT-II cells and 100-fold less to activate OT-I cells. In contrast, soluble OVA was presented inefficiently, requiring at least 10,000 ng OVA for activation of either T cell subset. Thus, cell-associated OVA was presented 500-fold more efficiently than soluble OVA to CD4 T cells and 50,000-fold more efficiently to CD8 T cells. These data, which represent the first quantitative in vivo analysis of cross-presentation, show that cell-associated OVA is very efficiently presented via the class I pathway.

Enhanced survival of grafts genetically endowed with the ability to block CD2 and B7.

In a model of transplantation rejection, we have tested whether a graft manipulated to secrete immunomodulators could protect itself from immune destruction. An insulinoma cell line having the NOD genotype but also expressing the neoantigen, SV40 T antigen, was transfected with CTLA4Ig or LFA3Ig to block signals in the co-stimulatory/adhesion pathways. This neoantigen is potent at inducing graft rejection. Secretion of CTLA4Ig and LFA3Ig by transfectants promoted survival of the insulinoma graft in young NOD mice. In immunodeficient mice, cell growth was similar for all transfectants. However, in immunocompetent NOD mice the survival/growth of test grafts was significantly better than that of the controls. Graft survival was enhanced additively, when the two test transfectants were cotransplanted. Endowing the graft the ability to secrete immunomodulators that block individual co-stimulatory/adhesion signals can contribute to transplantation success. Blockade of two signals (CD2 and CD28) in these pathways enhances this success.

Protection of xenografts by a combination of immunoisolation and a single dose of anti-CD4 antibody.

Immunoisolation is the separation of transplanted cells from cells of the immune system using a semipermeable membrane. Using one such immunoisolation capsule-the TheraCyte device-we have assessed the survival of encapsulated xenogeneic tissue in vivo as well as the contribution of CD4+ve T cells to encapsulated xenograft rejection. The foreign body reaction to the TheraCyte capsule in vivo was assessed by transplanting empty capsules into normal mice. These capsules elicit a foreign body response by the host animal. Encapsulated CHO, NIT-1, and PK-15 cells were placed in culture and in immunodeficient mice to investigate their growth characteristics in the TheraCyte device. These cell lines survive both in culture and in immunodeficient SCID mice. Xenogeneic PK cells were also transplanted into normal C57BL/6 mice. These cells do not survive in normal mice despite the absence of direct contact between infiltrating and encapsulated cells. In addition, the survival of encapsulated cells in mice treated with a single dose of anti-CD4 antibody was examined. This was assessed using two systems: 1) histological analysis of capsule sections; 2) a quantitative luciferase reporter system using PK cells transfected to express luciferase. In both cases, anti-CD4 antibody contributed to prolonged encapsulated xenogeneic cell survival. Encapsulated xenogeneic cells survive in immunodeficient mice but not normal mice. Treatment of normal mice with anti-CD4 antibody results in prolonged survival of xenogeneic cells that can be measured using a luciferase reporter system. These results highlight the contribution of CD4+ve T cells to encapsulated xenograft rejection.

Overcoming the poor immunogenicity of a protein by DNA immunization as a fusion construct.

The production of antibodies against poorly immunogenic proteins is problematic. Often there is a failure to generate such antibodies. Furthermore, antibodies against other specificities are frequently induced. We describe a simple approach, analogous to conjugation to a protein carrier, whereby immunization with naked DNA was used to raise antibody to a highly homologous and poorly immunogenic allotypic protein. Deoxyribonucleic acid encoding the protein of interest was fused to DNA encoding the Fc region of a foreign Ig, resulting in increased immunogenicity. The potential applications of this approach include the production of antisera and mAb to allotypic variants, mutant proteins, and proteins that are highly conserved between species.

The antigenicity of the chicken anaemia virus protein VP3 (Apoptin).

Chicken anaemia virus protein VP3 (Apoptin) was cloned and expressed as a recombinant protein and evaluated for its suitability as a serodiagnostic reagent. VP3 was expressed as a fusion protein either with glutathione S -transferase or with a six-histidine tag. Both recombinant proteins reacted specifically with anti-VP3 monoclonal antibodies and with serum from vaccinated chickens by Western blot and by enzyme-linked immunosorbent assay (ELISA). However, when testing sera from birds of different ages and genetic backgrounds, high non-specific reactions were evident and false positives were observed, especially in older birds. This suggests that VP3 is poorly immunogenic during infection and low antibody concentrations are masked by non-specific reactions. Thus, VP3 is not suitable for use as antigen in ELISAs.

Nucleic acid vaccines: tasks and tactics.

There are no adequate vaccines against some of the new or reemerged infectious scourges such as HIV and TB. They may require strong and enduring cell-mediated immunity to be elicited. This is quite a task, as the only known basis of protection by current commercial vaccines is antibody. As DNA or RNA vaccines may induce both cell-mediated and humoral immunity, great interest has been shown in them. However, doubt remains whether their efficacy will suffice for their clinical realization. We look at the various tactics to increase the potency of nucleic acid vaccines and divided them broadly under those affecting delivery and those affecting immune induction. For delivery, we have considered ways of improving uptake and the use of bacterial, replicon or viral vectors. For immune induction, we considered aspects of immunostimulatory CpG motifs, coinjection of cytokines or costimulators and alterations of the antigen, its cellular localization and its anatomical localization including the use of ligand-targeting to lymphoid tissue. We also thought that mucosal application of DNA deserved a separate section. In this review, we have taken the liberty to discuss these enhancement methods, whenever possible, in the context of the underlying mechanisms that might argue for or against these strategies.

The development, maturation, and turnover rate of mouse spleen dendritic cell populations.

Three distinct subtypes of dendritic cells (DC) are present in mouse spleen, separable as CD4(-)8alpha(-), CD4(+)8alpha(-), and CD4(-)8alpha(+) DC. We have tested whether these represent stages of development or activation within one DC lineage, or whether they represent separate DC lineages. All three DC subtypes appear relatively mature by many criteria, but all retain a capacity to phagocytose particulate material in vivo. Although further maturation or activation could be induced by bacterially derived stimuli, phagocytic capacity was retained, and no DC subtype was converted to the other. Continuous elimination of CD4(+)8(-) DC by Ab depletion had no effect on the levels of the other DC subtypes. Bromodeoxyuridine labeling experiments indicated that all three DC subtypes have a rapid turnover (half-life, 1.5-2.9 days) in the spleen, with none being the precursor of another. The three DC subtypes showed different kinetics of development from bone marrow precursors. The CD8alpha(+) spleen DC, apparently the most mature, displayed an extremely rapid turnover based on bromodeoxyuridine uptake and the fastest generation from bone marrow precursors. In conclusion, the three splenic DC subtypes behave as rapidly turning over products of three independent developmental streams.

Predominant transgene expression in exocrine pancreas directed by the CMV promoter.

The enhancer/promoter of the human cytomegalovirus gene encoding the major immediate-early protein (CMVp) is reputed to be one of the strongest and most promiscuous regulatory elements for directing transcription of heterologous genes in vitro. However, transgene expression under the promoter in adult transgenic mice is often more restricted. We selected a CMVp segment from position -350 to +59 to control expression of transgenes for two secretory fusion proteins. Expression was analyzed by immunohistology staining and quantified by Northern blot, Western blot, and ELISA of secretions from explanted tissues. In all six lines of transgenic mice, the highest expression of transgenes at the mRNA and protein level was observed in the exocrine tissue of the pancreas, although the levels of expression varied among the lines. The results indicate not only that CMVp is not a universal promoter in vivo but indeed that it can be relatively specific for the exocrine pancreas, where expression of the gene it controlled was consistently very high.

Delayed rejection of fetal pig pancreas in CD4 cell deficient mice was correlated with residual helper activity.

CD4 cells have been shown to play a dominant role in the rejection of xenografts. Depletion of murine CD4 cells by injecting anti-CD4 antibody prolongs the graft survival, but does not prevent its rejection. For a more stable phenotype, we used genetically modified mice. To test whether the delayed rejection is caused by incomplete depletion of CD4 cells, we evaluated the response to fetal pig pancreas (FPP) xenografts in three types of CD4 cell deficient mice. They are MHC class II deficient mice (MHC II(o/o), CD4 deficient mice (CD4(o/o)) and a novel type of CD4 cell deficient mice (designated GK). GK mice were rendered permanently and completely CD4 deficient by transgenic expression of anti-CD4 antibody, whereas both MHC II(o/o) and CD4(o/o) mice have a residual helper cell population. FPP grafts in wild type mice were rejected within a week, whereas FPP grafts survived up to 4 weeks in MHC II(o/o) and CD4(o/o) mice. Survival of grafts in GK mice was even longer (8 weeks). Differences in histology were also noted. Rejecting grafts in MHC II(o/o) and wild-type mice were infiltrated with both eosinophils and mononuclear cells, whereas the infiltrates in CD4(o/o) and GK mice were exclusively mononuclear cells. Immunohistochemistry showed that they were primarily CD8 cells. The immune response to FPP was clearly different in the three types of CD4 cell deficient mice. Splenocytes of MHC II(o/o) 3 weeks post-transplant with FPP produced substantial amounts of IFN-gamma and IL-5, whereas splenocytes of CD4(o/o) mice produced low levels of IFN-gamma but no detectable IL-5. At similar times, these cytokines were not detected in GK mice. Furthermore, CD4(o/o) mice were capable of mounting helper dependent, although reduced, IgG responses to FPP antigens, while GK mice were not. The above results indicate that residual helper activity in some types of CD4 cell deficient mice could still contribute to xenograft rejection. Caution needs to be exercised where such mice are used as models of CD4 cell deficiency. Also, because there is eventual rejection of xenograft FPP in GK mice which lack detectable helper activity, we argue that these mice are a better model to investigate the involvement of CD4-independent rejection mechanisms.

CD4 help-independent induction of cytotoxic CD8 cells to allogeneic P815 tumor cells is absolutely dependent on costimulation.

Mice made transgenic (Tg) for a rat anti-mouse CD4 Ab (GK mice) represent a novel CD4-deficient model. They not only lack canonical CD4 cells in the periphery, but also lack the residual aberrant Th cells that are found in CD4-/- mice and MHC class II-/- mice. To analyze the role of CD4 help and costimulation for CTL induction against alloantigens, we have assessed the surface and functional phenotype of CD8 cells in vivo (e.g., clearance of allogeneic P815 cells) and in vitro. In our CD4-deficient GK mice, CTL responses to allogeneic P815 cells were induced, albeit delayed, and were sufficient to eliminate P815 cells. Induction of CTL and elimination of allogeneic P815 cells were inhibited both in the presence and absence of CD4 cells by temporary CD40 ligand blockade. This indicated that direct interaction of CD40/CD40L between APCs and CD8 cells may be an accessory signal in CTL induction (as well as the indirect pathway via APC/CD4 interaction). Furthermore, whereas in CTLA4Ig single Tg mice P815 cells were rejected promptly, in the double Tg GK/CTLA4Ig mice CTL were not induced and allogeneic P815 cells were not rejected. These findings suggest that CD40/CD40L is involved in both CD4-dependent and CD4-independent pathways, and that B7/CD28 is pivotal in the CD4-independent pathway of CTL induction against allogeneic P815 cells.