共刺激分子CD28/B7家族在抑制肝脏移植排斥反应中的研究现状及展望

1简介共刺激分子B7-CD28家族在T细胞的激活、形成免疫耐受有着重要的作用,他们不仅可提供激活T细胞的正性信号来刺激T细胞分泌细胞因子、促进T细胞分化,而且还可以提供限制、终止和/或减弱T细胞反应的负性信号[1、2]。人们研究利用B7-CD28家族的这一性质来对某些疾病进行治疗,例如:通过促进免疫反应来治疗病毒感染和肿瘤;通过抑制免疫反应来防治器官移植排斥反应和自身免疫疾病。在B7-CD28家族中,研究最深入的是B7-1和B7-2。他们具有两个受体:具有激活T细胞功能的CD28分子和具有抑制T细胞功能的细胞毒T淋巴细胞相关抗原4(cytotoxic…     

阻断B7/CD28共刺激通路抑制大鼠肝移植急性排斥反应的研究

目的:建立大鼠原位肝移植(ROLT)急性排斥反应模型,观察细胞毒淋巴细胞抗原4免疫球蛋白(CTLA-4Ig)在大鼠肝移植术后对共刺激分子B7-1/B7-2的影响及其抗排斥反应的作用。方法:采用"二袖套管"法先行建立DA-Lewis大鼠组合肝移植急性排斥反应模型,随机分为对照组(A组)与实验组(B组)两组,于肝移植术后48h每只受体大鼠腹腔内一次性注射CTLA-4Ig 75μg,分别于术后3、5、7和10d采用RT-PCR检测B7-1和B7-2 mRNA在两组肝脏组织中的表达情况,并同时观察其肝功能变化。结果:1)B7-1和B7-2 mRNA在A组高水平表达,而在B组表达明显降低(P<0.01);2)B组动物术后未见明显排斥反应,血清ALT、TBIL和DBIL水平明显低于对照组(P<0.01)。结论:移植术后应用CTLA-4Ig可以降低肝组织中B7-1和B7-2的表达;动态检测B7分子的表达有助于观察肝移植排斥反应的进程。     

The protective effect of CD8+CD28- T suppressor cells on the acute rejection responses in rat liver transplantation

Regulatory T cells (Tr) or T-suppressor cells (Ts), which include CD4+CD25+ T cells and CD8+CD28- T cells respectively, have been shown to be essential for the induction and maintenance of immune tolerance. We have investigated the effect of CD8+CD28- Ts and CD4+CD25+ Tr on acute rejection responses in rat liver transplantation (OLT). METHODS: CD8+CD28- Ts/CD4+CD25+ Tr were obtained from inbred and na?ve rats that show spontaneous tolerance to OLT. Adoptive transfers were performed in acute rejection models of various strain combinations with survival times observed to evaluate suppressive effects. Donor-specific blood transfusion (DST) was used to induce CD8+CD28- Ts in na?ve rats, which were assayed in vitro using carboxyfluorescein diacetate succinimidyl easter-labeled one-way mixed lymphocyte reactions. Secondary adoptive transfers of DST-induced CD8+CD28- Ts were also performed in an acute OLT rejection model. RESULTS: CD8+CD28- Ts from tolerant OLT model rats possessed immunosuppressive activity in allogeneic recipients; adoptive transfers of these cells alleviated the acute rejection responses. However, CD4+CD25+ Tr derived from tolerant or na?ve rats failed to do so. In vitro DST-induced CD8+CD28- Ts inhibited alloantigen T-cell responses in na?ve syngeneic rats in an antigen-specific manner. Secondary adoptive transfer of DST-induced CD8+CD28-Ts further reduced acute rejection but not chronic rejection responses. CONCLUSIONS: CD8+CD28- Ts cells protected allogeneic recipients from acute rejection in rat OLT. Furthermore, this activity was not present in CD4+CD25+Tr. DST was observed to be an effective method to generate functional CD8+CD28-Ts in na?ve rats.     

Co-stimulation blockade targeting CD154 and CD28/B7 modulates the induced antibody response after a pig-to-baboon cardiac xenograft

BACKGROUND: The induced antibodies against Galalpha1,3Gal (Gal) and non-Gal epitopes may contribute to delayed xenograft rejection (DXR). We asked whether blockade of the CD40/CD154 and CD28/B7 co-stimulatory pathways modulates the baboon elicited antibody response to pig Gal and non-Gal antigens. METHODS: Eighteen baboons received heterotopic heart transplants from pigs transgenic for human decay-accelerating factor (n = 13) or membrane cofactor protein (n = 5). Ten reference 'conventional therapy' animals received cyclosporin A, cyclophosphamide and mycophenolate mofetil, with (n = 4) or without (n = 6) anti-CD20. Eight 'co-stimulation blockade' animals received anti-CD154 mAb (IDEC-131) and anti-thymocyte globulin, with (n = 4) or without (n = 4) anti-CD20; two of these animals also received CTLA4-Fc. Anti-alphaGal IgG and IgM, anti-non-Gal antibodies and graft histology were assessed serially. RESULTS: Excluding two early graft failures, median graft survival with conventional therapy was 15 days (range 6 to 36 days, n = 8). Anti-Gal IgG antibody remained low through day 6 to 10, only one graft failure was accompanied by significant rise in anti-Gal IgG, and the anti-non-Gal response was weak (n = 2) or absent (n = 7). However many recipients succumbed with infection (n = 4) or coagulopathy (n = 2); DXR and ICOS+ T cells were prevalent in long-surviving grafts. With co-stimulation blockade, excluding three early graft failures, median graft survival was 7 days (range 6 to 11 days, n = 5). This regimen was very well tolerated, but increased anti-Gal antibody titer within 14 days was associated with graft failure in four of six animals. Although an anti-non-Gal response was present in three of six animals during IDEC-131 monotherapy (one strong, two weak), it was absent in both cases with additional CTLA4-Fc treatment. CONCLUSIONS: As used here, CD154 blockade alone does not completely prevent induction of Gal and non-Gal anti-pig antibodies. Our preliminary data suggest that other co-stimulation pathways, including CD28/B7 and ICOS, are sufficient to mediate high-titer anti-non-Gal antibody to porcine antigens in baboons, and contribute significantly to the pathogenesis of DXR.     

A divalent human leukocyte antigen-B7 fusion-protein up-regulates CD25 and CD69 in alloreactive CD8+ T cells bypassing CD28 costimulation

BACKGROUND: T cells recognize major histocompatibility complex (MHC) molecules and their cryptic antigenic peptides on antigen-presenting cells and are generally triggered to proliferate, and when sufficient, co-stimulation is available. In soluble form, monomeric MHC molecules can induce apoptosis, anergy, or decreases of the T-cell receptor (TCR). METHODS: A dimeric fusion protein of the human leukocyte antigens (HLA)-B7 was molecularly engineered and expressed in a B-cell line to allow secretion. Alloreactive T cells were generated according to the standard protocol. RESULTS: A dimer of approximately 160 kD was obtained, affinity purified, and used to study T-cell interaction. In immobilized form, this protein efficiently stimulated alloreactive T cells to proliferate and produce interleukin (IL)-2 and interferon (IFN)-gamma in a concentration-dependent manner, up-regulating CD25 and CD69 expression. In contrast, the soluble fusion protein induced T-cell apoptosis. CONCLUSIONS: The dichotomy in T-cell regulation by a divalent MHC fusion protein warrants the use of MHC multimers as custom-designed immune-regulatory molecules both in transplantation and autoimmune disease.     

RNA干扰阻断BT／CD28共刺激通路在小鼠心脏移植中的抗排斥作用

目的探讨RNA干扰（RNAi）技术阻断B7／CD28共刺激通路对小鼠异体心脏移植排斥反应的影响及其机制。方法经体外转录合成针对CD80 mRNA和CD86 mRNA序列特异性小片段干扰RNA（siRNA），转染供者骨髓来源的树突状细胞（DC），半定量逆转录聚合酶链反应、流式细胞仪检测DC转染CD80siRNA、CD86siRNA前后CD80 mRNA和CD86 mRNA的表达水平以及细胞表面CD80及CD86的表达情况。在小鼠异位心脏移植前7d，经静脉给受者输注经siRNA干扰后的DC（干扰DC组），同时设立同种异体对照组、环孢素A（CsA）治疗组（术后皮下注射CsA 5mg／d）、同系移植对照组和未干扰DC组（移植前输注未转染DC），观察各组移植心脏的存活时间，对移植物的排斥反应进行病理分级，并测定移植物组织中白细胞介素2（IL-2）、γ干扰素（IFN-γ）及IL-10的mRNA表达水平。结果siRNA转染DC后，其CD80 mRNA及CD86 mRNA的表达受到明显抑制，CD80、CD86的阳性率分别由84％和67％下降至35％和30％。与同种异体对照组和未干扰DC组比较，干扰DC组移植心脏存活时间明显延长（P〈0．01），组织排斥反应病理分级显著降低（P〈0．01），移植心脏组织中IL-2 mRNA和IFN-γ mRNA的表达水平明显降低（P〈0．01），而IL-10 mRNA的表达水平明显升高（P〈0．01）。结论利用RNAi敲减供者骨髓来源的DC表面B7分子的表达，以阻断BT／CD28共刺激通路，具有抑制小鼠心脏移植排斥反应的作用，其机理可能是通过诱导T淋巴细胞无能并使T辅助细胞分化向Tn2型方向偏移。     

RNA干扰阻断B7/CD28共刺激通路在小鼠心脏移植中的抗排斥作用

目的探讨RNA干扰(RNAi)技术阻断B7/CD28共刺激通路对小鼠异体心脏移植排斥反应的影响及其机制。方法经体外转录合成针对CD80 mRNA和CD86 mRNA序列特异性小片段干扰RNA(siRNA),转染供者骨髓来源的树突状细胞(DC),半定量逆转录聚合酶链反应、流式细胞仪检测DC转染CD80siRNA、CD86siRNA前后CD80 mRNA和CD86 mRNA的表达水平以及细胞表面CD80及CD86的表达情况。在小鼠异位心脏移植前7d．经静脉给受者输注经siRNA干扰后的DC(干扰DC组),同时设立同种异体对照组、环孢素A(CsA)治疗组(术后皮下注射CsA 5 mg/d)、同系移植对照组和未干扰DC组(移植前输注未转染DC),观察各组移植心脏的存活时间,对移植物的排斥反应进行病理分级,并测定移植物组织中白细胞介素2(IL-2)、γ干扰素(IFN-γ)及IL-10的mRNA表达水平。结果siRNA转染DC后,其CD80 mRNA及CD86 mRNA的表达受到明显抑制,CD80、CD86的阳性率分别由84%和67%下降至35%和30%。与同种异体对照组和未干扰DC组比较,干扰DC组移植心脏存活时间明显延长(P＜0．01),组织排斥反应病理分级显著降低(P <0．01),移植心脏组织中IL-2 mRNA和IFN-γmRNA的表达水平明显降低(P＜0．01),而IL-10 mRNA的表达水平明显升高(P＜0．01)。结论利用RNAi敲减供者骨髓来源的DC表面B7分子的表达,以阻断B7/CD28共刺激通路,具有抑制小鼠心脏移植排斥反应的作用,其机理可能是通过诱导T淋巴细胞无能并使T辅助细胞分化向T_H2型方向偏移。     

The effect on the proliferation and apoptosis of alloreactive T cells of cell dose in a murine MHC-mismatched hematopoietic cell transplantation model

Activation-induced cell death (AICD) of lymphocytes is an apoptotic pathway involved in the control of T-cell homeostasis. The magnitude of graft-vs.-host disease (GVHD) following allogeneic hematopoietic cell transplantation may be attenuated by the enhancement of AICD. The aim of the present study was to clarify the effect of T cell dose upon the fate (proliferation or apoptosis) of individual activated T cells in a murine GVHD model. To this end, we investigated the kinetics of the proliferation and apoptosis of donor T cells in recipient spleens in the early stage of a fully major histocompatibility complex (MHC)-mismatched murine transplantation model from C57BL/6 (H-2(b)) to lethally-irradiated (8.5 Gy) BALB/c (H-2(d)) mice. To track the behavior of alloreactive lymphocytes in vivo, we used the fluorescent cytoplasmic dye carboxyfluorescein diacetate succinimidyl ester in combination with flow cytometry. Engraftment of donor T cells to recipient spleens was almost completed within 24 h after transfer. After that, at higher doses of transferred cells, the donor T cells actively divided for up to 72 h resulting in a 30-fold increase in cell number at the maximum cell dose (2.0 x 10(7)). As the transferred cell dose decreased, the proliferation of T cells tended to be suppressed. At cell doses of 0.5 x 10(7) or less, the proliferation of T cells was profoundly suppressed, ultimately resulting in little proliferation of donor T cells observed from 24 to 72 h at the minimum cell dose (0.1 x 10(7)). The frequency of Annexin-V-positive cells was found to increase gradually as the transferred cell dose decreased. Thus, an increase in apoptotic events appeared to play an important role in the suppression of the proliferation of T cells at lower splenocyte doses. Further analyses revealed that Fas ligand (FasL)-positive T cells were observed exclusively among T cells that divided at least 5 times, and that all of them were positive for Annexin-V, indicating that they were in the process of apoptosis. Together with our finding that the frequency of apoptosis increased with the progression of cell division, these findings strongly suggest that AICD occurred through the Fas/FasL system and that AICD increased as the dose of donor T cells participating in the allogeneic response decreased. When relatively small numbers of T cells are confronted with an excess of antigen, they disappear. This process is called clonal exhaustion-deletion. Our results support the idea that AICD is involved in the process of clonal exhaustion-deletion. Relevant to the clinical aspects of hematopoietic cell transplantation, our findings indicate that AICD may be associated with tolerance induction in T-cell-depleted transplantation from HLA-mismatched donors, in which T cells contaminating marrow grafts do not need to be completely removed for achieving tolerance between donors and recipients. Furthermore, our results indicate that a small change in the quantitative balance between antigens and T cells responding to them leads to a large difference in the fate of T cells activated in response to MHC-incompatible antigens. Thus, the size of the T cell dose is one of the important considerations in tolerance induction, GVHD and rejection.     

输注供者CD8+CD28-调节性T淋巴细胞抑制大鼠肝移植急性排斥反应的作用

目的 评价具有免疫抑制作用的CD8+CD28-调节性T淋巴细胞(Treg)体内输注在抑制大鼠肝移植急性排斥反应中的作用.方法 建立近交系大鼠肝移植自发耐受及急性排斥反应模型.从肝移植自发耐受模型受者脾脏中分离CD8+CD28-Treg,于急性排斥反应模型建立前1 d输注给受者,比较不同的输注组间受者的存活时间和移植肝病理学表现.结果 来自自发耐受模型(LEW大鼠为供者,DA大鼠为受者)的CD8+CD28-Treg输注可以延长急性排斥反应模型(LEW大鼠为供者,BN大鼠为受者)受者的存活时间,由(14.0±2.2)d延长至(24.0±3.0)d(P＜0.01),移植肝病理学显示排斥反应程度减轻.结论 大鼠肝移植自发耐受模型受者体内诱导的CD8+CD28-Treg具有抑制急性排斥反应的作用,该免疫抑制作用具有抗原特异性.     

CD4+CD28null T cells are not alloreactive unless stimulated by interleukin‐15

Proinflammatory, cytotoxic CD4⁺CD28^null T cells can be substantially expanded in patients with end‐stage renal disease. These cells have been associated with the risk for rejection, but their alloreactive potential is unknown. CD4⁺CD28^null T cells were stimulated with HLA‐mismatched antigen presenting cells in the absence/presence of exogenous cytokines. Alloreactive potential was evaluated based on proliferation, degranulation, cytotoxicity, and cytokine production. Further, their suppressive capacity was assessed by measuring inhibition of proliferating alloreactive CD28⁺ T cells. CD4⁺CD28^null T cells contained alloreactive (CD137⁺) T cells but did not proliferate in response to allogeneic stimulation, unless interleukin (IL)‐15 was added. However, they could proliferate on stimulation with cytomegalovirus antigen without exogenous cytokines. IL‐15 increased the frequency of proliferating alloreactive CD4⁺CD28^null T cells to 30.5% without inducing CD28 expression (P < .05). After allogeneic stimulation together with IL‐15 and IL‐21, frequency of degranulating CD107a⁺CD4⁺CD28^null T cells increased significantly from 0.6% to 5.8% (P < .001). Granzyme B and perforin positivity remained similar, but production of interferon‐γ and tumor necrosis factor‐α increased by the combination of IL‐15 and IL‐21 (P < .001 and P < .05, respectively). Finally, CD4⁺CD28^null T cells did not show significant suppression. Thus, CD4⁺CD28^null T cells represent a population with absent alloreactivity unless IL‐15 is present.     

Differential impact of CD154 costimulation blockade on alloreactive effector and regulatory T cells in murine renal transplant recipients

BACKGROUND: Although CD154 costimulation blockade prolongs allograft survival in multiple transplantation models, the underlying immunological mechanisms remain to be elucidated. METHODS AND RESULTS: We used a murine orthotopic kidney allograft (KTx) model to analyze the impact of CD154 blockade on trafficking and function of alloreactive T effector versus T regulatory cells. A single dose of MR1 Ab treatment at the time of KTx significantly improved the survival of Balb/c KTx in na?ve C57BL/6 recipients (mean survival time >100 days vs. 52 days in controls; P<0.005), and improved graft histology, as evidenced by decreased lymphocyte infiltration and preservation of tissue architecture (days 6-8). In the early posttransplant phase, fluorescence-activated cell sorting analysis revealed preferential depression of T effector (CD8+CD25+) and relative enrichment of T-regulatory (CD4+ CD25+ CD152+) cells selectively in KTx. This pattern was further supported by intragraft gene expression analysis, which showed increased FoxP3/Tbet ratio and simultaneously decreased granzyme B/IFN-gamma levels in Ab-treated recipients. Additionally, MR1 Ab selectively up-regulated intragraft CCL17, but suppressed CXCL9/CCL5, in parallel with increased CCR4/CCR8 but unaltered CXCR3 expression. CONCLUSION: These results provide evidence, at both cellular and molecular levels, that CD154 blockade in murine KTx recipients differentially targeted T-effector and T-regulatory cell subsets by regulating intragraft induction of chemokines targeting distinct T-cell subsets.     

阻断B7诱导大鼠心脏移植免疫耐受的实验研究

目的　研究阻断B7方法诱导大鼠心脏异位移植的免疫耐受。　方法　采用Ono法建立大鼠异位心脏移植模型 ,实验组腹腔注射B7阻断剂CTLA 4Ig,观察大鼠移植的心脏存活天数 ,病理改变和术后IL 2 ,IgG以及IgM含量的变化。　结果　实验组移植的心脏存活时间为 :(31 6 0± 1 82 )d ,对照组 (7 2 5± 0 71)d ,差异有显著性意义 (P <0 0 1)。组织学改变 :实验组见局灶性血管周围或间质内淋巴细胞浸润和局灶性心肌损伤 ,病理分级Ⅰ～Ⅱ级。对照组可见大量淋巴细胞浸润 ,心肌细胞损伤和坏死 ,间质内出血水肿 ,病理分级Ⅳ级。术后IL 2含量实验组比对照组明显下降 ,有显著性差异 ,P <0 0 1。IgG和IgM含量差异无显著性意义 (P >0 0 5 )。　结论　阻断B7能诱导大鼠心脏移植免疫耐受 ,为移植排斥反应提供了新的治疗方法     

Contrasting effects of B cell depletion on CD4+ and CD8+ memory T cell responses generated after transplantation

Alloreactive memory T cells play a key role in transplantation by accelerating allograft rejection and preventing tolerance induction. Some studies using µMT mice, which are constitutionally devoid of B cells, showed that B cells were required for the generation of memory T cells after allotransplantation. However, whether B cell depletion in normal adult mice has the same effect on memory responses by CD4⁺ and CD8⁺ T cells activated after transplantation has not been thoroughly investigated. In this study, we tested the effect of anti‐CD20 antibody‐mediated B cell depletion on CD4⁺ and CD8⁺ memory T cell alloresponses after skin transplantation in wild‐type mice. We found that B cell depletion prevented the development of memory alloresponses by CD4⁺ T cells but enhanced that of CD8⁺ memory T cells. Next, we tested the influence of B cell depletion on hematopoietic chimerism. In OT‐II CD4⁺ anti‐OVA TCR transgenic mice sensitized to ovalbumin antigen, B cell depletion also impaired allospecific memory T cell responses and thereby enhanced donor hematopoietic chimerism and T cell deletion after bone marrow transplantation. This study underscores the complexity of the relationships between B and T cells in the generation and reactivation of different memory T cell subsets after transplantation.     

A more selective costimulatory blockade of the CD28‐B7 pathway

Progress from the last decade in the understanding of T‐cell activation has led to new immunotherapeutic strategies for the treatment of immunological diseases. Since the discovery of costimulatory molecules in the 1980s, the field of T‐cell costimulation blockade has literally exploded and now spanned ‘from bench to bedside’. Such alternative therapies result in more selective effects specializing their action on Ag‐experienced T lymphocytes. This can potentially prevent the progression of autoimmune diseases, allograft rejection and may even induce immune tolerance. In the 1990s, the CD28/B7/CTLA‐4 pathway was identified as a crucial regulator of T‐cell activation and tolerance induction. Here, we have summarized our current understanding of this complex costimulatory pathway involving co‐stimulatory and co‐inhibitory molecules and the way we can manipulate these molecules to inhibit, stimulate or kill target cells in experimental preclinical models as well as in clinical trials. We have also reviewed the role of costimulation in the biology of CD4+ CD25+ Foxp3+ regulatory T cells.     

Reduction of naive CD4/CD45RA+ T cells in children with biliary atresia before and after liver transplantation

The aim of this study was to examine whether liver transplantation reverses the abnormal distribution of lymphocyte subsets previously observed in biliary atresia children, namely a selective decrease in the naive CD4/CD45RA+ T cell subset and an increase in the B and natural killer cell subpopulations. Eight biliary atresia children aged 1.08 to 6 years were studied before and 1 year after LTx for comparison with 15 age-matched healthy controls. The posttransplant immunosuppressive regimens included prednisone [0.1 mg/kg] and tacrolimus (level range: a 10-12 microg/dL). The percentage, absolute cell number, and receptor density were assessed by the use of double color flow cytometry (EPICS-XL MCL fluorocytometer). Biliary atresia patients were compared after LTx with subjects before LTx, essentially showing no statistically significant changes in lymphocyte subsets. We conclude that LTx of biliary atresia children does not reverse the abnormal lymphocyte subset distribution present before transplantation. Hence, these changes may reflect either their independence from the liver status or may result from immunosuppressive treatment that contributes to defective CD4+ T cell regeneration reflected by a deficiency in CD4/CD45RA+ naive T cells.     

The roles of CD25+CD4+ regulatory T cells in operational tolerance after living donor liver transplantation

Recent evidence suggests that CD4+CD25+ regulatory T cells (Tregs) affect immune responses, including those to alloantigens in organ transplants. We have followed a group of liver allograft recipients with good liver graft function who have been weaned off immunosuppression (IS). The purpose of this study was to determine whether Tregs contributed functionally to the mechanisms of graft acceptance. MATERIAL AND METHODS: The functional assay used peripheral blood obtained from LTx recipients free of immunosuppression. The Whole population of CD4+ T cells and the CD4+ T cells depleted of CD4+CD25 high cells were tested for proliferation against donor versus third party stimulators. Moreover to determine the antigen-specificity of the Tregs, serially diluted numbering of CD4+CD25+ T cells were co-cultured with CD4+CD25- T cells. The proliferation responses were examined toward donor versus third party stimulators. RESULT: CD4+ T cells from all LTx recipients off immunosuppression showed hyporesponsiveness to the donor but not to third party stimulators. However, even after depletion of the CD4+CD25 high population, the cells continued to be hyporesponsive toward the donor. In four out of five cases, the suppression exhibited by CD4+CD25+ T cells was more specific for the donor. DISCUSSION: These findings suggest that donor alloantigen specific regulation by Tregs is one of multiple mechanisms that may contribute to the maintenance of liver graft survival in the absence of immunosuppression.     

Flt3-L augments the engraftment of donor-derived bone marrow cells when combined with sublethal irradiation and costimulatory (CD28/B7 and CD40/CD40L) blockade

T-cell costimulatory blockade as a constituent for recipient conditioning prior to bone marrow transplantation has led to the development of less toxic protocols for the establishment of donor cell chimerism. We therefore hypothesized that the addition of the hematopoietic growth factor, Flt3-ligand (Flt3-L), to the perioperative inhibition of the CD28/B7 and CD40/CD40 ligand costimulatory pathways would enhance the engraftment of allogeneic bone marrow. Recipient BALB/c ByJ (H-2(d), Mls(c), Vbeta6+/Vbeta8+ TCR) received a single sublethal dose of total body irradiation (300 rad) 6 h prior to transplantation IV with unfractionated donor CBA/J (H-2(k), Mls(d), Vbeta6-/Vbeta8+ TCR) bone marrow cells. CTLA4-Ig and/or MRI were administered at 500 microg IP on days 0, 2, 4, and 6 posttransplantation. Flt3-L was administered at 10 microg IP on days 0-6. Donor cell chimerism was determined on days 30-90 by flow cytometric analysis. Donor-specific tolerance was assessed by skin grafting. In vitro TCR cross-linking assays and flow cytometry were utilized to explore the deletion of donor-reactive T cells. Recipients receiving CTLA4-Ig and MRI engrafted allogeneic bone marrow cells in the peripheral blood (3/6; 50%) with chimerism being detected at 2-31%. Addition of Flt3-L to this preconditioning regimen enhanced the incidence of engraftment of donor bone marrow cells (10/13; 3-70%). Long-term survival of donor but not third-party-specific skin grafts demonstrated that donor-specific tolerance had been achieved in the chimeric recipients. Deletion of the donor-reactive T cells within the chimeric recipients was also observed. The addition of hematopoietic growth factors and cytokines to the nonmyeloablative regimen of sublethal irradiation and T-cell costimulatory blockade provides a novel strategy for the establishment of donor cell chimerism and for the induction of stable and robust donor-specific tolerance. The deletion of donor-reactive T cells using this protocol suggests the reliability and feasibility of this protocol for clinical transplantation.     

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

Objective To induce the tolerance to cardiac allograft by combined blockade of OX40/OX40L and CD28/B7 co-stimulatory signaling and donor specific spleen cell transfusion in rat mod-els of pre-existent allogenic reactive memory T lymphocytes. Methods Lewis rats that underwent 3 days of adoptive transfer of donor specific CD8+ memory T cells, separated by immunomagnetic bead separation kit, received either separate or combined transfusion of AdCTLA4Ig, AdOX40Ig, donor spleen cells (DST) and transplantations of hearts of DA rats at the same time. Cardiac allografts were taken out 48 h after transplantation for histological analysis and cytokines expression ,and survival time of cardiac allografts with different treatments was observed. Results Compared with AdCTLA4Ig, AdOX40Ig and DST groups, AdCTLA4Ig + AdOX4OIg + DST group showed lower cardiac pathological grade with much lower expression level of IL-2 and IFN-γ,and much longer heart survival time. Conclusion Combined blockade of OX40/ OX40L and CD28/B7 and donor specific spleen cell transfusion could induce rat cardiac graft tolerance.