Myeloid-derived suppressor cells in lymphoma: The good, the bad and the ugly

Lymphomas cause significant morbidity and mortality worldwide. A substantial number of patients ultimately relapse after standard treatment. However, the efficacy of these therapies can be counteracted by the patients' immune system, more specifically by myeloid-derived suppressor cells (MDSC). MDSC are a heterogeneous group of immature myeloid cells that suppress the innate and adaptive immune system via different mechanisms and accumulate under pathological conditions, such as cancer. MDSC play a role in the induction and progression of cancer and immune evasion. Increased numbers of MDSC have been reported in different lymphoma subtypes and are associated with a poor clinical outcome. This review aims to clarify the role of MDSC and their working mechanism in different lymphoma subtypes. Furthermore, the effect of MDSC on immunotherapies will be discussed.

Reduction of myeloid-derived suppressor cells reinforces the anti-solid tumor effect of recipient leukocyte infusion in murine neuroblastoma-bearing allogeneic bone marrow chimeras

Allogeneic hematopoietic stem cell transplantation is an emerging treatment option for solid tumors because of its capacity to elicit immune graft-versus-tumor effects. However, these are often limited and associated with GvHD. Adoptive recipient leukocyte infusion (RLI) was shown to enhance anti-tumor responses of allogeneic bone marrow transplantation in murine neuroblastoma (Neuro2A)-bearing chimeras. In contrast to the clinically used donor leukocyte infusion, the RLI anti-tumor effect-elicited by host-versus-graft lymphohematopoietic reactivity-does not cause GvHD; however, the tumor growth-inhibitory effect is incomplete, because overall survival is not prolonged. Here, we studied the anti-solid tumor mechanisms of RLI with the objective to improve its efficacy. Host-versus-graft reactivity following RLI was associated with a systemic cytokine storm, lymph node DC activation, and systemic expansion of host-derived IFN-γ-expressing CD4+ T cells and IFN-γ-and granzyme B-expressing CD8+ T cells, which acquired killing activity against Neuro2A and third-party tumor cells. The tumor showed up-regulation of MHC class I and a transient accumulation of IFN-γ-and granzyme B-expressing CD8+ T cells: the intra-tumor decline in cytotoxic CD8+ T cells coincided with a systemic-and to a lesser extent intra-tumoral-expansion of MDSC. In vivo MDSC depletion with 5-FU significantly improved the local tumor growth-inhibitory effect of RLI as well as overall survival. In conclusion, the RLI-induced alloreactivity gives rise to a host-derived cytotoxic T-cell anti-neuroblastoma response, but also drives an expansion of host-type MDSC that counteracts the anti-tumor effect. This finding identifies MDSC as a novel target to increase the effectiveness of RLI, and possibly other cancer immunotherapies.

Mouse Cytomegalovirus Infection in BALB/c Mice Resembles Virus-Associated Secondary Hemophagocytic Lymphohistiocytosis and Shows a Pathogenesis Distinct from Primary Hemophagocytic Lymphohistiocytosis

Hemophagocytic lymphohistiocytosis (HLH) is a life-threatening immunological disorder that is characterized by systemic inflammation, widespread organ damage, and hypercytokinemia. Primary HLH is caused by mutations in granule-mediated cytotoxicity, whereas secondary HLH occurs, without a known genetic background, in a context of infections, malignancies, or autoimmune and autoinflammatory disorders. Clinical manifestations of both HLH subtypes are often precipitated by a viral infection, predominantly with Herpesviridae. Exploiting this knowledge, we established an animal model of virus-associated secondary HLH by infecting immunocompetent wild-type mice with the β-herpesvirus murine CMV. C57BL/6 mice developed a mild inflammatory phenotype, whereas BALB/c mice displayed the clinicopathologic features of HLH, as set forth in the Histiocyte Society diagnostic guidelines: fever, cytopenia, hemophagocytosis, hyperferritinemia, and elevated serum levels of soluble CD25. BALB/c mice also developed lymphadenopathy, liver dysfunction, and decreased NK cell numbers. Lymphoid and myeloid cells were in a hyperactivated state. Nonetheless, depletion of CD8(+) T cells could not inhibit or cure the HLH-like syndrome, highlighting a first dissimilarity from mouse models of primary HLH. Immune cell hyperactivation in BALB/c mice was accompanied by a cytokine storm. Notably, plasma levels of IFN-γ, a key pathogenic cytokine in models of primary HLH, were the highest. Nevertheless, murine CMV-infected IFN-γ-deficient mice still developed the aforementioned HLH-like symptoms. In fact, IFN-γ-deficient mice displayed a more complete spectrum of HLH, including splenomegaly, coagulopathy, and decreased NK cell cytotoxicity, indicating a regulatory role for IFN-γ in the pathogenesis of virus-associated secondary HLH as opposed to its central pathogenic role in primary HLH.

Recipient leukocyte infusion enhances the local and systemic graft-versus-neuroblastoma effect of allogeneic bone marrow transplantation in mice

Allogeneic hematopoietic stem cell transplantation and donor leukocyte infusion (DLI) may hold potential as a novel form of immunotherapy for high-risk neuroblastoma. DLI, however, carries the risk of graft-versus-host disease (GvHD). Recipient leukocyte infusion (RLI) induces graft-versus-leukemia responses without GvHD in mice and is currently being explored clinically. Here, we demonstrate that both DLI and RLI, when given to mixed C57BL/6→A/J radiation chimeras carrying subcutaneous Neuro2A neuroblastoma implants, can slow the local growth of such tumors. DLI provoked full donor chimerism and GvHD; RLI produced graft rejection but left mice healthy. Flow cytometric studies showed that the chimerism of intratumoral leukocytes paralleled the systemic chimerism. This was associated with increased CD8/CD4 ratios, CD8+ T-cell IFN-γ expression and NK-cell Granzyme B expression within the tumor, following both DLI and RLI. The clinically safe anti-tumor effect of RLI was further enhanced by adoptively transferred naïve recipient-type NK cells. In models of intravenous Neuro2A tumor challenge, allogeneic chimeras showed superior overall survival over syngeneic chimeras. Bioluminescence imaging in allogeneic chimeras challenged with luciferase-transduced Neuro2A cells showed both DLI and RLI to prolong metastasis-free survival. This is the first experimental evidence that RLI can safely produce a local and systemic anti-tumor effect against a solid tumor. Our data indicate that RLI may provide combined T-cell and NK-cell reactivity effectively targeting Neuro2A neuroblastoma.

G-CSF stem cell mobilization in human donors induces polymorphonuclear and mononuclear myeloid-derived suppressor cells

The role of myeloid-derived suppressor cells (MDSC) is emerging in transplantation. An expansion of myeloid progenitor cells with suppressive capacity has been reported to occur as a bystander phenomenon in the course of allogeneic hematopoietic stem cell transplantation (allo-HSCT) protocols, particularly, in mice during bone marrow chimerism induction and in human stem cell donors during G-CSF-mobilization protocols. Hypothesizing that such 'regulatory myeloid cells' play a role in regulating post-transplant T-cell alloreactivity, we performed a phenotypical and functional characterization of these cells in peripheral blood stem cell grafts of G-CSF-treated donors. We demonstrate that expanding myeloid cells in the peripheral blood of G-CSF-mobilized donors comprise the typical phenotype of the mononuclear and polymorphonuclear MDSC-subtypes that were recently described in cancer patients, and that both MDSC-subsets have the capacity to regulate alloreactive T-cell responses in-vitro. This study provides the basis for investigating the clinical relevance of MDSC and MDSC-subtypes in human allo-HSCT.

Recipient lymphocyte infusion in MHC-matched bone marrow chimeras induces a limited lymphohematopoietic host-versus-graft reactivity but a significant antileukemic effect mediated by CD8+ T cells and natural killer cells

BACKGROUND

Challenge of MHC-mismatched murine bone marrow chimeras with recipient-type lymphocytes (recipient lymphocyte infusion) produces antileukemic responses in association with rejection of donor chimerism. In contrast, MHC-matched chimeras resist eradication of donor chimerism by recipient lymphocyte infusion. Here, we investigated lymphohematopoietic host-versus-graft reactivity and antileukemic responses in the MHC-matched setting, which is reminiscent of the majority of clinical transplants.

DESIGN AND METHODS

We challenged C3H→AKR radiation chimeras with AKR-type splenocytes (i.e. recipient lymphocyte infusion) and BW5147.3 leukemia cells. We studied the kinetics of chimerism using flowcytometry and the mechanisms involved in antileukemic effects using in vivo antibody-mediated depletion of CD8(+) T and NK cells, and intracellular cytokine staining.

RESULTS

Whereas control chimeras showed progressive evolution towards high-level donor T-cell chimerism, recipient lymphocyte infusion chimeras showed a limited reduction of donor chimerism with delayed onset and long-term preservation of lower-level mixed chimerism. Recipient lymphocyte infusion chimeras nevertheless showed a significant survival benefit after leukemia challenge. In vivo antibody-mediated depletion experiments showed that both CD8(+) T cells and NK cells contribute to the antileukemic effect. Consistent with a role for NK cells, the proportion of IFN-γ producing NK cells in recipient lymphocyte infusion chimeras was significantly higher than in control chimeras.

CONCLUSIONS

In the MHC-matched setting, recipient lymphocyte infusion elicits lymphohematopoietic host-versus-graft reactivity that is limited but sufficient to provide an antileukemic effect, and this is dependent on CD8(+) T cells and NK cells. The data indicate that NK cells are activated as a bystander phenomenon during lymphohematopoietic T-cell alloreactivity and thus support a novel type of NK involvement in anti-tumor responses after post-transplant adoptive cell therapy.

Subclinical GvHD in non-irradiated F1 hybrids: severe lymphoid-tissue GvHD causing prolonged immune dysfunction

GvHD is an important complication of allogeneic hematopoietic SCT. Parent-in-F1 models are frequently used to study GvHD immunobiology; the characteristics of parent-in-F1 GvHD vary between strain combinations and induction protocols. Here, we observed that a high-dose challenge of non-irradiated B6DBA2F1 and B6SJLF1 recipients with C57BL/6 splenocytes left the majority of recipients clinically healthy, while inducing progressive high-grade donor T-cell chimerism. We investigated this previously undescribed pattern of parent-in-F1 T-cell alloreactivity and studied the effect of serial parental splenocyte infusions on epithelial and lymphohematopoietic tissues. The majority of recipients of 4 weekly splenocyte infusions showed long-term survival with gradual establishment of high-grade donor chimerism and without any signs of epithelial-tissue GvHD. A minority of recipients showed BM failure type of GvHD and, respectively, graft rejection. Moreover, long-term F1 chimeras showed protracted pancytopenia, and in peripheral lymphoid tissues severe lymphopenia and near-complete eradication of APCs and dysfunction in antigen-presenting capacity in remaining APC. Hematopoiesis and lymphoid tissue composition recovered only after multilineage donor chimerism had established. In conclusion, we report on a novel type of parent-in-F1 hybrid GvHD, where a cumulative high dose of C57BL/6 parental splenocytes in non-irradiated F1 mice induces subclinical but severe hematolymphoid-tissue GvHD, causing prolonged immuno-incompetence.

Murine bone marrow chimeras developing autoimmunity after CTLA-4-blockade show an expansion of T regulatory cells with an activated cytokine profile

Autoimmune adverse events are a concern in patients treated with blocking anti-CTLA-4-mAb for solid and hematological tumors. Patient and mouse data on the contribution of a quantitative or qualitative defect of regulatory T cells (T(reg)) in this autoimmune phenomenon are conflicting. We have previously shown that a treatment course with blocking anti-CTLA-4-mAb in murine allogeneic bone marrow chimeras induces an antileukemic response in close association with systemic autoimmunity. Here, we used this model to investigate the effect of CTLA-4-blocking therapy on the kinetics of T(reg) frequency and function. As previously published, CTLA-4-blocking treatment, initiated on day 20 after bone marrow transplantation, led to overt autoimmunity by day 35. CD4(+)Foxp3(+) T(reg) frequency was determined (flowcytometry) on day 21, 23, 25 and 35: treated chimeras showed an expansion of CD4(+)Foxp3(+) T(reg) frequencies on day 25 and 35, without a prior frequency decrease. The T(reg) expansion occurred selectively in the recipient-derived CD4+ T-cell compartment. In vitro, purified CD4(+)CD25(+)FR4(high) T(reg) from 'day 35' autoimmune and control chimeras showed equal suppressive effects towards self-antigen-specific autoimmune T cells. Purified CD4(+)CD25(high)FR4(high) T(reg) from 'day 35' treated chimeras showed increased IL-10 and IFN-gamma mRNA-expression (RT-PCR) relative to control chimeras. In this model of CTLA-4-blockade-induced autoimmunity after allogeneic bone marrow transplantation, anti-CTLA-4-mAb gives rise to a progressive expansion - without a prior transient reduction - of T(reg) cells. T(reg) of autoimmune animals do not show a defect in in vitro suppressive function but show an in vivo activated cytokine profile, suggesting that the expansion occurs as a compensatory phenomenon to control autoimmunity.

Allogeneic bone marrow transplantation and donor lymphocyte infusion in a mouse model of irradiation-induced myelodysplastic/myeloproliferation syndrome (MD/MPS): evidence for a graft-versus-MD/MPS effect

The role of graft-versus-malignancy reactivity in the effects of allogeneic hematopoietic stem cell transplantation and donor lymphocyte infusion (DLI) for myelodysplastic syndromes is as yet not well established. Clinical data are limited and animal models are scarce. Here, we report on the effects of allogeneic bone marrow transplantation (alloBMT) and DLI in a novel model of irradiation-induced murine myelodysplastic/myeloproliferation syndrome (MD/MPS). Total body irradiation with 8.5 Gy in SJL/J mice gave rise to a lethal wasting syndrome in 60% of mice, characterized by 1 degrees normocellular bone marrow with dysplastic features in erythroid, myeloid and megakaryocytic cell lineages, 2 degrees lymphosplenomegaly with spleens harboring a prominent extramedullary hematopoiesis with erythroid, myeloid and megakaryocytic lineages exhibiting dysplastic features, and foci of dysplastic hematomyelopoiesis in the liver, 3 degrees peripheral thrombocytopenia and 4 degrees evidence of disseminated infection or leukemic transformation in selected animals. This clinicopathological picture was consistent with a murine form of MD/MPS. Syngeneic or allogeneic (BALB/c) T cell-depleted BMT could not prevent the occurrence of lethal MD/MPS. In contrast, DLI at weeks 2-4 after BMT led to restoration of the dysbalanced hematomyelopoiesis. However, severe DLI-induced acute graft-versus-host disease occurred, precluding a survival advantage. We present evidence of the existence of a post-alloBMT DLI-induced graft-versus-MD/MPS effect in murine irradiation-induced MD/MPS.

Aminoacyl-tRNA synthetase inhibitors as potent and synergistic immunosuppressants

The aminoacyl-tRNA synthetase family of enzymes is the target of many antibacterials and inhibitors of eukaryotic hyperproliferation. In screening analogues of 5'-O-(N-L-aminoacyl)-sulfamoyladenosine containing all 20 proteinogenic amino acids, we found these compounds to have potent immunosuppressive activity. Also, we found that combinations of these compounds inhibited the immune response synergistically. Based on these data, analogues with modifications at the aminoacyl and ribose moieties were designed and evaluated, and several of these showed high immunosuppressive potency, with one compound having an IC50 of 80 nM, when tested in a cellular mixed lymphocyte reaction assay. Apart from showing the potential of aminoacyl-tRNA synthetase inhibitors as immunosuppressants, the current study also provides arguments for careful evaluation of the immunosuppressive activity of developmental antibacterials that target these enzymes.

Rapidly induced, T-cell–independent xenoantibody production is mediated by marginal zone B cells and requires help from NK cells

Xenoantibody production directed at a wide variety of T lymphocyte–dependent and T lymphocyte–independent xenoantigens remains the major immunologic obstacle for successful xenotransplantation. The B lymphocyte subpopulations and their helper factors, involved in T-cell–independent xenoantibody production are only partially understood, and their identification will contribute to the clinical applicability of xenotransplantation. Here we show, using models involving T-cell–deficient athymic recipient mice, that rapidly induced, T-cell–independent xenoantibody production is mediated by marginal zone B lymphocytes and requires help from natural killer (NK) cells. This collaboration neither required NK-cell–mediated IFN-γ production, nor NK-cell–mediated cytolytic killing of xenogeneic target cells. The T-cell–independent IgM xenoantibody response could be partially suppressed by CD40L blockade.

CTLA-4 blockade in murine bone marrow chimeras induces a host-derived antileukemic effect without graft-versus-host disease

We studied the effect of CTLA-4 blockade on graft-versus-leukemia and graft-versus-host responses in a mouse model of minor histocompatibility-mismatched bone marrow transplantation. Early CTLA-4 blockade induced acute graft-versus-host disease. Delayed CTLA-4 blockade resulted in a lethal condition with lymphosplenomegaly, but with stable mixed T-cell chimerism, unchanged alloreactive T-cell frequencies and absent anti-host reactivity in vitro. In contrast, multiorgan lymphoproliferative disease with autoimmune hepatitis and circulating anti-DNA auto-antibodies were documented. Splenic lymphocytes exhibited ex vivo spontaneous proliferation and a marked proliferative response against host-type dendritic cells pulsed with syngeneic (host-type) tissue-peptides. Both phenomena were exclusively mediated by host and not donor T cells, supporting an autoimmune pathogenesis. Selectively host-derived T-cell immune reactivity was equally documented against leukemia-peptide-pulsed dendritic cells, and this was paralleled by a strong in vivo antileukemic effect in anti-CTLA-4-treated and subsequently leukemia-challenged chimeras. In conclusion, delayed CTLA-4 blockade induced a host-derived antileukemic effect, occurring in the context of an autoimmune syndrome and strictly separated from graft-versus-host disease. Both antileukemic and autoimmune responses depended on the allogeneic component, as neither effect was seen after syngeneic bone marrow transplantation. Our findings reveal the potential of using CTLA-4 blockade to establish antileukemic effects after allogeneic hematopoietic stem cell transplantation, provided autoimmunity can be controlled.

Allogeneic bone marrow transplantation in models of experimental autoimmune encephalomyelitis: evidence for a graft-versus-autoimmunity effect

Autologous hematopoietic stem cell transplantation (HSCT) is being explored in the treatment of severe multiple sclerosis (MS), and is based on the concept of "resetting" the immune system. The use of allogeneic HSCT may offer additional advantages, such as the replacement of the autoreactive immune compartment by healthy allogeneic cells and development of a graft-versus-autoimmunity (GVA) effect. However, in clinical practice, the genetic susceptibility to MS of allogeneic stem cell donors is generally unknown, and GVA may therefore be an important mechanism of action. Experimental autoimmune encephalomyelitis (EAE)-susceptible and -resistant mouse strains were used to determine the roles of genetic susceptibility, level of donor-chimerism, and alloreactivity in the therapeutic potential of syngeneic versus allogeneic bone marrow transplant (BMT) for EAE. After transplantation and EAE induction, animals were evaluated for clinical EAE and ex vivo myelin oligodendrocyte glycoprotein-specific proliferation. Early after BMT, both syngeneic and allogeneic chimeras were protected from EAE development. On the longer term, allogeneic but not syngeneic BMT conferred protection, but this required high-level donor-chimerism from EAE-resistant donors. Importantly, when EAE-susceptible donors were used, robust protection from EAE was obtained when active alloreactivity, induced by donor lymphocyte infusions, was provided. Our findings indicate the requirement of a sufficient level of donor-chimerism from a nonsusceptible donor in the therapeutic effect of allogeneic BMT. Importantly, the data indicate that, independently of genetic susceptibility, active alloreactivity is associated with a GVA effect, thereby providing new evidence to support the potential role of allogeneic BMT in the treatment of MS.

Role of CD4+ and CD8+ T cells in the rejection of heart or islet xenografts in recipients with xenotolerance in the innate immune compartment

To further study the interactions between innate and adaptive immunity in xenotransplantation, we explored the relative contribution of T-cell subsets in vascularized (heart) and cellular (islets) xenografts in a model with established xeno-non-reactivity of the innate system.

MATERIALS

Specific innate xenotolerance was induced in xenoheart (hamster) recipients (nude rats) by a tolerizing regimen (TR), consisting of donor antigen infusion, temporary natural killer (NK)-cell depletion and a 4-week administration of leflunomide. Hamster pancreatic islets were transplanted either 1 week after heart transplantation or alone and syngeneic T-cell adoptive transfer was performed 10 days later. Purified CD3(+), CD4(+), and CD8(+) T cells were given 2 weeks after withdrawal of all drugs. At the day of rejection, xenografts were removed for histology. Serum was taken and IgM and IgG xenoantibody titers were measured by flow cytometry.

RESULTS

Both heart and islet grafts were rejected after CD4(+) reconstitution. After CD8(+) T-cell adoptive transfer, cellular grafts were not rejected but vascularized grafts were rejected, although only after several months. Rejection in CD4(+) reconstituted nude rats was accompanied by the generation of predominantly IgG xenoantibodies.

CONCLUSION

CD4(+) T lymphocytes are able to rapidly initiate the rejection of islet xenografts in the presence of a xenotolerant innate immune system either by breaking the "innate tolerance" (e.g., by activating macrophages and NK-cells) or through a mechanism without any involvement of the innate tolerance (e.g., T-dependent IgG antibody production). In contrast, CD8(+) T cells provoke a late rejection of only xenoheart grafts.

Early Presence of Regulatory Cells in Transplanted Rats Rendered Tolerant by Donor-Specific Blood Transfusion

Mechanisms by which donor-specific blood transfusion (DSBT) promotes organ allograft acceptance are unclear. In a rat fully mismatched cardiac allograft model, we found that DSBT alone (without immunotherapy) induces the development of regulatory T cells (DSBT-Tregs) posttransplant, thereby shedding new light in the mechanisms of the transfusion effect. Compartments and timing of expansion, requirements, and phenotype of DSBT-Tregs are unknown. It is generally assumed that some time is necessary before Tregs develop. However, we show-by adoptive transfer from DSBT-tolerant into naive recipients: 1) the presence of DSBT-Tregs at 5 days posttransplant in spleen and lymph nodes; 2) their gradual expansion in these compartments; and 3) their presence in the graft 14 of 30 days posttransplant. DSBT-Tregs are donor specific and do not protect third-party allografts. Splenocytes from DSBT-treated nontransplanted recipients or from transplanted DSBT-untreated (rejecting) recipients do not transfer tolerance, indicating that both DSBT and graft are required for sufficient numbers of DSBT-Tregs to develop. Thymectomy (or splenectomy) before DSBT (not at transplantation) abrogate DSBT-Tregs generation and tolerance, showing that thymus (and spleen) are required for DSBT-Tregs generation (not for expansion/maintenance). In contrast with other Tregs models, DSBT-Tregs activity is not restricted to CD4(+)CD25(+) but to CD4(+)CD45RC(-) cells, whereas CD4(+)CD45RC(+) cells act as effector cells and accelerate rejection. In conclusion, DSBT alone induces-rapidly posttransplant-the development of alloantigen-specific Tregs in lymphoid tissues and in the graft. DSBT, graft, thymus, and spleen are required for DSBT-Tregs generation. DSBT-Tregs in this model are CD4(+)CD45RC(-) (identical to Tregs protecting from autoimmunity in rats).

Induction and Maintenance of T-dependent or T-independent Xenotolerance by Nonprimarily-Vascularized Skin or Thymus Grafts

BACKGROUND

The success of clinical xenotransplantation will depend on induction of xenotolerance. We have previously shown that combined xenothymus and vascularized xenoheart transplantation under the coverage of a tolerizing regimen (TR) can induce and maintain full xenotolerance. Here, induction/maintenance of xenotolerance using nonprimarily-vascularized thymus and/or skin grafts was investigated.

MATERIALS AND METHODS

Hamster skin or thymus or combined skin and thymus transplantation was performed in nude rat recipients with or without administering a TR (NK cell depletion, day -14; xenoantigen infusion, day -14; Leflunomide, day -14 through +14). Xenotolerance was confirmed by subsequent transplantation of a vascularized hamster heart, measurement of xenoantibody formation, or mixed lymphocyte reaction (MLR).

RESULTS

Skin grafts were as effective as vascularized heart grafts to induce/maintain T-independent xenotolerance. Even without TR and despite being rejected themselves, xenoskin grafts lead to progressively developing xenononreactivity. Xenothymus transplantation induced xenotolerance in the T-dependent but not in the T-independent immune compartment, leading to rejection of subsequently transplanted hamster hearts by T-independent mechanisms (production of IgM but not IgG xenoantibodies (Xabs), presence of antihamster MLR nonresponsiveness). Combined skin and thymus xenotransplantation sensitized the T-cell compartment, leading to hyperacute rejection of subsequently transplanted hamster hearts. This was not the case when the skin grafts were transplanted late (2 months) after the thymus grafts.

CONCLUSIONS

Xenogeneic skin and xenogeneic thymus grafts have opposite xenotolerance inducing capacities in the T-independent as compared to the T-dependent immune compartment. Thymus grafts induce and maintain T-dependent but not T-independent xenotolerance. Skin grafts alone induce T-independent xenotolerance but sensitize the T-cell compartment when transplanted concomitantly with thymus grafts.

Effects of a Short Course of Leflunomide on T-Independent B-Lymphocyte Xenoreactivity and on Susceptibility of Xenografts to Acute or Chronic Rejection

BACKGROUND

Leflunomide is a novel immunosuppressive agent with promising activity for xenotransplantation. It is not clear yet which mechanisms of action of leflunomide are responsible for that.

METHODS

In a hamster-to-C57BL/6 nude mouse heart transplantation model, a 2-week course of leflunomide was used after transplantation or for pretreating donors. Nontolerant B lymphocytes were transferred to recipients after transplantation of first or second xenogeneic heart grafts that were transplanted with or without leflunomide treatment.

RESULTS

Hamster xenogeneic hearts transplanted into athymic C57BL/6 nude mice receiving leflunomide did not induce immunoglobulin (Ig) M xenoantibodies (XAb) and survived without signs of chronic rejection. Second xenogeneic hearts transplanted 4 weeks after withdrawal of leflunomide survived without induction of XAb but developed chronic vascular lesions. After injection of naive B lymphocytes at 6 weeks after grafting a first or second hamster heart, only in the latter case were XAb induced. These were deposited in, and provoked acute rejection of, only the second grafts. Pretreatment of donors with leflunomide decreased the ex vivo xenoantibody deposition on the xenogeneic heart endothelia.

CONCLUSIONS

A short posttransplant course of leflunomide induces T-independent B-lymphocyte xenotolerance. Leflunomide treatment also influences xenoantigen expression, as nontolerant B lymphocytes provoke IgM XAb formation and rejection of only second xenografts (transplanted without leflunomide) and not of first xenografts (transplanted with leflunomide treatment). The ex vivo experiments that show that XAb deposition is decreased in leflunomide-pretreated xenografts further confirm this. The latter may also explain the resistance of first and not second xenografts against chronic rejection.

Early Accumulation of Interferon-?? in Grafts Tolerized by Donor-Specific Blood Transfusion: Friend or Enemy?

BACKGROUND

We previously documented an early (day-2) interferon (IFN)-gamma accumulation in cardiac allografts of rats made tolerant by donor-specific blood transfusion (DSBT) but not in rejecting controls. This contrasted with the IFN-gamma peak seen later (day 5) in rejecting but not in tolerant rats.

METHODS

To further examine the role of early intragraft IFN-gamma in DSBT-induced tolerance, we studied whether IFN-gamma up-regulation correlates with the magnitude of the DSBT effect and how IFN-gamma is influenced by interventions abrogating tolerance.

RESULTS

The protective effect of DSBT depended upon the timing of administration: day-12 DSBT induced indefinite graft survival; day-6 DSBT gave a moderate, and day-0 DSBT, no graft prolongation. IFN-gamma up-regulation correlated with the DSBT effect: it was maximal after day-12 DSBT, intermediate after day-6 DSBT, and absent after day-0 DSBT. Tolerant splenocytes transferred tolerance into naive rats in a donor-specific manner, indicating that alloantigen-specific regulatory cells operate. Thymectomy prevented regulatory cells development, caused further amplification of intragraft IFN-gamma, and led to rejection, although graft survival was still prolonged.

CONCLUSIONS

Day 2 intragraft IFN-gamma correlates with the DSBT protective effect. Thymectomy abrogates DSBT-induced tolerance, prevents regulatory cell development, and paradoxically causes further accumulation of intragraft IFN-gamma. These data indicate that DSBT has a stimulatory and a (thymus-dependent) inhibitory effect on early intragraft IFN-gamma. Intragraft IFN-gamma is beneficial, providing it occurs early and remains moderate. The role of intragraft IFN-gamma in tolerance and rejection depends upon the timing and the degree of production and perhaps the type of IFN-gamma producing cells (regulatory or effector).

Transient expansion of Mac1+Ly6-G+Ly6-C+ early myeloid cells with suppressor activity in spleens of murine radiation marrow chimeras: possible implications for the graft-versus-host and graft-versus-leukemia reactivity of donor lymphocyte infusions

A murine model of minor histocompatibility antigen (miHCag)-mismatched bone marrow transplantation (BMT) was used to study the development of immunoregulatory cells in the posttransplantation period and their possible involvement in the dissociated graft-versus-host (GVH) and graft-versus-leukemia (GVL) reactivity of posttransplantation donor lymphocyte infusions (DLIs). DLI, applied immediately after BMT, induced GVH disease (GVHD), but when DLI was delayed for 3 weeks, GVHD was avoided while a distinct GVL response was allowed to develop. A population of Mac1+Ly6-G+Ly6-C+ immature myeloid cells, found in small numbers in normal mice, strongly expanded in spleens of chimeras, reaching a maximum level at week 3 and returning to base level by week 12. Upon isolation, these cells exhibited interferon-gamma (IFN-gamma)-dependent, nitric oxide (NO)-mediated suppressor activity toward in vitro alloresponses, suggesting that, after in vivo DLI, they are activated by IFN-gamma to produce NO and suppress GVH reactivity. Because not only alloactivated T-cell proliferation but also leukemia cell growth was found susceptible to inhibition by exogenous NO, in vivo activation of these cells after DLI may explain the occurrence of a GVL effect despite suppression of GVHD. This suggested sequence of events was supported by the finding that the ex vivo antihost proliferative response of spleen cells, recovered shortly after in vivo DLI, was characterized by strong mRNA production of the monokines interleukin-1 (IL-1), IL-6, and tumor necrosis factor-alpha (TNF-alpha) and of inducible nitric oxide synthase (iNOS). Our data suggest that transiently expanding Mac1+Ly6-G+Ly6-C+ immature myeloid cells (probably as a result of extramedullary myelopoiesis) may play a role in controlling GVH while promoting GVL reactivity of DLI after allogeneic BMT.

Pathogenesis of autoimmunity after xenogeneic thymus transplantation

Thymus transplantation is a promising strategy to induce xenotolerance, but may also induce an autoimmune syndrome (AIS). The pathogenesis of this AIS was explored using nude rats as recipients. Thymus grafts consisted of fetal hamster thymic tissue with or without mixing with fetal rat tissue such as thymus, thyroid, salivary gland, and heart. All hamster thymus recipients died of AIS within 2-3 mo. In most recipients of xenothymus mixed with rat tissues such as thymus, thyroid, and salivary gland, but not heart, AIS was prevented, indicating an insufficient presence of rat epithelial cell Ags within the xenothymus. AIS could be transferred to control nude rats by whole splenocytes or by splenocyte subpopulations such as CD3(+), CD3(-), and B lymphocytes, but not by non-T, non-B cells from AIS animals. This transfer could be suppressed by cotransferring either CD4(+) or CD8(+) lymphocytes from euthymic rats, but not by splenocytes from recipients of syngeneic or xenogeneic thymus mixed with rat tissue, indicating a defective generation of regulatory lymphocytes. As for CD4(+) regulatory cells this defect was probably qualitative, because the percentages of CD4(+)CD25(+) or CD4(+)CD45RC(low) populations were normal after xenothymus transplantation. As for the CD8(+) regulatory cells, the defect was quantitative, as CD8(+) cell levels always remained low. The latter was related to the nonvascularized nature of thymus grafts. In conclusion, AIS after xenothymus transplantation in nude rats is due to a combination of insufficient intrathymic presence of host-type epithelial cell Ags and a defective generation of regulatory T lymphocytes.

The effect of FTY 720 on engraftment in a model of spontaneous allograft acceptance

Further development in organ transplantation requires the utilization of new immunosuppressive drugs that-in addition to being effective against rejection-do not block tolerance. We previously reported that FTY 720, a drug that alters lymphocyte trafficking, has marked anti-rejection properties. We now investigate how FTY 720 influences tolerance in a model of graft acceptance by donor-specific blood transfusion (DSBT). Two different transplant models--heart transplantation (Htx) and intestinal transplantation (Itx)--were studied. We performed orthotopic Itx and heterotopic Htx using fully mismatched inbred male RA (RT1(p)) and PVG (RT1(c)) rats as donors and recipients. Tolerance was induced by DSBT on pre-transplant day -12. To test the effect of FTY 720 on DSBT-induced tolerance, we administered FTY 720 orally prior to DSBT. Itx: control rats succumbed to rejection at 18+/-4 days. DSBT alone prolonged survival to 101.9+/-18 days (P<0.05 vs untreated). Long-term survivors were tolerant (acceptance of secondary donor-specific Htx). Adjunction of FTY 720 prior to DSBT reduced survival to 55.9+/-44.7 days (P<0.05). However, long-term survivors still accepted secondary donor-specific Htx. Htx: control rats survived 9+/-0.6 days. DSBT alone prolonged survival indefinitely (>120 days) and induced tolerance (acceptance of secondary donor-specific Htx). Unlike in Itx, adjunction of FTY 720 prior to DSBT did not reduce Htx survival. Acceptance of secondary donor-specific Htx was not influenced by FTY 720. In Itx, FTY 720 counteracts the beneficial effect of pre-transplant DSBT and triggers acute rejection of primary, but not secondary grafts. In Htx, however, FTY 720 allows full development of tolerance. The mechanisms by which FTY 720 causes rejection in primary intestinal but not in heart grafts need to be elucidated.

FTY720, an immunosuppressant that alters lymphocyte trafficking, abrogates chronic rejection in combination with cyclosporine A

BACKGROUND

Chronic rejection remains the leading cause of failure after transplantation (Tx). FTY720, a new immunosuppressant altering lymphocyte trafficking, is effective against acute rejection, but its activity against chronic rejection is not known.

METHODS

A valid model of chronic rejection was produced. Heart transplantation (HTx) was performed using fully mismatched RA (RT1p) and PVG (RT1c) rats. Administration of donor-specific blood transfusion 12 days before HTx prolongs graft survival, but features of chronic rejection including intimal hyperplasia and vascular obliteration (VO) develop with time only in allogeneic Tx. This is therefore a valid model of chronic rejection. VO was assessed on post-Tx day 90 in six groups differing according to the maintenance immunosuppressive regimen administered. group 1, donor-specific blood transfusion only and no other treatment; group 2, FTY720 (0.3 mg/kg/day orally) for 90 days; group 3, cyclosporine A (CsA) (1 mg/kg/day orally) for 90 days; group 4, combined administration of FTY720 and CsA for 90 days; group 5, transient administration of combined FTY720 and CsA for 7 days; and group 6, syngeneic HTx (RA to RA). Graft infiltrate, endothelial immunoglobulin (Ig) G deposition, and complement binding were also examined on post-Tx day 90.

RESULTS

In control group 1, severe VO was observed, compared with syngeneic HTx (group 6). Monotherapy with FTY720 (group 2) or with CsA (group 3) significantly but partially reduced VO. On the contrary, combined administration of FTY720 and CsA (group 4) abrogated VO. A 1-week treatment with combined FTY720 and CsA (group 5) reduced VO but only partially. In group 1, arteriosclerosis was accompanied by graft infiltrate, endothelial IgG deposition, and complement binding. In groups 2, 3, and 5, graft infiltrating scores were partially decreased compared with group 1 but remained higher than in syngeneic controls; endothelial IgG deposition and complement binding were still present. In group 4, continuous administration of combined FTY720 and CsA reduced graft infiltrate to the level of syngeneic control and abrogated both endothelial IgG deposition and complement binding.

CONCLUSIONS

Maintenance treatment with either FTY720 or CsA monotherapy partially prevents chronic rejection; short-term treatment with combined FTY720 and CsA reduces chronic rejection only partially; and continuous treatment with combined FTY720 and CsA abrogates chronic rejection, and this is accompanied by dramatic reduction of graft infiltrating cells, endothelial IgG deposition, and complement binding. Prevention of chronic rejection by maintenance treatment with FTY720 and CsA represents indirect evidence that normal lymphocyte trafficking and function are mandatory for development of chronic rejection.

Paradoxical early upregulation of intragraft Th1 cytokines is associated with graft acceptance following donor-specific blood transfusion

Donor-specific blood transfusion (DSBT) promotes graft acceptance in certain experimental and clinical situations. However, the exact nature of the operating mechanisms, and in particular the role of Th1/Th2 cytokines, remains controversial. We recently described a fully mismatched rat combination [RA rat (RT1p) to PVG rat (RT1c)] in which a single pre-transplant (Tx) DSBT induces donor-specific tolerance following heart transplantation (Htx). In order to delineate better the role of Th1 and Th2 cytokines in the development of tolerance versus rejection, we studied the intragraft mRNA for Th1 and Th2 cytokines at different time points post-Tx in rejecting and DSBT-tolerized heart grafts. We performed reverse transcriptase-polymerase chain reaction (RT-PCR) to examine intragraft Th1/Th2 cytokines profile. In contrast to findings from previous data, we detected an early (post-Tx day 2) Th1 cytokine upregulation. Th1 downregulation/Th2 immune deviation was observed only at a later period (post-Tx day 30). Consistent with this Th1 early upregulation, a dense mononuclear cellular infiltrate was seen in tolerized grafts, which was equivalent to that seen in rejecting grafts. Despite in vivo unresponsiveness, peripheral lymphocyte derived from tolerant animals proliferated against donor-matched antigens to the same degree as against those of a third party until post-Tx day 30. Altogether, these observations (dense graft cellular infiltrate, early post-Tx Th1 cytokine production, early preserved cellular proliferative responses), suggest that the development of tolerance is preceded by an active Th1 cytokine-mediated immune response. The mechanisms by which an early Th1 response promotes tolerance need to be further studied.

Crucial role of timing of donor lymphocyte infusion in generating dissociated graft-versus-host and graft-versus-leukemia responses in mice receiving allogeneic bone marrow transplants

A murine model of minor histocompatibility antigen-mismatched bone marrow transplantation (BMT) was used to study the role of timing of donor lymphocyte infusion (DLI) in eliciting graft-versus-host (GVH) and graft-versus-leukemia (GVL) reactivity. We gave DLI at weeks 3 and 12 after BMT and related its ability to induce a GVL effect with (1) evolution of T cell chimeric status and (2) the extent to which DLI could elicit lymphohematopoietic GVH (LHGVH) reactivity. All mice remained free of GVH disease, but only week 3 DLI chimeras exhibited a significant GVL response when challenged with host-type leukemia cells. In these week 3 DLI chimeras, host-reactive T cells were found to proliferate in vivo (5- [and-6]-carboxyfluorescein diacetate, succinimidyl esther [CFSE]-labeled DLI inocula, TCR-Vbeta6(+) T-cell frequency) and T-cell chimerism rapidly converted from mixed into complete donor type, indicating the occurrence of LHGVH reactivity. In week 12 chimeras, DLI elicited none of the activities noted at week 3. Yet, in both instances, splenocytes, recovered following DLI, generated an equally strong antihost proliferative response in a mixed lymphocyte reaction, thereby arguing against a decisive role of regulatory cells. The lack of in vivo LHGVH reactivity after week 12 DLI was associated with a substantially increased level of pre-existing host-type T-cell chimerism. We conclude that elicitation of a GVL effect may require LHGVH reactivity and that the reason why timing of DLI was critical for obtaining LHGVH reactivity and the desired GVL effect may lie in the evolution of chimeric status. A possible direct involvement of residual host-type antigen-presenting cells in eliciting LHGVH reactivity after DLI should be studied using models that allow chimerism analysis in non-T-cell lineages.

Transplantation tolerance and autoimmunity after xenogeneic thymus transplantation

Successful grafting of vascularized xenografts (Xgs) depends on the ability to reliably induce both T cell-independent and -dependent immune tolerance. After temporary NK cell depletion, B cell suppression, and pretransplant infusion of donor Ags, athymic rats simultaneously transplanted with hamster heart and thymus Xgs developed immunocompetent rat-derived T cells that tolerated the hamster Xgs but provoked multiple-organ autoimmunity. The autoimmune syndrome was probably due to an insufficient development of tolerance for some rat organs; for example, it led to thyroiditis in the recipient rat thyroid, but not in simultaneously transplanted donor hamster thyroid. Moreover, grafting a mixed hamster/rat thymic epithelial cell graft could prevent the autoimmune syndrome. These experiments indicate that host-type thymic epithelial cells may be essential for the establishment of complete self-tolerance and that mixed host/donor thymus grafts may induce T cell xenotolerance while maintaining self-tolerance in the recipient.

Transforming growth factor-beta inhibits lymphokine activated killer cytotoxicity of bone marrow cells: implications for the graft-versus-leukemia effect in irradiation allogeneic bone marrow chimeras

BACKGROUND

We have previously shown that allogeneic bone marrow (BM) chimeras preconditioned with total lymphoid irradiation and low-dose total body irradiation (TLI/TBI) develop a stronger graft-versus-leukemia (GVL) effect than chimeras preconditioned with high-dose total body irradiation only (TBI). Here, we report on the possible role of cytokines in the mechanism underlying this GVL effect.

METHODS

Splenic mRNA levels of the cytokines interleukin (IL)-1, IL-2, IL-4, IL-6, IL-7, IL-10, IL-12, IL-15, interferon-gamma, tumor necrosis factor-alpha, and transforming growth factor-beta (TGF-beta), and of inducible nitric oxide synthetase were determined by reverse transcription-polymerase chain reaction in TLI/TBI- or TBI-conditioned C3H/AKR BM chimeras challenged with AKR-type BW5147.3 leukemia cells. Ex vivo TGF-beta protein production by splenocytes was determined using ELISA. The possibility that cytokines influence the GVL effect by modulating the activity of IL-2-activated lymphocytes (LAK cells) was investigated by in vitro assays on donor-type BM cells.

RESULTS

Of all cytokine mRNA levels studied, those of TGF-beta and IL-7 were different between groups; both were significantly more elevated in TBI- than in TLI/ TBI-conditioned or normal mice. Differences were apparent after conditioning and were not influenced by additionally injected BM or leukemia cells. Cultured splenocytes of TBI-conditioned animals produced significantly more TGF-beta protein than those of TLI/TBI-conditioned ones or normal controls. r-TGF-beta but not r-IL-7 suppressed in vitro LAK activity of donor-type BM cells against BW5147.3 cells in a dose-dependent way.

CONCLUSIONS

High-dose TBI-induced, host-derived splenic TGF-beta may inhibit generation of LAK cells from subsequently transplanted donor BM cells, suppressing their capacity to generate cytotoxicity upon injection of leukemia cells. The cytokine profile, induced by irradiation in host hematopoietic organs, can significantly modify posttransplant immunological processes such as the GVL effect and graft-versus-host disease (GVHD).

1alpha,25-dihydroxyvitamin D3 induces an autoantigen-specific T-helper 1/T-helper 2 immune shift in NOD mice immunized with GAD65 (p524-543)

Prevention of type 1 diabetes in NOD mice by 1,25-dihydroxyvitamin D3 [1alpha,25(OH)2D3] is accompanied by a T-helper (Th) 1/Th2 cytokine shift in the pancreas. The aim of this study was to investigate whether this immune shift also occurs outside of the pancreas and whether it is limited to autoantigen-specific immune responses. NOD mice treated with 1alpha,25(OH)2D3 (5 microg/kg every 2 days) or control vehicle were immunized with GAD65 (p524-543) or ovalbumin (OVA) in the rear footpads. First, we examined T-cell proliferation and cytokine production (via enzyme-linked immunosorbent assay) of draining lymph node cells in vitro with or without peptide rechallenge. Although no differences in proliferation were measured between control and 1alpha,25(OH)2D3-treated mice after in vitro GAD65 rechallenge, a marked shift in cytokine secretion profile was seen in 1alpha,25(OH)2D3-treated mice: interleukin-4 was increased (37 +/- 5 vs. 21 +/- 12 pg/ml in controls, P < 0.005), whereas gamma-interferon levels were decreased (6 +/- 3 vs. 9 +/- 3 ng/ml in controls, P < 0.05). This shift was absent in OVA-primed mice. Second, we measured cytokine profiles by reverse transcriptase-polymerase chain reaction in popliteal lymph nodes at different time points after priming with GAD65 or OVA in vivo. A marked Th1/Th2 shift occurred in 1alpha,25(OH)2D3-treated mice after in vivo priming with GAD65. Again, this shift was absent after OVA immunization. Finally, we measured cytokine profiles after rechallenge with a panel of autoantigens (GAD65, heat shock protein 65, insulin B-chain) and control antigens (OVA, keyhole limpet hemocyanine, myelin proteolipid protein, tetanus toxin) and confirmed the Th1/Th2 shift in autoantigen-injected mice but not in control antigen-injected mice. In conclusion, the immune deviation induced by 1alpha,25(OH)2D3 in NOD mice can also be induced in the peripheral immune system but is limited to pancreatic autoantigens.

Natural killer cell- and macrophage mediated discordant guinea pig-->rat xenograft rejection in the absence of complement, xenoantibody and T cell immunity

BACKGROUND

The role of natural killer (NK) cells and macrophages (Møs) in the absence of T cell immunity in discordant xenograft (xg) rejection was investigated.

METHODS

Guinea pig hearts were transplanted into athymic nude rats receiving no treatment or antixenoantibody (xAb), anticomplement (C), antinatural killer (NK) cell therapy (antiasialo GM1 [anti-ASGM1]) or their combinations. For anti-xAb therapy, natural xAbs were absorbed/neutralized by pretransplant guinea pig blood transfusion (pGPBT), followed by administration of the malononitriloamide MNA715. Cobra venom factor (CVF) was administered as anti-C therapy. FACScan analysis and a standard cytotoxicity assay determined NK cell number and cytotoxicity, respectively. ELISA and the CH50 assay measured titers of xAb and C activity, respectively. Rejected Xgs were examined by light microscopy and by immunohistochemistry.

RESULTS

All hyperacutely (15+/-4 min) rejected Xgs from untreated rats showed deposits of C3 and IgM without cellular infiltrates. Combined anti-xAb and anti-C (pGPBT/MNA715/CVF) treatment significantly prolonged the survival of Xgs (3.7+/-0.6 days, P<0.001 vs. control group) showing NK cell and Mø infiltration without deposition of xAbs or C3. NK cell depletion (day -12) followed by exposure of recovering NK cells to the guinea pig antigens failed to induce specific NK cell nonresponsiveness and to further prolong xg survival in combined anti-xAb/anti-C group. In contrast, adding of continuous and repetitive depletion of NK cells significantly further prolonged xg survival to 7.4+/-0.5 days (P<0,001 vs. the anti-xAb/anti-C group) with rejected Xgs densely infiltrated by activated Møs without involvement of NK cells, C or xAbs.

CONCLUSIONS

When xAb and C are suppressed in the discordant guinea pig-into-nude rat model, NK cells play an important role in xg rejection. When also NK cells are suppressed, activated Møs seem to reject discordant Xgs. The induction of specific NK cell nonresponsiveness fails in the guinea pig-into-rat combination.

Immunomodulatory effects of pretransplant donor blood transfusion on T-cell-independent xenoreactive immunity

BACKGROUND

Pretransplant blood transfusions have beneficial effects on both clinical and experimental allograft survival. In the present study, we examined whether pretransplant hamster blood transfusions (pHBT) alone or together with peritransfusion immunosuppressive strategies designed to target B cells and/or natural killer (NK) cells, could modulate T cell-independent (T-I) xenoreactivity in athymic nude rats.

METHODS

Hamster or mouse hearts were heterotopically xenotransplanted into untreated or treated athymic nude rats receiving either pHBT, anti-B cell or anti-NK cell therapy alone or their combinations. Xenoreactive antibodies (xAbs) and the percentage of NK cells were analyzed by FACScan analysis. NK cytotoxicity was measured by a standard 4 hr 51Cr release assay. Xenografts (Xgs) were examined by hematoxylin-eosin (H&E), by light microscopic method with Masson's trichrome and orcein staining, by immunofluorescent staining for immunoglobulin M and C3 deposition, and by immunohistochemical staining for infiltration of NK cells and macrophages (Mphis).

RESULTS

In 1 of 6 rats given pHBT alone 2 weeks before receiving hamster xenografts, Xg survival was prolonged to 55 days compared with 3.0+/-1.2 days in the other 5 animals and with 3.0+/-0.6 days in untreated animals. In the 55 days, surviving Xg infiltration of Mphis and NK cells was seen together with severe signs of chronic rejection, such as fibrosis and obliterative vasculopathy. The addition of the anti-B cell immunosuppressant MNA715 (malononitriloamide x920715, 20 mg/kg/day) from day -14 to day +14 or of 100 microL of rabbit anti-asialo GM1 serum ([anti-ASGM1] an NK cell depleting antibody) on day -14 resulted in a significant and species-specific prolongation of the survival of hamster Xgs, respectively 59.8+/-9.6 days and 58.2+/-14.7 days (P<0.001 vs. control group), but not of mouse heart Xgs that were rejected in a normal tempo. All prolonged hamster Xgs were infiltrated with Mphis and NK cells and developed severe lesions of chronic rejection, such as fibrosis and obliterative vasculopathy. In contrast, MNA715 or anti-ASGM1 alone had no effect on Xg survival (4.8+/-1.7 days and 2.7+/-0.6 days, respectively). Combined MNA715/anti-ASGM1 treatment only moderately promoted Xg survival (10+/-5.0 days; P<0.001). A simultaneous administration of pHBT, MNA715, and anti-ASGM1 induced indefinite and species-specific Xg survival in all recipients. In vivo and in vitro studies demonstrated that both T-I B cell and NK cell species-specific xenotolerance were achieved.

CONCLUSIONS

Pretransplant blood transfusion may have a species-specific immunomodulatory effect on T-I xenoreactivity. This effect is further enhanced by a temporary co-administration of MNA715 or by a single injection of anti-ASGM1. A combination of pHBT, MNA715, and anti-ASGM1 induces species-specific T-I xenotolerance.

Identification and immune regulation of 25-hydroxyvitamin D-1-alpha-hydroxylase in murine macrophages

Receptors for 1,25(OH)2vitaminD3 are found in most immune cells and important immunological effects have been described in vitro, reflected by its capacity to prevent autoimmunity and to prolong graft survival. The aim of this study was to examine the presence and nature of the enzyme responsible for final activation of the molecule, 1-alpha-hydroxylase, in murine macrophages and to analyse its regulation and possible role in the immune system. Peritoneal macrophages from C57Bl/6 mice were incubated with lipopolysaccharide (LPS; 100 microg/ml), interferon-gamma (IFN-gamma; 500 U/ml) or a combination of both. By quantitative reverse transcriptase-polymerase chain reaction, using primers based on the murine renal cDNA sequence, low levels of 1-alpha-hydroxylase mRNA were detected in freshly isolated cells (18 +/- 7 x 10-6 copies/beta-actin copies). Analysis of the cDNA sequence of the gene revealed identical coding sequences for the macrophage and renal enzymes. mRNA levels rose three-fold with LPS (NS), but a six-fold increase was seen after IFN-gamma stimulation (P < 0.05). Combining LPS and IFN-gamma did not result in a major additional increase, but addition of cyclosporin A further increased levels 2.5-fold both in IFN-gamma- and combination-stimulated cells (P < 0.05). Time course analysis revealed that up-regulation of 1-alpha-hydroxylase was a late phenomenon, preceded by the up-regulation of activating macrophage products such as IL-1 and tumour necrosis factor-alpha. Finally, a defect in 1-alpha-hydroxylase up-regulation by immune stimuli was found in autoimmune non-obese diabetic mice. In conclusion, we propose that the up-regulation of 1-alpha-hydroxylase in activated macrophages, resulting in the synthesis of 1,25(OH)2D3, might be a negative feedback loop in inflammation. A defect in this system might be an additional element in tipping the balance towards autoimmunity.

Influence of the additional injection of host-type bone marrow on the immune tolerance of minor antigen-mismatched chimeras: possible involvement of double-negative (natural killer) T cells

BACKGROUND

It has previously been demonstrated that adding T cell-depleted (TCD) host bone marrow (BM) to an MHC-mismatched BM inoculum allows for induction of long-term stable chimeras without graft-versus-host disease (GVHD) even when non-TCD allogeneic BM was used.

AIMS

The present study was undertaken to investigate immune tolerance mechanisms in minor antigen-mismatched allogeneic BM chimeras when host-type BM was added to the BM inoculum.

METHODS

C3H (H2k, Thy 1.2, Mls 2a) recipients were conditioned with 9.5 gray (Gy) of total body irradiation. To exclude any interference with possible subclinical GVHD, 5x10(6) TCD AKR (H2k, Thy 1.1, Mls 1a) BM cells were injected with (syn + allo) or without (allo) 5x 10(6) TCD C3H BM cells. Chimerism, clonal deletion, and T lymphocyte subsets were scored using FACS and anti-mouse Thy, Vbeta6, Vbeta3, CD3, CD4, or CD8 monoclonal antibodies. The stability of tolerance was studied by investigating mixed lymphocyte reaction and cytotoxic T cell induction in chimeras after immunization with host, donor, or third-party (BALB/c) splenocytes. Breaking of chimerism was attempted by injecting nontolerant 40x10(6) host-type splenocytes 2 months after BM transplantation. Cytokines and Valpha14 mRNA were assayed using real time quantitative reverse transcriptase-polymerase chain reaction at 4 and 48 hr, respectively, after injection of nontolerant host-type splenocytes.

RESULTS

Both groups of mice became long-term stable mixed chimeras without any clinical sign of GVHD. Neither group was able to produce antihost nor antidonor cytotoxic T cells, even after immunization. The addition of syngeneic BM to the allogeneic inoculum reduced the overall level of allogeneic chimerism (from approximately 70% or approximately 85% in peripheral blood lymphocytes and spleen, respectively, in allo chimeras versus approximately 35% and approximately 60% in syn + allo chimeras). Moreover, it resulted in complete clonal deletion of both host-reactive (Vbeta3) and donor-reactive (Vbeta6) lymphocytes in syn + allo chimeras in contrast to in allo chimeras, in which only donor-reactive lymphocytes were completely deleted. After nontolerant C3H splenocyte injection, high levels of interleukin 2 mRNA were produced and chimerism decreased in syn + allo chimeras. In contrast, in allo chimeras, this maneuver was followed by the production of higher levels of interleukin 4 and interferon-gamma, and of Valpha14 mRNA, as well as by the proliferation of CD3+CD4-CD8- (double-negative) T cells and by an increase of donor chimerism.

CONCLUSION

The addition of host-type BM to the allogeneic inoculum has an influence on the level of chimerism, the extent of clonal deletion, and the reaction of chimeras after the injection of nontolerant host-type splenocytes. In the latter phenomenon, cytokine production and proliferation of Valpha14+ CD3+CD4-CD8- (double-negative, natural killer T) lymphocytes may be involved.

Maintenance and reversibility of natural killer cell- and T cell-independent B lymphocyte xenotolerance in athymic nude rats

BACKGROUND

We previously described that a tolerogeneic regimen (TR) including (1) the infusion of a minced hamster heart suspension (MHH), (2) a single injection of an anti-natural killer (NK) cell serum (rabbit anti-asialo GM1 serum), and (3) a 4-week course of the B cell immunosuppressant leflunomide (20 mg/kg/ day) induced T cell-independent (T-I) B lymphocyte and NK cell tolerance for hamster xenoantigens in T-deficient athymic nude rats. In addition, the TR allowed for long-term hamster cardiac xenograft (Xg) survival when Xgs were transplanted 2 weeks (Day 0) after the initiation of the TR (started on Day - 14). The present study was undertaken to investigate some of the characteristics of this T-I xenotolerance in more detail.

METHODS

To investigate the duration of the effect of the TR on the T-I xenotolerance, hamster Xgs were transplanted at various times after initiation of the TR. To investigate whether the maintenance of the T-I xenotolerance depended on the presence of the graft, tolerated Xgs were removed on Day +28, and the subsequent evolution of the T-I xenotolerance as well as of second hamster Xg was followed. In addition, the reversibility of NK cell nonresponsiveness by recombinant interleukin-2 was investigated in vitro.

RESULTS

Xgs transplanted on day 0 or Day +7 showed long-term survival. However, all Xgs transplanted on Day +15, +30, and +60 were rapidly rejected. The latter rejection occurred in the absence of formation of anti-hamster immunoglobulin (Ig)M xenoreactive antibodies (xAbs) but correlated with the recovery of anti-hamster NK cell reactivity from day +14 on. Rejected Xgs showed infiltration of NK cells but absence of IgM xAbs or complement factor deposition. When tolerated first Xgs (transplanted on Day 0) were removed on Day +28, second hamster Xgs survived without treatment when transplanted 1 or 2 weeks later. However, second hamster Xgs transplanted 3 weeks after removal of the first Xgs were all rapidly rejected. Again, the latter rejection was characterized by the infiltration of the Xgs with NK cells and by the absence of anti-hamster IgM xAbs formation. Xenoreactive NK cell nonresponsiveness was not only shorter than xenoreactive B cell nonresponsiveness, but was also more fragile. This was evident from the fact that after addition of recombinant interleukin-2 in vitro, specific anti-hamster NK nonresponsiveness was easily broken.

CONCLUSIONS

NK cell and T-I B cell xenotolerance can be induced in T-deficient rats. Compared with B cell xenotolerance, the maintenance of NK cell xenotolerance is much shorter, more dependent on the presence of the graft, and easily reversible in vitro.

Induction of T-independent xenotolerance in a semi-discordant hamster-to-presensitized, nude rat model

BACKGROUND

We have previously demonstrated that in a concordant hamster-to-nude rat cardiac transplant model, T-independent specific B-lymphocyte and natural killer (NK)-cell tolerance could be induced, leading to long-term xenograft (Xg) survival. Here, we investigated whether the same could be achieved in a clinically more relevant semi-discordant model involving hamster hearts transplanted into pre-sensitized, nude rats.

METHODS

Sensitized, nude rats with high titers of anti-hamster immunoglobulin (Ig)M xenoantibodies (XAbs) were prepared by transplanting a first hamster heart without treatment. One week after rejection, a complete tolerizing regimen was given, including the following: a) an i.v. injection of hamster heart antigens; b) a 4-week administration of malononitriloamide; and c) a single injection of an anti-NK antiserum. Two weeks later, a second hamster heart was grafted. The isotype and level of XAb were examined by fluorescence-activated cell sorting. NK cytotoxicity was evaluated by a standard 4-hr 51Cr release assay. Hamster heart Xgs were examined by conventional histologic and immunohistochemical analysis.

RESULTS

Untreated, presensitized, nude rats developing high titers of IgM XAb underwent hyperacute rejection within 4 hr (n=4) after transplantation of the second hamster heart. Immunohistochemical analysis showed intensive staining for IgM and C3 along the vascular endothelia in the rejected Xgs. In contrast, presensitized, nude rats receiving the complete tolerizing regimen had a rapid decrease in anti-hamster IgM XAb. The second hamster hearts were not rejected and showed long-term survival even after withdrawal of malononitriloamide (n=6). Moreover, tolerant rats showed specific B-lymphocyte tolerance and a specific continuous absence of anti-hamster NK-cell reactivity.

CONCLUSION

T-independent B-lymphocyte and NK-cell xenotolerance can also be achieved in recipients with pre-existing IgM XAb.