Increased expression of transforming growth factor-beta and eosinophil infiltration is associated with the development of transplant arteriosclerosis in long-term surviving cardiac allografts

BACKGROUND: Transplant arteriosclerosis is a major limiting factor for long-term function of allografts in clinical transplantation. This study investigated the impact of three different protocols capable of inducing long-term allograft survival on the development of transplant arteriosclerosis and immune response in cardiac allografts. METHODS: CBA.Ca (H2k) recipients of fully allogeneic C57/BL10 (H2b) heart grafts received a short-term course of anti-CD154 antibody or were pretreated with anti-CD4 antibody in combination with donor alloantigen in the form of CBK (H2k+Kb) bone marrow or C57BL/10 donor-specific transfusion (DST). Grafts were analyzed on day 40 or 100 after transplantation for transplant arteriosclerosis and expression of interferon-gamma, interleukin (IL)-2, IL-4, IL-10, IL-12p40, inducible nitric oxide synthase, and transforming growth factor (TGF)-beta1 mRNA. Serum was analyzed for the presence of alloantibodies. RESULTS: Intimal proliferation was 62%+/-11% on day 40 in the anti-CD154 group, progressed from 31%+/-10% on day 40 to 68%+/-8% on day 100 in the CBK-bone marrow group, but remained stable at 39%+/-4% in the DST group. Increased transplant arteriosclerosis on day 100 was associated with high intragraft TGF-beta1 mRNA production and eosinophil infiltration, but not alloantibody production. Progressing transplant arteriosclerosis was associated with increased IL-4 expression. CONCLUSION: Treatment protocols for the induction of long-term allograft survival can differ substantially in the extent and kinetics of transplant arteriosclerosis. IL-4 and TGF-beta1 may be two potential therapeutic targets to attenuate the development of transplant arteriosclerosis in the long term.     

A novel CD154 monoclonal antibody in acute and chronic rat vascularized cardiac allograft rejection

BACKGROUND: The CD40-CD154 interaction is critically important in the cell-mediated immune responses. Blockade of this costimulatory pathway has been shown to prevent acute allograft rejection in murine, as well as nonhuman primate models. However, the role of the CD40-CD154 pathway in the development of chronic rejection and the effects of CD154 targeting on progression of chronic rejection have not been evaluated. METHODS: We examined the effect of AH.F5, a new hamster anti-rat CD154 monoclonal antibody, in a fully allogeneic acute(u) into Lewis [LEW] (RT11) and chronic [WF.1L (RT1l) into LEW (RT1l)] vascularized cardiac allograft rejection model. In the chronic model, the antibody was evaluated for prevention (starting day of transplant) and interruption of progression (starting day 30 or 60 after transplant) of chronic vasculopathy. Graft survival, morphology, and immunohistology were evaluated. RESULTS: In the acute rejection model, anti-CD154 therapy alone prevented acute allograft rejection and resulted in 50% long-term allograft survival (>200 days) and donor-specific tolerance. In recipients treated with anti-CD154 monoclonal antibody in combination with a short course of cyclosporine, 100% of allografts survived long-term and all recipients achieved donor-specific tolerance. In the chronic rejection model, allografts from animals treated with the anti-CD154 antibody had a statistically significant lower score of graft arteriosclerosis and fibrosis in both the prevention and 30-day interruption groups when compared with control allografts. In addition, immunohistochemistry showed a decrease in intragraft mononuclear cell infiltration and activation. CONCLUSION: A new anti-CD154 antibody not only prevents acute allograft rejection, but also inhibits and interrupts the development of chronic rejection. In the acute rejection model cyclosporine acts synergistically with anti-CD154 therapy to prolong allograft survival and induce tolerance. In the chronic rejection model relatively early initiation of therapy is essential to prevent progression of chronic allograft vasculopathy and fibrosis.     

Analysis of Intragraft Gene and Protein Expression of the Costimulatory Molecules, CD80, CD86 and CD154, in Orthotopic Liver Transplant Recipients

CD40-CD154 and/or CD28-CD80/86 costimulatory blockade induces long-term allograft survival in numerous animal models. Studies examining the expression of costimulatory molecules during acute cellular rejection (ACR) have been limited to renal and cardiac allografts. The aim of this study was to describe the relationship between intragraft costimulatory molecule expression in OLT recipients and ACR. Forty-five liver biopsies were obtained at reperfusion and day 7. Gene and protein expression of CD80, CD86 and CD154 were analyzed by RT-PCR and immunohistochemistry. CD154 protein expression was present in 13 of 18 patients with a RAI score of 4, but in only two of 14 patients with a RAI score of <4. There was a strong association between the RAI score and the presence of CD80 and CD154 immunoreactivity. CD86 protein expression did not correlate with the severity of ACR. In reperfusion biopsies CD154, but not CD80 or CD86, protein expression correlated with the total ischaemic time. There was no association between expression of costimulatory molecule genes and ACR. In conclusion, we have demonstrated an association between CD154 and CD80 protein expression and ACR in orthotopic liver allografts.     

Evaluation of donor-specific transfusion sources: unique failure of bone marrow cells to induce prolonged skin allograft survival with anti-CD154 monoclonal antibody

BACKGROUND: Treatment with anti-CD154 monoclonal antibody (mAb) plus a donor-specific transfusion (DST) of spleen cells prolongs skin allograft survival in mice through a mechanism involving deletion of host alloreactive CD8(+) T cells. It is unknown if other lymphohematopoietic cell populations can be used as a DST. METHODS: Murine recipients of allogeneic skin grafts on day 0 were either untreated or given a DST on day -7 plus 4 doses of anti-CD154 mAb on days -7, -4, 0, and +4. Deletion of CD8(+) alloreactive cells was measured using "synchimeric" CBA recipients, which circulate trace populations of TCR transgenic alloreactive CD8(+) T cells. RESULTS: Transfusion of splenocytes, thymocytes, lymph node cells, or buffy coat cells led to prolonged skin allograft survival in recipients treated with anti-CD154 mAb. In contrast, bone marrow DST failed to delete host alloreactive CD8(+) T cells and was associated with brief skin allograft survival. Transfusions consisting of bone marrow-derived dendritic cells or a mixture of splenocytes and bone marrow cells were also ineffective. CONCLUSIONS: Donor-specific transfusions of splenocytes, thymocytes, lymph node cells, or buffy coat cells can prolong skin allograft survival in recipients treated with costimulation blockade. Bone marrow cells fail to serve this function, in part by failing to delete host alloreactive CD8(+) T cells, and they may actively interfere with the function of a spleen cell DST. The data suggest that transplantation tolerance induction protocols that incorporate bone marrow cells to serve as a DST may not be effective.     

Induction of donor-specific tolerance by adenovirus-mediated CD40Ig gene therapy in rat liver transplantation

BACKGROUND: Blockade of CD40-CD40 ligand (CD154) costimulatory pathway with anti-CD154 antibody (Ab) prolongs allograft survival in experimental organ transplantations; however, repeated agent administration is needed to provide an adequate immunosuppression. Seeking for simple and effective approach to interfere this signaling, we applied adenovirus-mediated gene therapy by encoding CD40Ig gene (AdCD40Ig). METHODS: Liver graft from ACI (RT1av1) rat was transplanted orthotopically into LEW (RT1l) rat, and AdCD40Ig was given to animals via the penile vein immediately after grafting (n=6). RESULTS: A single treatment with AdCD40Ig at 1x10(9) plaque forming units induced specific expression of CD40Ig gene on allograft liver, produced substantial amount of the protein in the sera, and allowed indefinite graft survival. Whereas, LEW recipients given no treatment or control adenovirus vector (AdLacZ) promptly rejected ACI liver. In addition, AdCD40Ig-treated, long-term survivors accepted skin graft from the donor strain but not the third party graft. Histopathology revealed that liver structure of the long-term surviving animals was completely preserved in normal with no infiltration of mononuclear cells. CONCLUSION: Blockade of CD40-CD154 pathway by CD40Ig gene therapy is a potent alloantigen-specific immunosuppressive strategy to induce permanent acceptance of liver allograft and would be a new therapeutic candidate in a clinical liver transplantation.     

Immunological evaluation of combination therapy with tacrolimus and sirolimus on long-term allograft survival in nonhuman primates

We reported that a 60-day course of combination therapy with tacrolimus and sirolimus induced long-term survival of renal allograft after withdrawal of immunosuppressants in Vervet monkeys. In the present study, the mechanism of drug-induced allograft survival was evaluated via Th1/Th2 cytokines, apoptosis and MLC activity in primates. MATERIALS AND METHODS: Cytokines were evaluated by ELISA. MLR and CTL assays were performed by incorporation of 72 hours (3)H-TdR and 4 hours (51)Cr release assay. RESULTS: A 60-day course of tacrolimus with sirolimus resulted in long-term survival of kidney allografts. (67% > 100 days) without intermittent acute rejection. Low sensitivity to MLR was seen in long-term renal allograft survival among monkeys treated with tacrolimus and sirolimus. Increased levels of CD3(+)CD8(+), CD3(+)/CD56(+) NKT cells and CD86(+)CD8(-)CD11(+) dendritic cells were observed. A population of high expression of CD4(+)FasL(+) was detected. In addition, the concentrations of IL-2 and IFN-gamma from long-term allograft surviving monkeys was not significantly increased, rather a late phase dominance of Th2, IL-4, IL-10, and TGF-beta was found correlated with long-term survival of recipients. In conclusion, the mechanism of tacrolimus and sirolimus induced long-term allograft survival in primates relates to up-regulated FasL expression, NKT cells and dendritic cells, with downregulation of MLR sensitivity. It is also associated with late-dominant expression of Th2 cytokines.     

Prolonged islet allograft survival in diabetic NOD mice by targeting CD45RB and CD154

Clinical islet transplantation is a successful procedure that can improve the quality of life in recipients with diabetes. A drawback of the procedure is the need for chronic administration of immunosuppressive drugs that, among other side effects, are potentially diabetogenic. Definition of immunosuppressive protocols that utilize nondiabetogenic compounds could further improve islet transplantation outcome. We used the NOD mouse to assess the effect of targeting the T-lymphocyte surface receptors CD45RB and CD154 in preventing loss of allogeneic islet grafts as a result of recurrence of autoimmunity and allorejection. Administration of the two antibodies led to significantly prolonged allograft survival, with a percentage of grafts surviving long-term. The therapeutic efficacy of the treatment was paralleled by a shift in CD45RB isoform expression on T-lymphocytes, increased in vitro responsiveness to interleukin-7, and increased in vitro gamma-interferon production after anti-CD3 antibody stimulation. Furthermore, graft infiltration by CD8+ T-cells was remarkably reduced. Recipient mice bearing functioning allografts were otherwise immunocompetent, as assessed in vivo and in vitro by numerous tests, including intragraft cytokine production, responsiveness to polyclonal stimulation and alloantigens, and analysis of cell subset phenotype. These data show that nondiabetogenic regimens of immunomodulation can lead to prolonged islet allograft survival in the challenging NOD mouse model.     

The role of Foxp3+ regulatory T cells in liver transplant tolerance

The liver has long been considered a tolerogenic organ that favors the induction of peripheral tolerance. The mechanisms underlying liver tolerogenicity remain largely undefined. In this study, we characterized Foxp3-expressing CD4+ CD25+ regulatory T cells (Treg) in liver allograft recipients and examined the role of Treg in inherent liver tolerogenicity by employing the mouse spontaneous liver transplant tolerance model. Orthotopic liver transplantation was performed from C57BL/10 (H2b) to C3H/HeJ (H2k) mice. The percentage of CD4+ CD25+ Treg was expanded in the liver grafts and recipient spleens from day 5 up to day 100 posttransplantation, associated with high intracellular Foxp3 and CTLA4 expression. Immunohistochemistry further demonstrated significant numbers of Foxp3+ cells in the liver grafts and recipient spleens and increased transforming growth factor beta expression in the recipient spleens throughout the time courses. Adoptive transfer of spleen cells from the long-term liver allograft survivors significantly prolonged donor heart graft survival. Depletion of recipient CD4+ CD25+ Treg using anti-CD25 monoclonal antibody (250 microg/d) induced acute liver allograft rejection, associated with elevated anti-donor T-cell proliferative responses, CTL and natural killer activities, enhanced interleukin (IL)-2, interferon-gamma, IL-10, and decreased IL-4 production, and decreased T-cell apoptotic activity in anti-CD25-treated recipients. Moreover, CTLA4 blockade by anti-CTLA4 monoclonal antibody administration exacerbated liver graft rejection when combined with anti-CD25 monoclonal antibody. Thus, Foxp3+ CD4+ CD25+ Treg appear to underpin spontaneous acceptance of major histocompatability complex- mismatched liver allografts in mice. CTLA4, IL-4, and apoptosis of alloreactive T cells appear to contribute to the function of Treg and regulation of graft outcome.     

An antagonist mutant IL-15/Fc promotes transplant tolerance

BACKGROUND: IL-15 is a proinflammatory and antiapoptotic T-cell growth factor that plays an important role in a variety of autoimmune disorders and transplant rejection. To inhibit IL-15 function and to target IL-15 receptor (IL-15R) bearing cells, we have generated a unique lytic antagonistic mutant IL-15/Fc fusion protein (mIL-15/Fc). METHODS: In this study, we further examined the efficacy of mIL-15/Fc in preventing allograft rejection cross minor and major histocompatibility barriers. RESULTS: A short-course treatment with mIL-15/Fc fusion protein is sufficient to prevent cardiac allograft rejection and induce antigen-specific tolerance in minor histocompatibility complex-mismatched recipients, and permit prolonged cardiac allograft survival in fully MHC mismatched recipients. In addition, mIL-15/Fc treatment, in combination with a suboptimal dose of anti-CD154 antibody, confers permanent cardiac allograft engraftment in a fully MHC-mismatched mouse strain combination. In a murine islet allograft model, mIL-15/Fc monotherapy is capable to permit permanent allograft survival in 50% fully MHC-mismatched recipients. CONCLUSION: Immunochemistry studies demonstrated that prolonged graft survival was accompanied by reduced intragraft mononuclear cell infiltration and pro-inflammatory cytokine gene expression in the mIL-15/Fc treated recipients. Moreover, parallel experiments employing a mutated nonlytic IgG2a Fc demonstrate that the Fc portion of mIL-15/Fc contributes to the overall efficacy of the molecule in vivo.     

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.     

A major role for host MHC class I antigen presentation for promoting islet allograft survival

The purpose of this study was to determine the role for CD8 T cells versus generalized MHC class I-restricted antigen presentation in islet allograft rejection and tolerance. Diabetic C57BI/6 (B6, H-2(b)) controls, C57BI/6 CD8-deficient (CD8 KO), or MHC class I-deficient C57BI/6 (beta 2m KO) recipients were grafted with allogeneic BALB/c (H-2(d)) islets. Islet allografts were acutely rejected in untreated B6, CD8 KO, and in beta 2m KO mice, indicating that neither CD8 T cells nor host MHC class I is required for allograft rejection. We then determined the efficacy of costimulation blockade in these same strains. Costimulation blockade with anti-CD154 therapy facilitated long-term islet allograft survival in both B6 and in CD8 KO recipients. However, anti-CD154 treated beta 2m KO recipients were completely refractory to anti-CD154 therapy; all treated animals acutely rejected islet allografts with or without therapy. Also, anti-NK1.1 treatment of wild-type B6 mice abrogated graft prolongation following anti-CD154 therapy. Taken together, results show a dramatic distinction between two forms of MHC class I-restricted pathways in allograft prolongation. Although anti-CD154-induced allograft survival was CD8 T-cell independent, an intact host MHC class I-restricted (beta 2m-dependent) pathway is nevertheless necessary for allograft survival. This pathway required NK1.1+ cells, implicating NK and/or NKT cells in promoting allograft prolongation in vivo.     

IFN-γ对小鼠心脏移植免疫耐受的影响

目的探讨γ干扰素(IFN-γ)对阻断共刺激信号CD40-CD40配体所诱导的小鼠心脏移植免疫耐受的作用。方法移植心脏和脾脏取自行心脏移植后的同种同系受体和同种异系受体(包括接受和未接受抗CD40配体抗体治疗),使用实时定量RT-PCR方法测定IFN-γ的表达。比较野生型小鼠和IFN-γ基因去除小鼠受体移植物的存活时间。同时比较接受MR-1治疗的野生型小鼠受体和IFN-γ基因去除小鼠受体的CD4+T细胞混合淋巴细胞反应和CD8+T细胞的细胞毒性。结果发生排斥反应的移植物较免疫耐受移植物表达更高的IFN-γ。IFN-γ基因去除小鼠受体如未接受免疫抑制治疗,移植物存活时间无明显延长,较之野生型小鼠受体反而有所缩短。使用MR-1在野生型小鼠受体中诱导出移植物的长期存活,但在IFN-γ基因去除小鼠受体中却无类似效果。IFN-γ缺失使T细胞的增殖活性及细胞毒性增强。结论在阻断共刺激信号CD40-CD40配体所诱导的移植免疫耐受中,IFN-γ能够促进免疫耐受状态的形成。     

Modified CD4(+) T-cell response in recipients of old cardiac allografts

With an increasing demand, organs from elderly donors are more frequently utilized for transplantation. Herein, we analyzed the impact of donor age on CD4(+) T-cell responses with regard to regulatory and effector mechanisms. Young (3months) BM12 recipients were engrafted with young or old (18months) B6 cardiac allografts. Systemic CD4(+) T-cell responses and intragraft changes were monitored and compared to age-matched syngenic transplant controls. While elderly, nonmanipulated hearts contained significantly elevated frequencies of donor-derived leukocytes prior to transplantation, allograft survival was age-independent. T-cell activation, however, was delayed and associated with a compromised immune response in mixed lymphocyte cultures (MLR; P=0.0002) early after transplantation (day 14). During the time course after transplantation, recipients of old grafts demonstrated an augmented immune response as shown by significantly higher frequencies of activated CD4(+) T-cells and a stronger in vitro alloreactivity (MLR; ELISPOT; P<0.01). In parallel, frequencies of regulatory T-cells had increased systemically and overall fewer CD4(+) T-cells were detected intragraft. Interestingly, changes in the CD4(+) T-cell response were not reflected by graft morphology. Of note, transplantation of young and old syngenic hearts did not show age-related differences of the CD4(+) T-cells response suggesting that old grafts can recover from a period of short cold ischemia time. Our data suggest that donor age is associated with an augmented CD4(+) T-cells response which did not affect graft survival in our model. These findings contribute to a better understanding of the immune response following the engraftment of older donor organs.     

Critical Role for IL-6 in Hypertrophy and Fibrosis in Chronic Cardiac Allograft Rejection

Chronic cardiac allograft rejection is the major barrier to long term graft survival. There is currently no effective treatment for chronic rejection except re-transplantation. Though neointimal development, fibrosis, and progressive deterioration of graft function are hallmarks of chronic rejection, the immunologic mechanisms driving this process are poorly understood. These experiments tested a functional role for IL-6 in chronic rejection by utilizing serial echocardiography to assess the progression of chronic rejection in vascularized mouse cardiac allografts. Cardiac allografts in mice transiently depleted of CD4+ cells that develop chronic rejection were compared with those receiving anti-CD40L therapy that do not develop chronic rejection. Echocardiography revealed the development of hypertrophy in grafts undergoing chronic rejection. Histologic analysis confirmed hypertrophy that coincided with graft fibrosis and elevated intragraft expression of IL-6. To elucidate the role of IL-6 in chronic rejection, cardiac allograft recipients depleted of CD4+ cells were treated with neutralizing anti-IL-6 mAb. IL-6 neutralization ameliorated cardiomyocyte hypertrophy, graft fibrosis, and prevented deterioration of graft contractility associated with chronic rejection. These observations reveal a new paradigm in which IL-6 drives development of pathologic hypertrophy and fibrosis in chronic cardiac allograft rejection and suggest that IL-6 could be a therapeutic target to prevent this disease.     

Role of CD40-CD154 pathway in the rejection of concordant and discordant xenogeneic islets

BACKGROUND: Costimulatory blockade has been shown to allow long-term survival of xenogeneic islets. The aim of the present study was to evaluate the role of recipient CD40 and CD154 in the rejection process of concordant and discordant islet xenotransplantation (Tx). METHODS: Diabetic C57BL/6 mice, CD40- or CD154 knockout (KO) mice were transplanted with either concordant rat or discordant human islets. Experimental design: group 1, control (ie, C57BL/6 mice received islet Tx without therapy); group 2, C57BL/6 mice received islet Tx with anti-CD154 monoclonal Ab (mAb) therapy; group 3, CD40 KO mice; and group 4, CD154 KO mice were used as recipients without therapy. Mouse anti-rat mixed lymphocyte reactions (MLR) were performed using mouse splenocytes obtained from animals transplanted with rat islets in groups 1 to 4. RESULTS: In group 2, short-term anti-CD154 mAb therapy significantly prolonged rat-to-mouse and human-to-mouse xenograft survival, compared to controls. In CD40-KO and CD154-KO recipients, survival of concordant or discordant islets was not prolonged significantly compared to control groups. Mouse anti-donor rat cellular responses were reduced approximately 50% in group 2 but remained unmodified in groups 3 and 4, when compared to group 1. CONCLUSIONS: Improved graft survival and reduced MLR responses against donor cells in vitro among the anti-CD154 mAb-treated mice could be explained by specific targeting of activated T cells with subsequent inactivation by anergy and/or elimination by apoptosis, or complement- or cellular-mediated mechanisms. Rejection of xenografts and strong MLR responses against donor cells in vitro in CD40 or CD154 KO animals is possible through efficient activation of alternate pathways of costimulation.     

CD8+ T cells contribute to the development of transplant arteriosclerosis despite CD154 blockade

BACKGROUND: The CD40-CD154 receptor-ligand pair plays a critical role in allograft rejection by mediating the activation of endothelial cells, antigen-presenting cells, and T cells. Blockade of this interaction prevents acute allograft rejection and leads to prolonged allograft survival in numerous experimental models, but in most cases indefinite graft survival is not achieved due to evolving transplant arteriosclerosis. In this study, we have used a model of transplant arteriosclerosis to investigate whether CD4+ and CD8+ T cells are differentially affected by CD154 blockade. METHODS: BALB/c (H2d) aortic grafts were transplanted into C57BL/6 (H2b) recipients treated with anti-CD154 monoclonal antibody in the presence or absence of CD8+ T-cell depletion. Histology and morphometric measurements were performed on day 30 after transplantation. RESULTS: Only combined treatment with anti-CD154 and anti-CD8 monoclonal antibodies resulted in a significant reduction of intimal proliferation (33 +/-10% vs. 67+/-14%; untreated control). Administration of either antibody alone did not produce this effect. Thymectomy did not alter the degree of intimal proliferation observed in any of the treatment groups. CONCLUSIONS: Our data provide direct evidence that CD8+ T cells are not targeted effectively by CD154 blockade and that the transplant arteriosclerosis seen after CD154 blockade is not due to recent thymic emigrant T cells.     

供体特异性输注细胞上CD47的表达在小鼠心脏移植免疫耐受中的作用

目的探讨供体特异性输注(donor specific transfusion,DST)细胞上CD47的表达在诱导同种异体小鼠心脏移植免疫耐受中的作用机制。方法实验动物随机分为3组,3组均以C57BL/6(CD47+/+)小鼠为供者,具体分为:(1)non-DST组:以未行CD47+/+DST及CD47-/-DST的BALB/c小鼠为受者。(2)CD47-/-组:以输注CD47-/-DST的BALB/c小鼠为受者。(3)CD47+/+组:以输注CD47+/+DST的BALB/c小鼠为受者。于术前7d、5d、3d分别接受共刺激因子封闭。观察心脏移植物存活时间;用流式细胞技术检测受体脾脏内的树突状细胞的激活情况;用体外混合淋巴细胞试验检测供体抗原特异性T淋巴细胞的增殖情况;排斥反应时及移植后150d行移植心病理切片检查。结果与non-DST组比较(移植心中位生存时间为7d),CD47-/-组移植心中位存活时间较长(中位生存时间为42d),但其存活时间明显短于CD47+/+组(中位存活时间150d,P0.01)。与CD47+/+组比较,CD47-/-组受鼠脾脏内表达CD11c+CD86+、CD11c+I-Adhi树突状细胞的百分比明显增加(P0.01,P0.05)。CD47-/-DST7d后,受鼠的供体反应性T淋巴细胞增殖明显增加,而CD47+/+组的供体反应性T淋巴细胞增殖明显受抑制(P0.01)。CD47-/-组移植心受排斥时,心肌组织内可见大量单个核细胞浸润,而CD47+/+组移植心术后150d时仍未见明显单个核细胞浸润,且与正常对照的心脏无明显差别。结论 DST细胞上CD47可以通过抑制受体树突状细胞激活及抑制供体抗原特异性T淋巴细胞反应的途径诱导免疫耐受。