Complement inhibition with an anti-C5 monoclonal antibody prevents hyperacute rejection in a xenograft heart transplantation model

BACKGROUND: The present study was undertaken to determine whether anti-complement 5 (C5) monoclonal antibodies (mAb) prevent hyperacute rejection (HAR) in a rat-to-presensitized mouse heart transplantation model and whether these mAb, combined with cyclosporine (CsA) and cyclophosphamide (CyP), can achieve long-term graft survival. METHODS: BALB/c mice were presensitized with 2x10(7) splenocytes from Lewis rats 14 days before grafting. Heart grafts from Lewis rats were heterotopically transplanted into BALB/c mice. Presensitized mice were treated with either anti-C5 mAb or a combination of anti-C5 mAb, CsA, and CyP. Controls included: presensitized mice with no treatment, presensitized mice treated with either CsA + CyP or IgG, and nonpresensitized mice with either no treatment or with CsA + CyP treatment. RESULTS: Although typical features of HAR were evident in the presensitized grafts, the mAb completely inhibited complement activation and successfully prevented HAR. Despite complement inactivation, the graft was rejected on postoperative day 6 with acute vascular rejection (AVR) also known as delayed xenograft rejection (DXR). Notably, this type of rejection cannot be effectively overcome by CsA and CyP. CONCLUSIONS: We conclude that (1) anti-C5 mAb prevents HAR, (2) AVR/DXR still occurs when HAR is prevented by complement inactivation, and (3) AVR/DXR cannot be overcome by conventional immunosuppression. These data suggest that anti-C5 mAb may be valuable for preventing HAR in future clinical xenotransplantation and that additional interventions may be required to address AVR/DXR.     

C5 Blockade with Conventional Immunosuppression Induces Long-Term Graft Survival in Presensitized Recipients

We explored whether a functionally blocking anti-C5 monoclonal antibody (mAb) combined with T- and B-cell immunosuppression can successfully prevent antibody-mediated (AMR) and cell-mediated rejection (CMR) in presensitized murine recipients of life-supporting kidney allografts. To mimic the urgent clinical features of AMR experienced by presensitized patients, we designed a murine model in which BALB/c recipients were presensitized with fully MHC-mismatched C3H donor skin grafts one week prior to C3H kidney transplantation. Presensitized recipients demonstrated high levels of circulating and intragraft antidonor antibodies and terminal complement activity, rejecting grafts within 8.5 ± 1.3 days. Graft rejection was predominantly by AMR, characterized by interstitial hemorrhage, edema and glomerular/tubular necrosis, but also demonstrated moderate cellular infiltration, suggesting CMR involvement. Subtherapeutic treatment with cyclosporine (CsA) and LF15–0195 (LF) did not significantly delay rejection. Significantly, however, the addition of anti-C5 mAb to this CsA/LF regimen prevented terminal complement activity and inhibited both AMR and CMR, enabling indefinite (>100 days) kidney graft survival despite the persistence of antidonor antibodies. Long-term surviving kidney grafts expressed the protective proteins Bcl-x_S/L and A-20 and demonstrated normal histology, suggestive of graft accommodation or tolerance. Thus, C5 blockade combined with routine immunosuppression offers a promising approach to prevent graft loss in presensitized patients.     

Human serum-induced expression of E-selectin on porcine aortic endothelial cells in vitro is totally complement mediated.

BACKGROUND: Whereas complement is a key mediator of hyperacute xenograft rejection, its role in acute vascular rejection (AVR) is a matter of controversy. AVR is associated with de novo synthesis of endothelial cell-derived inflammatory mediators, including the leukocyte-recruiting adhesion molecule E-selectin. Here we investigate the role and mechanism of complement in human serum-induced porcine endothelial cell activation. METHODS: An in vitro xenotransplantation method was designed using porcine aortic endothelial cells stimulated with human serum in microculture wells. E-selectin expression was measured by cell-enzyme immunoassay. Complement inhibitors acting at different levels in the cascade were investigated for their effect on E-selectin expression. RESULTS: E-selectin was strongly induced by normal human serum but not by heat-inactivated serum. Compstatin, a synthetic C3 inhibitor, markedly reduced human serum-induced E-selectin expression. Purified C1-inhibitor suppressed E-selectin induction completely, indicating activation through the classical or lectin pathway. Furthermore, a monoclonal antibody (mAb) that inhibits cleavage of C5 or another mAb that blocks the function of C7, completely inhibited the expression of serum-induced E-selectin, consistent with the terminal C5b-9 complement complex being the mediator of the endothelial cell activation. Inhibition of the alternative pathway using a novel antifactor D mAb did not reduce E-selectin expression. CONCLUSION: Human serum-induced expression of porcine E-selectin is totally complement dependent, induced by a C1-inhibitor regulated pathway and mediated through the terminal complement complex. The data may have implications for therapeutic strategies, particularly of C1-inhibitor and anti-C5 mAb, to protect against endothelial cell activation and subsequent AVR of porcine xenografts.     

Effect of elimination of OX-19+ and OX-8+ T-cell subsets upon pancreatic allograft survival

Depletion of T cell subsets with monoclonal antibody (mAb) permits analysis of cellular events mediating allograft destruction. Mab OX-19 and mAb OX-8 were used singly and in combination together with a short pretransplant course of cyclosporine A (CsA) to deplete OX-19+ cells (all T cells) and OX-8+ cells (cytotoxic/suppressor and NK cells), respectively, in diabetic Lewis (Lew) recipients of a Wistar Furth (WF) pancreatic allograft. Depletion of lymph node T cell subsets was assessed at rejection (blood sugar greater than 250 mg/dl) by flow cytometry. Untreated Lew recipients (Group 1) rapidly rejected their allograft (11.5 +/- 2.5 days). MAb OX-19 administration on the day prior to surgery (Day -1), on the day of surgery (Day 0), and alternate days thereafter until rejection (Group 2) prolonged graft survival (15.0 +/- 1.6 days, P less than 0.05). MAb OX-19 administration on alternate days beginning 14 days prior to transplantation (Day -14) until rejection (Group 3) further prolonged graft survival (22.6 +/- 3.4 days, P less than 0.01). At rejection large numbers of OX-19+ cells were present in both groups. Administration of mAb OX-8 alone (Group 4) failed to prolong graft survival despite marked depletion of OX-8+ cells at rejection. Administration of mAb OX-19 from Day -14 together with CsA (15 mg/kg) from Days -14 to -8 inclusive (Group 5) resulted in a marked and sustained depletion of OX-19+ cells at rejection but only a modest prolongation of graft survival (27.6 +/- 6.0 days, P = 0.11). CsA alone from Days -14 to -8 failed to prolong graft survival.(ABSTRACT TRUNCATED AT 250 WORDS)     

Treatment with a short course of LF 15-0195 and continuous cyclosporin A attenuates acute xenograft rejection in a rat-to-mouse cardiac transplantation model

Searching for a novel immunosuppressive agent to effectively prevent acute vascular rejection (AVR) is essential for success in clinical xenotransplantation. We previously reported that Lewis rat hearts transplanted into BALB/c mice developed typical AVR in 6 days. The present study was undertaken to determine the efficacy of LF 15-0195, a new immunosuppressive analog of 15-deoxyspergualin in the prevention of AVR in a rat-to-mouse cardiac xenograft model. We transplanted 2-week old Lewis rat hearts into BALB/c mice. Four groups were included in this study: untreated recipients and cyclosporin A (CsA) treated recipients were controls; LF 15-0195 treated recipients or LF 15-0195 combined with CsA treated recipients were experimental groups. Mouse recipients received either LF 15-0195 2 mg/kg subcutaneously from day-1 to post-operative day 14, or CsA 15 mg/kg subcutaneously daily, from day 0 to endpoint rejection, or the two drugs in combination. We observed that high dose CsA did not inhibit AVR and the graft was rejected in 11.3 +/- 1.9 days. Graft histology and immunohistology showed typical AVR, characterized by interstitial hemorrhage, intravascular fibrin deposition, thrombosis, and massive deposition of anti-rat immunoglobulin G (IgG) and immunoglobulin M (IgM). Serum xenoreactive antibodies (xAbs) were markedly elevated in these animals as well. In contrast, we observed that treatment with LF 15-0195 alone significantly prolonged graft survival to 19.3 +/- 0.7 days. Notably, xAbs were significantly decreased and the rejection pattern of these grafts was cell-mediated rejection (CMR), instead of AVR. When CsA was combined with LF 15-0195, the graft mean survival time was further increased to 58.5 +/- 17.3 days. Antibody production and T-cell infiltration were significantly inhibited at the terminal stages of graft survival and pathology showed striking attenuation of both AVR and CMR. Sequential studies on days 6 and 14 demonstrated that LF 15-0195 either alone or combined with CsA completely inhibited antibody production. However, intragraft infiltration by Mac-1 positive cells including natural killer cells, macrophages and granulocytes in LF 15-0195 treated recipients was similar to that of untreated recipients. We conclude that LF 15-0195 effectively prevented AVR by markedly inhibiting the production of anti-donor IgG xAbs. Also, treatment with short course LF 15-0195 and continuous CsA significantly reduced T-cell infiltration. Studies to test this therapy in inhibiting AVR in a pig-to-non-human primate xenotransplantation model are underway.     

Gemcitabine with cyclosporine or with tacrolimus exerts a synergistic effect and induces tolerance in the rat

BACKGROUND: This study investigated the effect of the antineoplastic agent gemcitabine (dFdC) in combination with cyclosporine (CsA) or with FK506 on acute heart allograft rejection in a rat model. METHODS: Transplantations were performed in the fully allogeneic Lewis-to-Brown Norway strain combination. dFdC, CsA, and FK506 single-drug therapy and combinations of dFdC with CsA and FK506 were administered at various dosages starting on day 1 to prevent and on day 4 to treat acute rejection until day 20. Animals who did not reject their graft were intraperitoneally injected with 108 splenic donor-type lymphocytes. In addition, Lewis and third-party skin grafts were transplanted to these animals. RESULTS: Mean graft survival times under CsA, FK506, and dFdC monotherapy were 18.3/63.7 days (1 mg/5 mg per kg), 41.7 days, and 24.7/38.7 days (100 microg/150 microg per kg), respectively. CsA and FK506 in combination with dFdC prolonged graft survival to more than 100 days (CsA) and more than 95.2 days (FK506). Graft survival after treatment of an ongoing rejection was 21.5/38.3 days for CsA (1 mg/5 mg per kg) and 17.7/59.2 days for dFdC (100 microg/150 microg per kg). The combination of CsA+dFdC prompted indefinite survival of five of six hearts. Lymphocyte inoculation did not induce graft rejection. Notably, none of the Lewis, but all third-party, skin grafts were rejected immediately. Histomorphologic analysis of grafted hearts, however, demonstrated typical features of chronic rejection. CONCLUSIONS: The combination of CsA and FK506 with low-dose dFdC exerts a synergistic effect in the prevention and treatment of acute allograft rejection in this model. Although chronic rejection could not be prevented, strain-specific tolerance was achieved. Therefore, combining standard immunosuppressants with dFdC is a novel, promising strategy for prevention and treatment of acute allograft rejection.     

An increase in the survival of murine H-2-mismatched cultured fetal pancreas allografts using depleting or nondepleting anti-CD4 monoclonal antibodies, and a further increase with the addition of cyclosporine

Depletion of CD4+ T lymphocytes with monoclonal antibodies (mAbs) has been shown to prolong allograft survival in mice. In this study, two rat anti-CD4 mAbs, H129.19 and GK1.5, were administered either alone or in combination with cyclosporine (CsA) to recipients of MHC-mismatched (H-2k to H-2d) cultured fetal pancreas allografts to determine their effect on graft survival. When compared with control mice, splenic CD4+ cells of GK1.5-treated mice were depleted by greater than 95%, but in H129.19-treated mice no depletion of CD4+ cells occurred. Instead, rat Ig was present on the surface of CD4+ cells in H129.19-treated mice. Anti-CD4 therapy with either H129.19 or GK1.5 prolonged fetal pancreas allograft survival to a similar extent, but did not lead to indefinite survival. Blockade of the CD4 antigen by the mAb H129.19 was as effective as the depletion of CD4+ cells by GK1.5 in prolonging allograft survival. Rejection of grafts by day 28 posttransplantation occurred in the absence of CD4+ cells, as determined by both flow cytometric examination of spleen cells and immunoperoxidase staining of the graft site. CsA alone did not prolong graft survival, but its addition to either H129.19 or GK1.5 mAb treatment significantly increased the survival rate of grafts at 28 days compared with mAb treatment alone. These results suggest that CD4+ cell depletion is not essential for effective anti-CD4 mAb therapy--and, further, that CsA may have a direct inhibitory effect on CD8+ cells during allograft rejection.     

Attenuation of acute xenograft rejection by short-term treatment with LF15-0195 and monoclonal antibody against CD45RB in a rat-to-mouse cardiac transplantation model

BACKGROUND: We previously reported that Lewis rat hearts transplanted into BALB/c mice developed typical acute vascular rejection (AVR). The present study was undertaken to determine the efficacy of LF15-0195, a new analogue of 15-deoxyspergualin, in the prevention of AVR and to determine whether a combination of LF15-0195 and CD45RB monoclonal antibody (mAb) would have a synergistic effect in prolonging xenograft survival. METHODS: We transplanted 2-week-old Lewis rat hearts into BALB/c mice, followed by experimental immunosuppressive regimens. Control groups were either untreated or treated with mAb monotherapy (100 microg/mouse, days -1 to 7, intravenously). Experimental groups were either treated with LF15-0195 (2 mg/kg, days -1 to 14, subcutaneously) or with LF15-0195 combined with mAb at monotherapeutic doses. RESULTS: Heart xenografts in both untreated and mAb-treated BALB/c recipients were rejected at 6.0+/-0.7 days and 8.5+/-1.3 days, respectively, with typical features of AVR, characterized by hemorrhage, fibrin deposition, thrombosis, and massive accumulations of anti-rat IgG and IgM. Serum xenoreactive antibodies (xAbs) were also markedly elevated in these animals. In contrast, LF15-0195 monotherapy significantly prolonged graft survival to 19.3+/-0.7 days. Notably, xAbs were significantly decreased and graft rejection was of a cell-mediated nature instead of AVR. When mAb was combined with LF15-0195, graft survival was further increased to 65.2+/-9.1 days. Antibody production and T-cell infiltration were significantly inhibited at terminal stages of graft survival. Sequential studies on days 6 and 14 demonstrated that LF15-0195, either alone or combined with mAb, completely inhibited antibody production. However, intragraft infiltration by Mac-1+ cells in LF15-0195-treated recipients was similar to that of untreated recipients. CONCLUSIONS: LF15-0195 effectively attenuated AVR by markedly inhibiting antidonor xAb production. Treatment with a combination of LF15-0195 and CD45RB mAb also significantly reduced T-cell infiltration and should be studied further to evaluate its efficacy in nonhuman primate subjects.     

Induction of donor-specific tolerance in rat hind-limb allografts under antilymphocyte serum and cyclosporine A protocol

Composite tissue allograft (CTA) transplantation became a clinical reality despite major side effects associated with the administration of chronic immunosuppression. Development of new treatment modalities eliminating life-long immunosuppression is essential for the future of CTA transplantation. In this study, combined use of cyclosporine A (CsA) and antilymphocyte serum (ALS) was tested for the potential to induce tolerance in the rat hind-limb allograft recipients across a major histocompatibility (MHC) barrier (Lewis-Brown-Norway [LBN, RT1(l+n)] to Lewis [LEW, RT1(l)] rats). Thirty transplantations were performed in 5 experimental groups. Animals received CsA and ALS 12 hours before surgery for 21 days thereafter. Although the allograft controls rejected their limbs at day 7 combined treatment of CsA and ALS resulted in indefinite survival (over 420 d) in all allograft recipients. Long-term survivors showed 35% to 42% of donor-specific chimerism in the peripheral blood. Clinical tolerance was confirmed by acceptance of the donor-specific skin grafts and immunocompetence was confirmed by rejection of the third-party grafts. Mixed lymphocyte reaction revealed suppressed response against donor-type antigens and increased response to third-party antigens. Donor-specific tolerance across MHC barrier was induced in CTA allografts under 21 days protocol of ALS/CsA.     

Evidence that cyclosporine does not inhibit allograft rejection by IL-2-treated sensitized splenocytes

Splenocytes sensitized in vitro to the H-2 allotype of a skin allograft have been shown to cause accelerated rejection of the skin allograft after adoptive transfer of the splenocytes. Treatment of the host with splenectomy or sublethal radiation did not alter the accelerated rejection. In the present study, cyclosporine (CsA) given subcutaneously to mice bearing 1 day old skin grafts prevented the rejection of the graft despite the adoptive transfer of sensitized cells. If the CsA was given for 14 days at 50 mg/kg every other day, the grafts were rejected an average of 6 days after the cessation of CsA. If the CsA was given for 20 days 50 mg/kg every other day, the grafts were not rejected even after cessation of CsA. When no sensitized cells were given, the same pattern resulted; that is, when a 14 day course of CsA was given the grafts were rejected after cessation of the CsA but when a 20-d course was given, the grafts were not rejected even after the CsA was stopped. If splenocytes were sensitized in the presence of interleukin-2 (IL-2), they caused rejection of the skin allografts in animals even on treatment with CsA. We concluded that CsA can prevent skin allograft rejections in the murine system. Moreover, the dose of CsA was critical, in that a longer course of CsA was necessary for tolerance. CsA further prevented the accelerated rejection of skin allografts by adoptive transfer of specifically sensitized splenocytes. Donor irradiation did not alter the effect of the CsA or of the adoptively transferred cells. CsA could not prevent the rejection of skin allografts when the adoptively transferred cells were sensitized to antigen in the presence of IL-2.     

NOX 100, a nitric oxide scavenger, enhances cardiac allograft survival and promotes long-term graft acceptance

BACKGROUND: We examined the role of nitrosative stress in allograft destruction. METHODS: Rats undergoing cardiac transplants received NOX-100, a water-soluble nitric oxide (NO) scavenger with antioxidant properties, with or without low-dose cyclosporine (CsA). Graft survival, NO production, and nuclear factor kappa B (NF-kappaB) activity were studied. RESULT: Using NOX-100 daily until rejection prolonged graft survival (11.6+/-0.6 vs. 7.4+/-0.2 days; P<0.05). Daily low-dose CsA (2.5 mg/kg im) for 7 days or until rejection also prolonged survival (12.6+/-0.5 and 21.6+/-1.6 days, respectively; P<0.01 vs. Controls). Low-dose CsA for 7 days and NOX-100 for 30 days prolonged graft survival (45.0+/-4.7 days; P<0.01 vs. all groups.). NOX-100 had no effect on whole blood CsA levels. Combination therapy until Day 100 resulted in 1 graft loss at Day 116 and indefinite survival in 3 animals (>300 days), which accepted a second WF strain heart without further immunosuppressive therapy but promptly rejected a third party (ACI) cardiac allograft. NOX-100 and CsA reduced nitrate and nitrite, and combination therapy completely normalized NO through to Day 30. Electron paramagnetic resonance spectroscopic analysis demonstrated reduction of signals for nitrosylmyoglobin and nitrosyl-heme with NOX-100 and elimination of signals with CsA alone or combination therapy. Activity of myocardial NF-kappaB decreased with monotherapy vs. untreated allografts. Combination therapy resulted in further inhibition of NF-kappaB up to Day 30. The extent of graft survival correlated with the extent of NO scavenging and NF-kappaB inhibition. Short-term combination therapy had no effect on graft lymphocytic infiltrate on Days 15, 20, and 30. CONCLUSION: These data support a role for both oxidative and nitrosative stress in rejection and the immunoregulatory potential of antioxidant therapy after transplantation.     

Extension of survival of rat parathyroid allografts by depletion of Ia donor cells plus preoperative cyclosporine

Methods that avoid chronic immunosuppression of transplant recipients must be developed to eliminate the various risk factors associated with such treatment (e.g., increased infections and malignancies). Pretransplant treatment of the graft with anti-Ia serum plus complement to eliminate "passenger cells" is one such method. An alternative approach is short-term treatment of the recipients with cyclosporine (CsA). In this study, parathyroid glands from Lewis X Brown Norway rats were cultured for one week at 37 degrees C and treated with anti-Ia and complement. Treated glands were transplanted into parathyroidectomized, hypocalcemic Wistar-Furth recipients that had received 30 mg/kg of CsA once a day for the three days prior to transplant. At 1 year posttransplant, 67% of the recipients had functional parathyroid allografts. Control rats (no CsA; fresh, untreated glands) rejected their grafts within 28 days. Controls given three days of CsA and transplanted with fresh, untreated glands all had functional grafts for greater than 56 days (median survival: 80.5 days). Prolongation of allograft survival with short-term, preoperative CsA demonstrates the efficacy of immunosuppression given only at the time of antigen presentation. This course of CsA allowed for indefinite graft survival when the recipient received a graft previously cultured and treated with Ia antiserum. These results are encouraging and should be evaluated further to determine whether similar approaches will be useful in human transplants.     

Combined Coinhibitory and Costimulatory Modulation with Anti-BTLA and CTLA4Ig Facilitates Tolerance in Murine Islet Allografts

Complex interactions between positive and negative cosignaling receptors ultimately determine the fate of the immune response. The recently identified coinhibitory receptor, B and T lymphocyte attenuator (BTLA), contributes to regulation of autoimmune and potentially alloimmune responses. We investigated the role of BTLA in a fully major histocompatibility complex-mismatched mouse islet transplant model. We report that anti-BTLA mAb (6F7) alone does not accelerate graft rejection. Rather, while CTLA4Ig alone improved allograft survival, the addition of anti-BTLA mAb to CTLA4Ig led to indefinite (>100 days) allograft survival. Immediately after treatment with anti-BTLA mAb and CTLA4Ig, islet allografts showed intact islets and insulin production despite a host cellular response, with local accumulation of Foxp3+ cells. We clearly demonstrate that combined therapy with anti-BTLA mAb and CTLA4Ig mice induced donor-specific tolerance, since mice accepted a second donor-specific islet graft without further treatment and rejected third party grafts. CTLA4Ig and anti-BTLA mAb limited the initial in vivo proliferation of CFSE-labeled allogeneic lymphocytes, and anti-BTLA mAb enhanced the proportion of PD-1 expressing T cells while depleting pathogenic BTLA+ lymphocytes. We conclude that targeting the BTLA pathway in conjunction with CTLA4Ig costimulatory blockade may be a useful strategy for promoting immunological tolerance in murine islet allografts.     

Cyclosporine and experimental skin allografts. II. Indefinite survival and development of specific immunologic unresponsiveness

Immunological unresponsiveness toward skin allografts was studied in cyclosporine (CsA)-treated rats. BN skin grafts survive about 22 days and about 34 days in LEW hosts following 7 or 14 days of daily CsA treatment (15 mg/kg/day), respectively; in unmodified hosts grafts are rejected by 9 days. Indefinite (greater than 100 days) survival can, however, be produced by administering maintenance 15 mg/kg CsA every fourth day, following an initial course of the agent for 14 days. Early signs of graft rejection (hair loss, localized epidermal breakdown, and ulcerations) occurring in some animals were reversed by a CsA "pulse" (15 mg/kg/day) for 7 days, reduced gradually to the maintenance dose. CsA was equally effective when started as late as 4 days after grafting, but ineffectual when started after day 4. Once BN grafts were rejected, the agent could not prevent second-set rejection of donor-specific grafts, but significantly prolonged the survival of third-party (WF) skins. Survival of original BN grafts was unchanged by the placement of second BN grafts during both the inductive and maintenance phases; these second grafts survived as long as the original grafts. In contrast, secondary third-party (WF) grafts were promptly rejected; their destruction did not influence survival of the original grafts. Thus, indefinite survival of rat skin allografts is feasible with low maintenance doses of CsA. Graft rejection at later stages can be reversed by resuming daily therapy. Host unresponsiveness is stable and specific both during the early inductive and later maintenance phases.     

Effect of anti-Ia antibodies, culture, and cyclosporin on prolongation of canine islet allograft survival

Evidence in rodents suggests that islet pretreatment to reduce islet immunogenicity will also require some form of immunosuppression of the recipient for islet allograft acceptance in highly reactive donor-recipient pairs. We attempted to ascertain whether outbred dogs would also require treatment of both donor islets and the recipient to prolong islet allograft survival. Untreated canine islets are uniformly rejected in 6-10 days in beagles. Tissue culture alone, at 37 degrees C for 7 days, or treatment of freshly prepared islets with anti-Ia monoclonal antibodies (MoAbs) (B1F6 + 7.2) did not prolong canine islet allograft survival. Treatment of culture-maintained canine islets with anti-Ia MoAbs plus complement resulted in prolongation of islet allograft survival for 188 and 368 days in two of seven pancreatectomized nonimmunosuppressed beagles. The administration of low doses of cyclosporin A (CsA) intramuscularly, to recipients of untreated canine islet allografts had no effect on graft survival. By contrast, six of nine CsA-treated recipients of islets that were also treated with anti-Ia MoAbs (B1F6 + 7.2) plus complement showed prolongation of graft survival. Euglycemia was sustained for 19, 34, 89, and 300 days after the CsA was discontinued (day 30) in four of these animals. Two animals had unstable grafts from the beginning that failed 23 and 29 days after transplantation. Our results indicate that simple maneuvers like short-term tissue culture at 37 degrees C and treatment of freshly isolated islets with anti-Ia MoAbs and complement are inadequate to prevent rejection in outbred pancreatectomized beagles.(ABSTRACT TRUNCATED AT 250 WORDS)     

Operational tolerance induced by pretreatment with donor dendritic cells under blockade of CD40 pathway.

BACKGROUND: Dendritic cells can mount immune response as competent antigen presenting cells. Recently, it has been reported that immature dendritic cells induce prolongation of allograft survival. However, the ability of mature dendritic cells to induce operational tolerance is unclear. Therefore, in this study, we examined the ability of splenic mature dendritic cells to induce operational tolerance to fully allogeneic antigens using mouse heterotopic heart transplantation model. METHODS: CBA (H2k) mice received i.v. injections with donor splenic dendritic cells or B cells in the absence or presence of monoclonal antibody (mAb) specific for CD40 ligand or CD80/CD86 2 weeks before transplantation of a C57BL/10 (H2b) heart. RESULTS: When donor dendritic cells were injected i.v. 2 weeks before transplantation, rejection response was accelerated compared with that of naive mice [median survival time (MST) = 7 and 8 days, respectively]. However, when CD40 pathway was blocked by anti-CD40 ligand mAb, i.v. injection of donor dendritic cells but not B cells induced indefinite graft survival (MST >100 and 20 days, respectively). Mice treated with anti-CD40 ligand mAb alone rejected their grafts with a MST of 18 days. Intravenous injection of donor dendritic cells and B cells in combination with anti-CD80/CD86 mAbs was less effective to induce graft prolongation (MST = 9.5 and 13 days, respectively). CONCLUSIONS: Therefore, under blockade of CD40 pathway, mature dendritic cells were tolerogens in vivo independent of CD80/86 pathways.     

Anti‐Complement Component C5 mAb Synergizes with CTLA4Ig to Inhibit Alloreactive T cells and Prolong Cardiac Allograft Survival in Mice

While activation of serum complement mediates antibody‐initiated vascular allograft injury, increasing evidence indicates that complement also functions as a modulator of alloreactive T cells. We tested whether blockade of complement activation at the C5 convertase step affects T cell‐mediated cardiac allograft rejection in mice. The anti‐C5 mAb BB5.1, which prevents the formation of C5a and C5b, synergized with subtherapeutic doses of CTLA4Ig to significantly prolong the survival of C57BL/6 heart grafts that were transplanted into naive BALB/c recipients. Anti‐C5 mAb treatment limited the induction of donor‐specific IFNγ‐producing T cell alloimmunity without inducing Th2 or Th17 immunity in vivo and inhibited primed T cells from responding to donor antigens in secondary mixed lymphocyte responses. Additional administration of anti‐C5 mAb to the donor prior to graft recovery further prolonged graft survival and concomitantly reduced both the in vivo trafficking of primed T cells into the transplanted allograft and decreased expression of T cell chemoattractant chemokines within the graft. Together these results support the novel concept that C5 blockade can inhibit T cell‐mediated allograft rejection through multiple mechanisms, and suggest that C5 blockade may constitute a viable strategy to prevent and/or treat T cell‐mediated allograft rejection in humans.     

外用环孢素A联合CTLA4Ig延长异体移植鼠耳存活的研究

目的　探讨局部外用环孢素 A(Cs A)联合细胞毒性淋巴细胞相关抗原 4融合蛋白 (CTL A4 Ig)对异体复合组织移植的免疫抑制及诱导免疫耐受的作用。方法　建立吻合血管的同种异体大鼠耳廓移植模型 ,术后在移植耳皮肤表面外涂 Cs A并联合 CTL A4 Ig腹腔注射治疗 ,观察移植物的排斥反应及存活时间 ,检测移植后受体血清白细胞介素 - 2 (IL- 2 )含量变化。结果　对照组平均存活时间为 (7.8± 1.7)天 ;单纯用 Cs A治疗组为 (15 .2± 1.9)天 ,单纯CTL A4 Ig治疗组为 (16 .6± 2 .1)天 ;Cs A +CTL A4 Ig联合治疗组为 (2 8.8± 3.5 )天 ,与其它各组相比均有统计学意义 (P<0 .0 1) ;且联合治疗组的受体血清 IL - 2含量最低 ,尤以第 5、7天为著 ,与其它各组相比有统计学意义 (P<0 .0 1)。结论　局部外用 Cs A联合 CTL A4 Ig能有效抑制异体复合组织移植排斥反应 ,显著延长移植物存活时间。     

Prévention du rejet d'allogreffe intestinale par des anticorps antimolécules d'adhésion dans un modèle murin

Study aimSmall bowel transplantation is still hampered by a high morbidity and mortality linked to the heavy non specific immunosuppression which is required by the transplantation of this lymphoid organ. Adhesion molecules appear to be potential targets for specific immunosuppression. The aim of the study was to investigate the effect of a transitory administration of anti-LFA-1 or anti-α4 monoclonal antibodies (mAb) in the prevention of rejection in a model of fetal small-bowel transplantation in mice.Materials and methodsThe small bowel of C57BL/6 (H-2^b) fetus (16 to 20 days of gestation) was transplanted into adult C3H/He mice (H-2^k) or C57BL/6 recipient mice. Recipients were treated with a short course of either antiLFA-1 mAb alone, either with anti-α4 mAb alone, or with both mAb. Biopsies with histological study of the grafts were performed between post-operative day 5 and 60. A score of development and rejection was assigned to each sample.ResultsNormal intestinal development with no sign of rejection was observed in 24/28 syngenic grafts till postoperative day 45. In the absence of treatment, intense rejection was observed as soon as day 5 and all allogenic grafts were rejected (n=22). In contrast, in anti-LFA-1 mAb treated mice, 18/20 allogenic grafts developed normally with minimal signs of rejection. In anti-α4 treated mice, a transient protective effect on small bowel allograft survival was observed on day 7 but thereafter, all grafts were massively rejected within a few days (n = 18). The combination of both mAb didn't improve the survival of the grafts when compared to anti-LFA-1 mAb treated grafts (n = 10).ConclusionThese results demonstrate that a transitory administration of anti-LFA-1 mAb, but not of anti-α4 mAb, is able to prolong significantly the survival of non vascularized small bowel fetal grafts in mice. Our results are promising for the possible use of the anti-LFA-1 mAb in clinical intestinal transplantation.     

Long-term limb allograft survival using a short course of anti-CD45RB monoclonal antibody, LF 15-0195, and rapamycin in a mouse model

BACKGROUND: The purpose of this study was to determine if a short course of monoclonal antibody (mAb) against CD45RB, LF 15-0195, and rapamycin would achieve long-term survival by inducing tolerance in a mouse limb transplant model. METHODS: Group 1 (n=9) consisted of nine isogenic (C57BL/6) transplants. Group 2 (n=3) included C57BL/6-to-BALB/c transplants receiving no drug therapy. Group 3 mice (n=4) were treated with mAb (3 mg/kg) and LF (2 mg/kg), and Group 4 (n=13) was treated with mAb, LF, and rapamycin (2 mg/kg). Both treatment groups received drug treatment for only 14 days posttransplantation. Animals were sacrificed if they displayed evidence of rejection or when deemed to be tolerant (defined as >day 100). RESULTS: All isografts had normal histology and graft function on day 100. Untreated C57BL/6-to-BALB/c allografts developed acute rejection within 10 days. The combination of mAb and LF prolonged allograft survival to a mean of 39+/-7 days. In Group 4, two animals had to be sacrificed at days 28 and 76 due to acute urinary retention. Transplant tolerance was achieved in 8 of the remaining 11 animals with a mean survival time of 100+/-12 days. Donor specific tolerance was demonstrated through permanent acceptance of skin grafts from the donor strain and rejection of skin grafts from C3H mice. Three Group 4 animals showed clinical and histological signs of mild, chronic rejection. Dendritic cells isolated from tolerant recipients exerted a suppressive effect in mixed lymphocyte reaction. CONCLUSION: A short course of anti-CD45RB mAb and LF 15-0195 prolonged limb allograft survival. The addition of rapamycin induced limb allograft tolerance which is associated with the generation of tolerogenic dendritic cells that suppressed T-cell proliferation.