Blockade of OX40 signals enhance survival of xenoislet grafts in spontaneously diabetic NOD mice

Role of OX40 blockade was investigated in islet xenograft model in chemically diabetic C57B1/6 and spontaneously diabetic NOD mice. The effect of OX40/OX40L blockade on effector function of diabetogenic T cells was studied in an adoptive transfer model. 2000 IEQ of porcine islets were transplanted under the kidney capsule of diabetic C57B1/6 or NOD mice and were treated i.p. with control Ig, anti-OX40L, or CTLA4Ig. Graft survival was assessed using blood glucose (BG) measurement. Cells from diabetic NOD spleens and pancreatic lymphnodes were injected i.v. into NOD.scid mice. Recipients were treated i.p. with anti-OX40L, CTLA4Ig alone, or in combination; control mice received Ig. Diabetes incidence was assessed using BG measurement. Anti-OX40L treatment delayed xenoislet rejection significantly in chemically diabetic animals, although CTLA4Ig delayed rejection even further. Neither treatment completely prevented rejection. In spontaneously diabetic NOD mice, rejection of xenoislet graft was delayed by anti-OX40L treatment but not by CTLA4Ig. Anti-OX40L alone and in combination with CTLA4Ig significantly delayed diabetes transfer by activated diabetogenic T cells, compared with control and CTLA4Ig treatment. Preliminary mechanistic studies suggest that anti-OX40L treatment preserves Treg numbers, unlike CTLA4Ig that diminishes Tregs. Our studies show that OX40 blockade offers better xenoislet graft survival than CTLA4Ig in spontaneous autoimmune NOD model, suggesting that preactivated T cells use alternate costimulatory pathways, independent of CD28. Results from adoptive transfer studies further support the role of OX40 signaling in effector function of diabetogenic T cells. These data suggest that OX40/OX40L may offer novel therapeutic target for xenoislet graft protection in type 1 diabetic patients.     

Prolonged xenograft survival of islets infected with small doses of adenovirus expressing CTLA4Ig.

BACKGROUND: Systemic administration of the inhibitor of costimulation, CTLA4Ig, has been shown to prolong islet graft survival. The purpose of this study was to compare local and systemic expression of murine CTLA4Ig in transplants of rat islets into mice. METHODS: Murine CTLA4Ig was made by joining two polymerase chain reaction products, the extracellular portion of CTLA4 and the Fc portion of IgG2a. Recombinant adenovirus expressing CTLA4Ig (AdCTLA4Ig) was generated using the strategy of Cre-lox recombination. Isolated rat islets infected with AdCTLA4Ig at multiplicities of infection (MOIs) ranging from 0.1 to 10 were transplanted into streptozocin diabetic male B6AF1 mice. Control islets were mock infected or infected with AdLacZ or AdsIg, a recombinant adenovirus expressing only the Fc portion of IgG2a. Also, AdCTLA4Ig and control viruses were injected intramuscularly into mouse transplant recipients at the time of islet transplantation to provide CTLA4Ig systemically. RESULTS: Control islets transplanted into diabetic mice were rejected in 13-17 days. Islets infected with AdCTLA4Ig had dose-dependent prolongation of graft survival. Prolonged survival was even found with very low MOIs of 0.1 and 0.5, with survivals of 24+/-4.2 and 25+/-2.2 days, respectively. Survival with an MOI of 10 was 39+/-8.7 days. With intramuscular injection, no prolongation was found at the lowest relative MOIs of 0.2 and 1, but there was dose-dependent prolongation of graft survival with larger doses. At the highest relative MOI of 400, survival was prolonged to 58+/-10 days. CONCLUSIONS: Rat islets infected with AdCTLA4Ig transplanted into mice had prolonged graft survival. Prolonged survival with MOIs as low as 0.1 and 0.5 indicates that only a minority of islet cells need to express CTLA4Ig to exert an effect. Moreover, the results suggest that the improved islet graft survival is due to a local influence of CTLA4Ig.     

Effects of Gene Transfer CTLA4Ig and Anti-CD40L Monoclonal Antibody on Islet Xenograft Rejection in Mice

Blockade of a costimulatory pathway by adenovirus-mediated cytotoxic T lymphocyte associated antigen 4 immunoglobulin (CTLA4-Ig) gene transfer and anti-CD40L mAb(MR1) have been reported to enhance graft survival in several experimental transplantation models. In this study, we investigated the effects of gene transfer of CTLA4Ig and MR1 on islet xenograft rejection in mice. Recombinant adenovirus AdCTLA4Ig was constructed to express CTLA4Ig. Islet grafts from adult male DA rats transferred with AdCTLA4Ig were transplanted to streptozocin-induced diabetic Balb/c mice. The diabetic mice were treated with MR1 after transplantation. We evaluated the islet xenograft mean survival time as well as changes in interleukin-2 (IL-2) and tumor necrosis factor-alpha (TNF-α) levels in transplanted mice. The mean survival of islet xenografts in the MR1 treatment group was 34.9 ± 5.62 days, in the AdCTLA4Ig treatment group it was 56.5 ± 10.64 days, and in the AdCTLA4Ig plus MR1 treatment group it was 112.9 ± 19.26 days, all significantly prolonged compared with an untreated group (8.1 ± 0.83 days). Within 1 week after transplantation the levels of IL-2 and TNF-α showed sharp increases in the untreated group, being significantly higher than those observed prior to transplantation. In conclusion, using both AdCTLA4Ig and MR1 can improve the islet xenograft survival. The beneficial effects of the combined use of the 2 reagents were superior to either 1 alone, possibly related to down-regulated expression of Th1 cell-related cytokines.     

协同信号途径阻断和供体脾细胞输注诱导预存同种记忆性T淋巴细胞大鼠心脏移植物的耐受

目的 联合阻断OX40/OX40L和CD28/B7双协同信号途径和供体特异性脾细胞输注,诱导预存同种反应性记忆T淋巴细胞大鼠对同种心脏移植物的耐受.方法 建立大鼠预存同种反应性记忆T淋巴细胞的移植模型,采用免疫磁珠法分选CD8+CD44-记忆性T细胞;对过继转移供体特异性CD8+记忆性T细胞3 d的Lewis大鼠分别/合并输注AdCTLA4Ig、AdOX40Ig、供体脾细胞(DST),同时移植来至DA大鼠的心脏;48 h后取出心脏进行组织学分析、细胞因子表达分析,同时观察不同处理移植心脏存活时间.结果 AdCTLA4Ig+AdOX40Ig+DST组分别与AdCT-LA4Ig,AdOX40Ig和DST比较,心脏组织病理级别较低,白细胞介素(IL)-2及干扰素(IFN)-γ的表达水平也明显比其他组低很多,而心脏存活时间显著延长.结论 联合阻断OX40/OX40L和CD28/B7和供体特异性脾细胞输注能较好地诱导大鼠心脏移植物耐受.     

Adenovirus-mediated CTLA4Ig or CD40Ig gene transfer delays pancreatic islet rejection in a rat-to-mouse xenotransplantation model after systemic but not local expression

Transient costimulation signal blockade of either CD28/CD80-86 interactions and/or CD40/CD154 interactions can prevent islet rejection in some models of both allo- and xenotransplantation. We have used adenoviruses coding for CTLA4Ig or CD40Ig and compared the efficacy of genetic modification of islets to systemic production through either intramuscular (i.m.) or intravenous (i.v.) injection of these vectors in a rat-to-mouse islet transplantation model. When gene transfer was performed into islets, a high level of primary nonfunction was induced. Furthermore, transduced functional grafts were rejected with the same kinetics as nontransduced islets. In contrast, i.m. AdCTLA4Ig and i.v. AdCD40Ig significantly delayed rejection (mean survival time of 54 +/- 26.9 and 67.6 +/- 44.9 days, respectively, vs. 24.3 +/- 9.7 days for unmodified islets, p < 0.05). Combination of ex vivo AdCTLA4Ig islet transduction and i.v. AdCD40Ig did not improve graft survival further. In conclusion, islet graft transduction with adenoviruses coding for costimulation inhibitors resulted in local expression with low serum concentrations of CTLA4Ig or CD40Ig and was unable to protect islet xenografts from rejection. In contrast, i.m. or i.v. gene transfer resulted in high serum concentrations of these molecules and was highly efficient in prolonging xenograft survival. These results contrast with the efficacy of AdCTLA4Ig we observed in a rat islet allotransplantation model and suggest that islet xenograft rejection might be more difficult to control.     

Prolongation of islet allograft survival by coexpression of CTLA4Ig and CD40LIg in mice

BACKGROUND: B7/CD28 and CD40/CD40L have been well established as important costimulatory pathways. Cytotoxic T lymphocyte-associated antigen-4 (CTLA4) delivers negative signals to antigen-presenting cells to down-regulate proinflammatory responses and competitively inhibits the binding of B7 and CD28. Signals from the CD40/CD40L costimulatory pathway also play an important role in acute rejection of organ grafts. METHODS: Recombinant adenoviruses Ad-sCD40LIg-IRES2-CTLA4Ig, Ad-CTLA4Ig, and Ad-sCD40LIg were constructed to express sCD40LIg and CTLA4Ig simultaneously or separately as described previously. Streptozocin-induced diabetic BALB/c mice were injected with recombinant adenovirus, receiving approximately 500 donor islets isolated from C57BL/6 mice under the left kidney capsule. Five groups were assigned according to the treatment: nontreated group, Ad-Shuttle-CMV-treated group, Ad-CTLA4Ig-treated group, Ad-sCD40LIg-treated group, and Ad-sCD40LIg-IRES2-CTLA4Ig-treated group. The islet graft mean survival time (MST) was evaluated in the present study. RESULTS: Compared to the islet graft MST of the nontreated group (7.3+/-0.82 days) or Ad-Shuttle-CMV-treated group (7.2+/-1.47 days), the Ad-CTLA4Ig-treated and Ad-CD40LIg-treated islet graft survivals in recipients were 56.3+/-13.71 days (P<.01) and 47.3+/-15.64 days (P<.05), respectively. The islet graft MST was dramatically prolonged to 116.3+/-20.32 days in the Ad-sCD40LIg-IRES2-CTLA4Ig-treated group (P<.01). CONCLUSION: Simultaneous blockade of the CD40/CD40L and B7/CD28 costimulatory pathways via coexpression of sCD40LIg and CTLA4Ig mediated by replication-defective adenovirus may be an acceptable method to induce immune tolerance.     

Co-stimulatory molecules in islet xenotransplantation: CTLA4Ig treatment in CD40 ligand-deficient mice

Previous work has demonstrated that short-term systemic administration of cytotoxic T lymphocyte antigen-4 (CTLA-4) Ig blocks human pancreatic islet xenograft rejection in mice and induces long-term, donor-specific tolerance, whereas studies on pig pancreatic islet rejection in mice have failed to demonstrate a role for CTLA4Ig in preventing rejection. Treatment with anti-CD40 ligand (L) monoclonal antibodies alone is somewhat effective in prolonging the survival of islet xenografts, but ineffective when applied to skin xenografts. However, simultaneous blockade of the CD28 and CD40 co-stimulatory pathways prolongs the survival of pig skin on recipient mice. To evaluate the role of CD28 and CD40 co-stimulatory pathways in pig islet-like cell cluster (ICC) xenograft rejection in mice, CD40L-deficient mice transplanted with fetal porcine ICCs were given posttransplant treatment with human (h) CTLA4Ig or a human IgG1 chimeric mAb (hL6). Xenografts were evaluated 6 or 12 days after transplantation. Fetal porcine ICC xenografts were protected from rejection in hCTLA4Ig-treated CD40L-deficient mice, whereas xenograft rejection persisted in untreated CD40L-deficient mice. Simultaneous blockade of the CD28 and CD40 co-stimulatory pathways is mandatory to inhibit ICC xenograft rejection in the pig-to-mouse model, because the CD28 and CD40 co-stimulatory pathways seem capable of efficiently substituting for one another.     

抑制记忆性T淋巴细胞共刺激分子OX40延长小鼠胰岛移植物的存活时间

目的 观察抑制记忆性T淋巴细胞共刺激分子OX40延长胰岛移植小鼠存活时间的作用,探讨其作用机制.方法 采用免疫磁珠法制备初始性、类记忆性及记忆性CD8+T淋巴细胞,并采用逆转录聚合酶链反应法检测3种T淋巴细胞上OX40的表达量.将C57BL/6小鼠脾脏T淋巴细胞经尾静脉注射给Rag-/-小鼠.将Rag-/-小鼠分为3组,对照组:给予同型IgG;治疗组:给予抗OX40L单克隆抗体;基因敲除组:输注的T淋巴细胞由OX40基因敲除的C57BL/6小鼠供给.T淋巴细胞输注6周后,使用链脲霉素诱导建立糖尿病模型,然后以DBA/2小鼠为供者,进行胰岛移植,移植后观察和比较3组间胰岛移植物的存活时间.结果 OX40在初始性、类记忆性和记忆性T淋巴细胞上的相对表达量分别为2.87、111.24和146.15,类记忆性和记忆性T淋巴细胞间OX40表达量的差异无统计学意义(P＞0.05),但均显著高于初始性T淋巴细胞(P＜0.01).对照组、治疗组和基因敲除组胰岛移植物的存活时间分别为21、130和125 d,治疗组和基因敲除组间胰岛移植物存活时间的差异无统计学意义(P＞0.05),二者均显著长于对照组(P＜0.05).结论 OX40在记忆性T淋巴细胞表面高表达,且阻断OX40共刺激分子通道可明显延长胰岛移植物的存活时间,抑制OX40/OX40L共刺激通道可能是诱导胰岛移植免疫耐受的关键点之一.

Abstract：

Objective To investigate the role of OX40 in the mechanisms of memory T cells in islet transplant tolerance.Methods The expression of OX40 on native, like memory and memory CD8+T cells was detected by RT-PCR. Splenic T cells from B6 mice were injected into Rag-/- mice via the tail vein, and the Rag-/- mice were divided into three groups (n=8 each): control group, given IgG; treatment group, given anti-OX40L; and OX40 knock-out group, given T cells from OX40 knock-out B6 mice spleen. All recipients were induced into diabetes mellitus model after adoptive transfer. Islet transplantation was performed on all Rag-/- mice as recipients. The mean survival time of islet was observed.Results The expression of OX40 in native T cells, like memory T cells and memory T cells was 2.87, 111.24 and 146.15 respectively. The expression of OX40 in like memory and memory T cells was higher than in native T cells (P<0.05). Comparison with control group , The mean survival time of the DBA/2 islet allografts in treatment group (130 days) and OX40 knock-out group (125 days) was significantly longer than in control group (21 days, P<0.05).Conclusion The OX40 expression is high in memory T cells. The mean survival time of the islet allografts can be prolonged by blocking OX40/OX40L pathway. OX40/OX40L pathway may be the key point of transplant tolerance.     

Anti-LFA-1 improves pig islet xenograft function in diabetic mice when long-term acceptance is induced by CTLA4Ig/anti-CD40L

BACKGROUND: It has been previously demonstrated that addition of anti-LFA-1 to a combination of CTLA4Ig and anti-CD40L induces the permanent acceptance of dopaminergic fetal pig xenografts when transplanted into the brain of wild-type mice. The purpose of this study was to test whether this costimulation blockade also can induce acceptance of adult pig islets transplanted to C57BL/6 mice with streptozotocin-induced diabetes. METHODS: Recipients were treated with CTLA4Ig/anti-CD40L+/-anti-LFA-1 or isotype control antibodies during the first week after transplantation. Half of the costimulation blockade-treated recipients had their grafts removed after 8 weeks. The other half was observed up to 5 months. RESULTS: Recipients treated with CTLA4Ig/anti-CD40L/anti-LFA-1 had significantly lower blood glucose and gained more weight than CTLA4Ig/anti-CD40L-treated recipients. CTLA4Ig/anti-CD40L-treated recipients exhibited unstable blood glucose. IPGTT of these recipients revealed a slow recovery to normal blood glucose levels at week 4. In comparison, CTLA4Ig/anti-CD40L/anti-LFA-1 treated recipients exhibited a significantly superior glucose clearance. CTLA4Ig/anti-CD40L+/-anti-LFA-1 treated recipients did not produce anti-pig IgG, whereas control antibody-treated mice did. CD4+ T cells from costimulation blockade-treated recipients proliferated less than CD4+ T cells from control antibody-treated mice when co-cultured with syngeneic antigen presenting cells loaded with pig islet antigens. CONCLUSIONS: CTLA4Ig/anti-CD40L/anti-LFA-1-treated recipients had superior islet function compared with CTLA4Ig/anti-CD40L-treated recipients. However, both costimulation blockade regimens led to islet graft acceptance up to 5 months after a 1-week treatment.     

Prolongation of renal allograft survival in rats by replication-defective recombinant adenovirus-mediated coexpression of CD40L and CTLA4Ig

BACKGROUND: Blockade of costimulatory signals has been shown to prolong allograft survival. The aim of the present study was to investigate the effect of simultaneous blockade of CD40/CD40L and CD28/B7 costimulatory pathways by replication-defective adenovirus-mediated expression of secretable extracellular domain of human CD40L (shCD40L) and CTLA4Ig to prolong rats renal allograft survival. METHODS: We constructed Adv-shCD40L-IRES2-CTLA4Ig, a replication-defective adenovirus carrying genes encoding human CD40L and CTLA4Ig. Coexpression of shCD40L and CTLA4Ig was evaluated by confocal laser scanning microscopy. The function of these two molecules was examined in human mixed lymphocyte reactions (MLRs) in vitro and in experimental BN-to-LEWIS rat renal transplantation in vivo. RESULTS: Successful construction of Adv-shCD40L-IRES2-CTLA4Ig was confirmed by polymerase chain reaction. Coexpression of shCD40L and CTLA4Ig on human kidney cell line HK-2 cells after transfection was detected by direct immunofluorescence staining. Human MLR was inhibited to 52.2%+/-0.6% and 42.1%+/-0.2% of the vehicle control by Adv-shCD40L and Adv-CTLA4Ig, respectively. Adv-shCD40L-IRES2-CTLA4Ig resulted in further inhibition of MLR to 22.0%+/-0.2% of vehicle control. Transfection with Adv-shCD40L or Adv-CTLA4Ig alone prolonged renal graft survival to 24.8+/-2.5 days and 27.3+/-3.6 days, respectively, as compared to vehicle-treated controls (7.8+/-0.3 days). Cotransfection of both genes extended graft survival to 41.8+/-3.7 days. CONCLUSIONS: Adv-shCD40L-IRES2-CTLA4Ig, a replication-defective adenovirus carrying genes encoding human CD40L and CTLA4Ig, achieved simultaneous blockade of CD40/CD40L and CD28/B7 costimulatory pathways, Adv-shCD40L-IRES2-CTLA4 by Ig synergistically inhibited human T-cell proliferation in MLR, and prolonged rats renal allograft survival.     

Gene therapy-mediated CD40L and CD28 co-stimulatory signaling blockade plus transient anti-xenograft antibody suppression induces long-term acceptance of cardiac xenografts

BACKGROUND: The authors have previously demonstrated that inhibition of CD28 and CD40 ligand (CD40L) co-stimulatory signals by adenovirus-mediated cytotoxic T-lymphocyte-associated (CTL) antigen 4 (A4) immunoglobulin (Ig) and CD40Ig gene therapies induces tolerance or long-term acceptance in rat liver and heart allograft transplantation. In this study, the authors examined whether co-stimulation blockade with a brief course treatment of FK779, a novel leflunomide derivative, would be an ideal strategy for controlling xenograft rejection. METHODS: Hamster hearts were transplanted into Lewis rats. Adenovirus vector coding (Ad) CD40Ig, CTLA4Ig, or LacZ gene (1 x 10(9) plaque-forming units) was administered intravenously to recipient rats 2 days before or immediately after xenografting. FK779 (10 mg/kg/day) was administered orally to recipients for 7 days beginning on day -1. Graft survival, graft histology, and xenoreactive antibodies were examined. RESULTS.: Both untreated and AdLacZ-treated control rats rejected cardiac xenografts, with a median survival time (MST) of 3 days. Co-stimulatory blockade alone by AdCTLA4Ig, AdCD40Ig, or both could not overcome such delayed xenograft rejection (DXR) (MST, 3-4 days). Under a short-course FK779 treatment that suppressed T-cell-independent xenoreactive antibodies, administration of AdCD40Ig (MST, 30.5 days) but not AdCTLA4Ig (MST, 9 days) significantly prolonged xenograft survival as compared with the FK779 monotherapy (MST, 7 days). In contrast, DXR and cellular rejection were controlled successfully and all xenografts were accepted for over 100 days when AdCTLA4Ig and AdCD40Ig were administered under FK779 induction therapy. However, chronic rejection was present in all long-term surviving xenografts. CONCLUSIONS.: Gene therapy-based co-stimulation blockade with FK779 induction treatment seems to be an attractive strategy with which to control xenograft rejection.     

Additive efficacy of CTLA4Ig and OX40Ig secreted by genetically modified grafts

BACKGROUND: The use of systemic immunosuppressive drugs have been paramount in the success in transplantation, but there are serious deleterious effects. Genetic modification of grafts to secrete immunomodulators locally may be a way to reduce the need for systemic immunosuppression. METHODS AND RESULTS: An insulinoma cell line, NIT, having the nonobese diabetic (NOD) genotype but also expressing the SV40 large T Ag, was transfected with CTLA4Ig or OX40Ig in an attempt to block signals in the costimulatory/adhesion pathways. The extracellular domains of these molecules have been fused to the Fc of IgG2c derived from the NOD mouse strain. This resulted in secreted and dimerized proteins. SV40 T Ag is potent at inducing graft rejection. Test and control transfectants were transplanted subcutaneously into young NOD mice to determine whether secretion of CTLA4Ig and OX40Ig would promote survival of the insulinoma graft. In immunodeficient mice, cell growth was similar for all transfectants. However, in immunocompetent NOD mice, the survival/growth of test grafts was significantly better than that of controls. By combining test transfectants, we found that graft survival was enhanced in an additive and significant fashion. In vitro, there was a significant reduction in immune responses-compared with control-when purified fusion proteins were added to mixed leukocyte reaction cultures. CONCLUSIONS: We conclude that blockade of individual costimulatory/adhesion signals by graft manipulation can contribute to transplantation success and that blockade of combinations of signals in these pathways enhances this success. Successful immunomodulation by the graft itself can be achieved.     

Long-term acceptance of rat cardiac allografts on the basis of adenovirus mediated CD40Ig plus CTLA4Ig gene therapies

BACKGROUND: We have previously demonstrated that blockade of either CD80/86-CD28 or CD40-CD154 costimulatory pathways by using adenovirus vector coding CTLA4Ig (AdCTLA4Ig) or CD40Ig (AdCD40Ig) genes induced donor-specific tolerance in rat liver transplantation. In this study, we asked whether these gene-therapy-based costimulation blockade would induce tolerance in cardiac transplantation. METHODS: Heterotopic heart transplantation was performed in a full major histocompatibility complex (MHC) barrier combination of ACI (RT1avl) to Lewis (LEW, RT1l) rats. Vector (1 x 10(9) plaque forming unit [PFU]), AdLacZ, AdCTLA4Ig, or AdCD40Ig, was administered intravenously to recipient animals immediately after grafting, and graft survival, serum CTLA4Ig/CD40Ig levels, and graft histology were assessed. Tolerance was determined by secondary skin-graft challenging. RESULTS: Allografts of both untreated and AdLacZ controls were promptly rejected within 7 days, whereas a single treatment with AdCTLA4Ig or AdCD40Ig significantly prolonged median graft survival to 55.5 and 28.5 days, respectively. In contrast, the combined AdCTLA4Ig and AdCD40Ig gene therapy maintained high CTLA4Ig and CD40Ig levels through the posttransplant period and allowed long-term cardiac allograft survival for more than 270 days. However, both donor and third-party skin grafts were rejected in the animals who harbored cardiac grafts over 150 days. Also, typical features of chronic rejection were evident in the long-term surviving grafts. CONCLUSION: Simultaneous blockade of CD28 and CD154 pathways by AdCTLA4Ig plus AdCD40Ig induces a strong immunosuppression that allows long-term acceptance of full MHC mismatched cardiac graft in rats. This strategy, however, was not enough to induce tolerance to skin grafts and to avoid chronic rejection, as shown in the liver-transplantation model.     

CTLA4Ig和西罗莫司短期联合使用延长异种胰岛移植物的存活

目的 观察细胞毒性T淋巴细胞相关抗原4融合蛋白(CTLA4Ig)与西罗莫司(SRL)联用阻断共刺激通路对异种胰岛移植物存活的影响.方法 取C57BL/6小鼠,腹腔注射链佐星,制成糖尿病模型.采用随机单位组设计分组法将糖尿病小鼠分为7组,各组均于小鼠左肾包膜下移植SD大鼠胰岛300胰岛当量.CTLA4Ig组分别于移植当天及移植后第2、4、6天腹腔注射CTLA4Ig 0.5 mg/d;SRL组分别于移植当天及移植后第1、2天给予SRL灌胃,0.2 mg·kg-1·d-1,其后隔天用药1次,共用2周;MRI组分别于移植当天及移植后第2、4天腹腔注射仓鼠抗小鼠CD154单克隆抗体(MR1)0.5 mg/d;CTLA4Ig和SRL联用组(SRL联用组)、CTLA4Ig和MRl联用组(MR1联用组)以及CTLA4Ig、MR1和SRL联用组(三药联用组)各药物的剂量与用法同上述各组;对照组仅行胰岛移植,不予以药物.观察至移植后200 d,通过监测受者血糖水平来判断排斥反应的发生情况.记录各组移植物的存活(即无排斥反应)时间.发生排斥反应者,或未发生排斥反应、移植物存活时间＞200 d者,取移植胰岛,行HE染色及免疫荧光染色,进行组织学观察.结果 对照组移植物存活时间中位数为17 d,该组最终均发生排斥反应.SRL组、MRl组和CTLA4Ig组移植物存活时间中位数分别为34 d、98 d和77 d.均明显长于对照组(P＜0.05),三组中分别有90%(9/10)、62.5%(5/8)和83.3%(5/6)的小鼠发生排斥反应.SRL联用组移植物存活时间中位数为130 d,明显长于上述4组(P＜0.01),有50%(3/6)的小鼠发生排斥反应.MR1联用组以及三药联用组移植物存活时间中位数均＞200 d,分别有42.9%(3/7)和25%(2/8)的小鼠发生排斥反应.组织学检查结果显示,对照组发生排斥反应时,其移植胰岛破坏严重,可见大量CD4+和CD8+淋巴细胞及巨噬细胞浸润,并可见IgG、IgM和补体C3沉积.其它组发生排斥反应者的组织学改变与对照组相似.SRL联用组存活200 d的小鼠,其移植胰岛组织中未见或仅有少量炎症细胞浸润,胰岛素和胰高血糖素染色阳性,未见IgG、IgM和补体C3沉积.结论 短期联合使用CTLA4Ig和SRL能显著延长小鼠体内大鼠来源的胰岛的存活时间.     

Immunotherapy with nondepleting anti-CD4 monoclonal antibodies but not CD28 antagonists protects islet graft in spontaneously diabetic nod mice from autoimmune destruction and allogeneic and xenogeneic graft rejection.

BACKGROUND: T-cell activation and the subsequent induction of effector functions require not only the recognition of antigen peptides bound to MHC molecules by T-cell receptor (TCR) for antigen but also a costimulatory signal provided by antigen presenting cells. CD4 T-cell activation and function require the CD4 molecule as a coreceptor of TCR. The CD28/B7 pathway is a major costimulatory signal for T-cell activation and differentiation. METHODS: The effect of targeting CD4 by nondepleting anti-CD4 monoclonal antibodies (mAbs) versus blocking CD28/B7 by CTLA4Ig, anti-CD80 mAbs, and anti-CD86 mAbs on the prevention of recurrence of autoimmune diabetes after MHC-matched nonobese diabetes-resistant (NOR) islet transplantation in nonobese diabetic (NOD) mice were compared. Whether nondepleting anti-CD4 mAbs prolong allogeneic islet graft survival and xenogeneic pig islet graft survival in diabetic NOD mice were studied. Furthermore, the effect of nondepleting anti-CD4 mAbs combined with CTLA4Ig on allogeneic islet graft survival in NOD mice was investigated. RESULTS: Recurrence of autoimmune diabetes can be prevented by nondepleting anti-CD4 mAbs. Blocking the CD28/B7 costimulatory pathway by CTLA4Ig or by anti-CD80 mAbs and anti-CD86 mAbs cannot prevent recurrence of autoimmune diabetes after islet transplantation. Short-term treatment with nondepleting anti-CD4 mAbs significantly prolongs allogeneic islet graft survival and xenogeneic pig islet graft survival in diabetic NOD mice. But nondepleting anti-CD4 mAbs combined with CTLA4Ig decreased allogeneic islet graft survival. CONCLUSIONS: Nondepleting anti-CD4 mAbs but not CD28 antagonists protect islet grafts in diabetic NOD mice from autoimmune destruction and allogeneic and xenogeneic graft rejection. The efficacy of nondepleting anti-CD4 mAbs is compromised when it combines with CTLA4Ig.     

CTLA4Ig基因对大鼠胰岛移植后排斥反应的治疗作用

目的　研究CTLA4Ig基因在糖尿病大鼠体内表达及其产物对胰岛移植物存活的作用。方法　利用Lipofectin载体包裹CTLA4IgcDNA质粒后转染鼠胰岛和肌肉细胞 ,检测移植后CT LA4Ig表达和T淋巴细胞转化率。结果　胰岛移植术后 7dT淋巴细胞转化试验 ,实验组 (A组 )和对照组 (B组 )每分钟脉冲数 (cpm)分别为175 .7± 98.2 ,2 5 4.4± 116 .3 ,两组比较差异显著 (P <0 .0 5 )。A组胰岛移植第 7d ,2只大鼠血清CTLA4Ig呈阳性 (阳性率 2 0 % )。A、B两组胰岛移植后血糖维持正常时间分别为 (14.8± 12 .3)d和 (3 .6± 5 .1)d ,两组比较差异显著 (P <0 .0 5 )。A、B两组大鼠平均存活时间分别为 (2 4.0± 10 .8)d和 (10 .8± 4.8)d ,两组比较 ,差异有极显著性 (P <0 .0 1)。结论　脂质体包裹的CTLA4IgcDNA转染肌细胞和胰岛细胞 ,可以在受体大鼠胰岛细胞或肌肉组织中表达 ,其表达产物可使胰岛移植物和受体鼠存活时间明显延长 ,抑制细胞免疫活性 ,发挥其治疗排斥反应的作用     

Blockade of the PD-1/PD-1L pathway reverses the protective effect of anti-CD40L therapy in a rat to mouse concordant islet xenotransplantation model

BACKGROUND: We have previously demonstrated that costimulatory blockade with anti-CD40L monoclonal antibody (mAb) prolongs the survival of non-vascularized concordant rat to mouse islet xenografts. Here, we examine whether signaling through the PD-1/PD-1L pathway is required for the anti-CD40L therapy to prolong concordant islet graft survival using a novel anti-murine PD-1 mAb (clone 4F10). METHODS: C57BL/6 mice received a cellular concordant islet xenograft under the left kidney capsule and four experimental groups were prepared. Group I: untreated control; group II: recipient mice were treated with three doses of 0.5 mg of anti-CD40L mAb (clone MR1) on days 0, 2 and 4; group III: mice were treated with 0.5 mg of anti-PD-1 (CD279) mAb (clone 4F10) every other day for 8 days; and finally group IV: mice received the combined treatment that consisted of anti-CD40L plus anti-PD-1 mAb. RESULTS: Concordant islet xenografts transplanted in control untreated mice showed a median survival time (MST) of 17 +/- 7.43 days, whereas anti-CD40L treatment led to a significant prolongation of graft survival (MST: 154 +/- 65.56, P < 0.0001). The administration of anti-PD-1 alone significantly accelerated graft rejection compared to non-treated controls (MST: 10 +/- 2.24 vs. MST: 17 +/- 7.43, P < 0.0004). Remarkably, the combined administration of anti-CD40L and anti-PD-1 reversed the protective effect obtained with anti-CD40L alone (anti-CD40L, MST: 154 +/- 65.56 vs. anti-CD40L plus anti-PD-1, MST: 10 +/- 7.72, P < 0.0002). CONCLUSION: Overall, our data indicate that the PD-1/PD-1L pathway is required for the achievement of prolonged graft survival in anti-CD40L-treated mice in a setting of rat to mouse concordant islet xenotransplantation.     

Favorable effect of cotransfection with TGF-beta and CTLA4Ig of the donor kidney on allograft survival

BACKGROUND/AIMS: Gene transfer of viral interleukin 10 (vIL-10) or transforming growth factor beta (TGF-beta) successfully prolonged liver and heart graft survival. Here we assessed whether injection of adenovirus (Ad) coding vIL-10 (AdvIL-10) or TGF-beta3 (AdTGF-beta3) prolonged kidney allograft survival. Since we previously demonstrated that transfection of the donor kidney with CTLA4Ig significantly prolonged allograft survival, we also evaluated the effect of a combined injection of AdvIL-10 or AdTGF-beta3 with the AdCTLA4Ig. METHODS: Adenoviral vectors or saline were ex vivo injected into the renal artery of Brown Norway (RT.1n) donor kidneys subsequently grafted into Lewis (RT.1(l)) rats. Graft survival, transgene expression, graft cell infiltration, and histological changes were assessed. RESULTS: Allografts of saline or Ad-beta-galactosidase controls were promptly rejected (mean survival time +/- SE 7.6 +/- 0.2 and 7.8 +/- 0.3 days, respectively). AdvIL-10 significantly prolonged survival only in 2 out of 9 animals (23.2 +/- 9.9 days), with vIL-10 expression detected on day 4. Survival was prolonged in 1 out of 5 animals by AdTGF-beta3 (14.4 +/- 5.3 days) despite the fact that the transgene was still observed after 14 days. While the combined injection of AdvIL-10 with AdCTLA4Ig did not protect the kidney from rejection (17.4 +/- 4.6 days), AdTGF-beta3 added to AdCTLA4Ig consistently prolonged the allograft lifespan in all animals (70.6 +/- 39.6 days), inducing indefinite survival in 1 animal which showed long-term gene expression and T cells hyporesponsive to alloantigens. CONCLUSION: Overexpression of AdTGF-beta3 concomitant with the blockade of the CD28/B7 pathway by AdCTLA4Ig induces strong immunosuppression that occasionally allows the acceptance of a fully major histocompatibility complex mismatched renal graft.     

Pancreatic islet xenograft tolerance after short-term costimulation blockade is associated with increased CD4+ T cell apoptosis but not immune deviation

BACKGROUND: Our purpose was to determine if short-term inhibition of the CD40/CD40L and CD28/B7 costimulatory pathways was capable of inducing specific unresponsiveness to pancreatic islet xenografts and to ascertain the mechanism of tolerance induction. METHODS: Diabetic B6AF1 mice were transplanted with Wistar or DA rat islets and were treated short term with CTLA4-Fc and anti-CD40L mAb (MR1). RESULTS: Coadministration of CTLA4-Fc with MR1, resulted in indefinite rat islet xenograft survival in mice. Tolerance was species but not strain specific as long-term surviving recipients rejected third party BALB/c islet allografts but accepted a second rat islet xenograft from the same or different donor strain. Tolerance induction was associated with a large leukocyte infiltrate that did not exhibit features of immune deviation as intragraft T cell-specific cytokine gene expression was globally reduced. In particular, interleukin-4 gene expression was markedly suppressed. There was a complete inhibition of anti-donor IgG, IgG1, and IgM antibody in the serum of CTLA4-Fc/MR1- treated animals. Tolerance induction was associated with increased CD4+ T cell apoptosis as there was an increased proportion of annexin-V staining and Fas expressing CD4+ T cells and a decrease in CD4+ T cell Bcl-2 expression in the grafts and draining lymph nodes of CTLA4-Fc/MR1-treated recipients. CONCLUSION: Combined costimulatory blockade was capable of producing tolerance to pancreatic islet xenografts. The induction of this tolerant state was associated with increased T cell apoptosis, whereas the maintenance phase of tolerance was associated with the accumulation of a large number of inactive lymphocytes within the graft.     

阻断糖尿病小鼠共刺激分子延长异种胰岛移植细胞功能

目的 阻断多种共刺激分子而诱导免疫耐受,以延长移植到糖尿病小鼠体内的猪胰岛细胞的功能.方法 将猪胰岛细胞移植于链脲佐菌素诱导的雄性C57BL/6糖尿病小鼠左肾被膜下,应用CTLA-4Ig融合蛋白、抗LFA-1抗体和抗CD40L抗体阻断多种其刺激分子,观察移植效果及移植物存活时间.结果 猪胰岛细胞移植后可降低糖尿病小鼠血糖;与对照组相比.实验组胰岛细胞存活时间明显延长,结论应用CTLA-4Ig融合蛋白、抗LFA-1抗体和抗CD40L抗体可延长异种移植胰岛细胞存活时间.