Requirement of MyD88 for macrophage-mediated islet xenograft rejection after adoptive transfer

BACKGROUND: Porcine antigen primed and CD4+ T-cell activated macrophages are able to migrate to and destroy porcine xenografts. However, the specific signaling mechanisms involved remain to be identified. METHODS: In this study macrophages which lack the universal toll-like receptor (TLR) adaptor MyD88 were used to investigate the role of TLR in the recognition and activation of macrophages in islet xenograft rejection. Macrophages were isolated from rejecting MyD88(-/-) and wild-type C57BL/6 mice that were recipients of neonatal porcine pancreatic cell cluster (NPCC) xenografts, and were transferred to NPCC recipient NOD-SCID mice. RESULTS: Both wild-type C57BL/6 and MyD88(-/-) mice rejected NPCC xenografts 8 and 10 days, respectively after transplantation, and the grafts were heavily infiltrated with CD4+ T cells and macrophages. However, graft infiltrating macrophages from rejecting MyD88(-/-) recipients demonstrated impaired up-regulation of TLR expression and impaired activation phenotype, when compared to those from rejecting C57BL/6 recipients. Transfer of NOD-SCID recipients with macrophages from rejecting C57BL/6 mice resulted in NPCC xenograft rejection along with massively infiltrated macrophages 8 days after transfer, whereas NPCC xenografts in NOD-SCID mice transferred with macrophages from rejecting MyD88(-/-) mice remained intact until the end of this study, 90 days after transfer, with insulin-positive islets and no infiltration by macrophages. CONCLUSION: This study demonstrates that deletion of MyD88 causes impaired macrophage activation after pig islet xenotransplantation. However, graft survival is not prolonged and xenografts are rejected rapidly by alternate mechanisms.     

CD4+ T cell recognition of a single discordant HLA-A2-transgenic molecule through the indirect antigen presentation pathway induces acute rejection of murine cardiac allografts.

To further define the role of indirect allorecognition, cardiac allografts from HLA-A2-transgenic (HLA-A2+) C57BL/6 mice were heterotopically transplanted into normal C57BL/6, CD4 T cell-knockout (KO) C57BL/6 mice, CD8 T cell-KO C57BL/6 mice, fully MHC-discordant BALB/c mice (allogeneic control), and HLA-A2+ C57BL/6 mice (syngeneic control). HLA-A2+ grafts were acutely rejected when transplanted into BALB/c mice (mean survival time: 10+/-0.8 days), normal C57BL/6 mice (mean survival time: 16.5+/-2.1 days) as well as CD8-KO mice (mean survival time: 12.8+/-1.3 days). Histopathological analysis revealed classical acute cellular rejection with moderate to severe diffuse interstitial CD4+ and CD8+ cellular infiltrates and significant intra-graft deposition of IgG and complement. In contrast, HLA-A2+ grafts were not rejected when transplanted into CD4-KO mice or HLA-A2+ mice. CD8-KO recipients treated with an anti-CD4 monoclonal antibody, but not with an anti-NK monoclonal antibody, failed to reject their allografts with prolonged administration of antibody (30 days). Spleen cells from mice rejecting HLA-A2+ allografts failed to lyse HLA-A2+ target cells indicating a lack of involvement of CD8+ T cells in the rejection process. In contrast, spleen cells from rejecting animals proliferated significantly to both HLA-A2+ cells and to a peptide derived from the HLA-A2 molecule. Development of anti-HLA-A2 antibodies was observed in all animals rejecting HLA-A2+ allografts. These results suggest that indirect allorecognition of donor MHC class I molecules leads to rejection of cardiac allografts and development of alloantibodies in this unique transplant model in which there is a single MHC discordance between donor and recipient.     

Prolonged survival of fetal pig islet xenografts in mice lacking the capacity for an indirect response

BACKGROUND: Xenografts of islets from organ-cultured fetal pig pancreases transplanted into non-immunosuppressed mice are rejected within 10 days. Immunosuppression with anti-T cell (anti-CD4) monoclonal antibody alone delays rejection of these xenografts for about 28 days, but rejection eventually occurs despite marked depletion of T cells. To determine if the critical CD4+ T cells responsible for xenograft islet rejection function through the direct or indirect pathway, selective class II-deficient mice that express class II antigens only on their thymic epithelium (not on peripheral cells) with normal numbers of CD4+ T cells, (class II-, CD4+), were used as recipients of xenograft islets to test if rejection occurs in the absence of an indirect response. METHODS: Control (C57BL/6) or class II-, CD4+ mice were transplanted under the kidney capsule with cultured fetal pig islets. Class II-, CD4+ mice have normal numbers of B cells, CD4+, gamma delta T cells, and slightly increased numbers of CD8+ T cells. Additional mice were thymectomized before receiving anti-CD4 or anti-CD8 monoclonal antibodies. Islet graft survival was determined histologically as fetal pig islets were too immature to secrete insulin. RESULTS: Xenograft survival in control animals was 7 to 14 days. In contrast, graft survival in class II-, CD4+ mice was significantly prolonged to greater than 35 days. Depletion of CD8+ T cells in class II-, CD4+ mice prolonged graft survival to about 70 days. Depletion of CD4+ T cells from these mice further prolonged xenograft survival to about 100 days. CONCLUSIONS: These results suggest that the rejection of pig islets by mice initially depends on a CD4 dependent indirect response. The CD4 direct response also contributes to graft destruction. CD8+ T cells also participate in graft destruction, albeit weakly.     

Acute cell-mediated rejection in orthotopic pig-to-mouse corneal xenotransplantation

Abstract: Background:  To investigate the role of T cells and natural killer (NK) cells in mediating corneal xenograft rejection in a pig-to-mouse model.
Methods:  Pig corneas were orthotopically transplanted into BALB/c, C57BL/6, nude, severe combined immunodeficiency (SCID), and NOD/SCID/γc^null (NOG) mice. Graft survival was clinically assessed by slit-lamp biomicroscopy and median survival times (MST) were calculated. The rejected grafts were histologically evaluated using antibodies against CD4, CD8, NK1.1, and F4/80.
Results:  The pig corneal xenografts were acutely rejected by BALB/c and C57BL/6 mice (MST 9.0 days), while nude, SCID and NOG mice rejected pig corneas in a more delayed fashion (MST 16.0, 16.4, and 16.9 days, respectively). The majority of infiltrating cells found in rejected grafts in C57BL/6 mice were macrophages and CD4⁺ T cells, while CD8⁺ T cells and NK cells were rarely found. The grafts in nude mice had markedly decreased inflammatory infiltration with small numbers of macrophages and CD4⁺ T cells. Infiltration was even more modest in grafts in SCID and NOG mice.
Conclusions:  T cells play an important role in acute rejection of pig corneal xenografts in mice, although acute rejection is not solely the result of T-cell-mediated immunity. NK cells are less likely to be involved in the rejection process.     

CD8+ T cells are capable of rejecting pancreatic islet xenografts

BACKGROUND: In this study, the capacity of CD8+ T cells to act as a potential effector mechanism in pancreatic xenograft rejection was examined. METHODS: The fate of pancreatic islet xenografts was studied in mice deficient in MHC class II molecules and CD4+ T cells. Fetal pig pancreas (FPP) or Wistar rat islets (RI) were transplanted into nondiabetic or streptozotocin-induced diabetic I-A knock-out (CII K/O) mice. RESULTS: CII K/O mice were capable of rejecting both RI and FPP grafts. RI graft survival was not prolonged compared with wild type C57BL/6 controls. However, FPP grafts did survive longer in CII K/O recipients than in C57BL/J6 mice. Both RI and FPP graft rejection were CD8+ T-cell phenomena in CII K/O mice, as anti-CD8 monoclonal antibody prolonged graft survival, there were increased CD8+ T cells in the grafts and spleens of CII K/O recipients, and cell-mediated cytotoxicity was a CD8+ T-cell phenomenon associated with activation of the perforin/granzyme B system. By contrast, RI and FPP graft rejection was a CD4+ T cell-dependent phenomenon in wild type C57BL/6 mice with graft survival prolonged by anti-CD4 monoclonal antibody. There were increased numbers of CD4+ T cells, and cell-mediated cytotoxicity was a CD4+ T-cell phenomenon associated with activation of the Fas/FasL lytic pathway. CONCLUSIONS: The results demonstrate that, in the absence of CD4+ T cells, CD8+ T cells were capable of rejecting both rat and pig pancreatic islet xenografts.     

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.     

Different kinetics of obliterative airway disease development in heterotopic murine tracheal allografts induced by CD4+ and CD8+ T cells

BACKGROUND: Both T and B cells have been shown to be implicated in the pathogenesis of bronchiolitis obliterans syndrome, which is considered to represent chronic lung allograft rejection. However, the relative contributions of T cells and alloantibodies in the pathogenesis of the disease are still unknown. In this study, we used an heterotopic murine tracheal transplantation model to determine the contribution of these components of the immune system in the pathogenesis of posttransplant obliterative airway disease (OAD). METHODS: Tracheal allografts from BALB/c and HLA-A2-transgenic (HLA-A2+) mice were heterotopically transplanted into C57BL/6, CD4-knockout (KO), CD8-KO, Ig-KO, and Rag1-KO mice. In additional experiments, recipient mice were pretreated with depleting antibodies against CD4+, CD8+, and NK1.1+ cells. Development of OAD was determined by histopathology at days 10, 30, 60, 90, and 180 after transplantation. RESULTS: HLA-A2+ allografts transplanted into C57BL/6, CD8-KO, and Ig-KO mice demonstrated OAD lesions by day 30. In contrast, allografts transplanted into CD4-KO mice showed no OAD lesions at day 30, partial OAD development by days 60 and 90, and complete OAD development by day 180. No OAD development was observed in allografts transplanted into Rag1-KO mice. Treatment with anti-NK1.1 antibody did not show any effect on posttransplant OAD development. In contrast, anti-CD4+ or anti-CD8+ antibody treatments partially reduced the OAD histopathology and combined anti-CD4/CD8 antibody treatment further abrogated the histopathology of the disease. CONCLUSION: These results show that both CD4+ and CD8+ T cells have a role in the pathogenesis of OAD and that natural killer cells and alloantibodies are not necessary for the development of this disease.     

Effect of low-temperature culture and site of transplantation on hamster islet xenograft survival (hamster to mouse)

Isolated hamster islets were transplanted either into the liver via the portal vein or into the renal subcapsular space of diabetic C57BL/6J mice. The mean survival time (MST) of hamster islets cultured overnight at 37 degrees C was 8.5 +/- 0.6 days when transplanted into the liver as compared to an MST of greater than 21.7 +/- 4.9 days with 1 recipient still normoglycemic at 60 days when the islets were placed in the renal subcapsular space. Low-temperature culture (24 degrees C) of the hamster islets for 7 days produced a further significant prolongation of xenograft survival when the islets were placed beneath the renal capsule (MST greater than 43.3 +/- 4.7 days) with 2 recipients normoglycemic at 60 days. A single injection of anti-T-lymphocyte serum in conjunction with low-temperature culture did not produce a further increase in MST; however, 3 recipients were normoglycemic at 60 days. Removal of the kidney bearing successful xenografts at 60 days resulted in a rapid return to the diabetic state. It was interesting that the xenografts maintained normoglycemia in the mice at a level equivalent to the normal hamster (66.2 +/- 4.7 mg/dl) instead of the nonfasting level found in normal C57BL/6J mice (128.4 +/- 6.4 mg/dl). The findings indicate that low-temperature culture of the donor islets in conjunction with using the renal capsule as the site of transplantation produced a marked prolongation of hamster islet xenograft survival. Slow rejection of the xenografts did occur in this site, and histologic studies indicated that this rejection may be antibody mediated.     

Rejection of grafts with no H-2 disparity in TAP1 mutant mice: CD4 T cells are important effector cells and self H-2b class I molecules are target

Our previous results showed that TAP1 mutant mice rejected heart and skin grafts from donors with no H-2 disparity that express normal density of MHC class I molecules at the cell surface. During rejection, CD4 cells were predominant and essentially, no CD8 cells were found infiltrating the grafts. We hypothesized that TAP1 mutant mice, which developed and matured in an MHC class I-deficient environment, may have selected a repertoire of T cells with distinct reactivity to self class I molecules. The rejection of grafts with no H-2 disparity could be mediated by CD4+ T cells reactive to wild type H-2b class I molecules, or derived peptides, in the context of self-APC. Accordingly, we observed that transplanted TAP1 mutant mice presented a significant amplification of the proliferative T cell response to H-2Kb peptides, indicating that the stimulus with the graft was sufficient to induce peripheral expansion of these T cell repertoires. Therefore, the response to H-2Kb molecules could be a relevant pathway of activating T cells and triggering rejection of grafts expressing normal levels of these class I molecules. To test our hypothesis, we investigate the effect of pre-transplantation H-2Kb peptide-immunization on TAP1 mutant, which were then transplanted with C57BL/6 skin grafts (H-2b). Mice were immunized with a pool of five peptides derived from the polymorphic region of Kb alpha chain, before tail skin grafting. To study the role of CD4+ T cells in the rejection of C57BL/6 skin grafts, mice were in vivo depleted with an anti-CD4 monoclonal antibody GK1.5, and transplant evolution was observed. Sensitization of TAP1 mutant mice with H-2Kb peptides accelerated the rejection of skin grafts. Immunized mice rejected grafts with a MST of 13 days, compared to 16 days for the non-immunized mice (P=0.0089). The significant acceleration of graft rejection, induced by immunization with H-2Kb peptides, indicates that these peptides are capable of mobilizing effector T-cells that participate in rejection. These results support our hypothesis that class I molecules may be a target in the rejection of grafts with no MHC disparity. Depletion of CD4 T-cells resulted in a significant delay in rejection compared with the untreated control group. The MST of skin grafts in the controls was 16 days, whereas CD4-depleted recipients rejected skin grafts with a MST of 41 days (P=0.025). Moreover, some animals did not show macroscopic signs of rejection up to > 100 days posttransplantation. The contribution of CD4+ T cells to skin graft rejection, in our model, may reflect the occurrence of the presentation of H-2b peptides during graft rejection, in the context of self-APC. In conclusion, our results demonstrate an important role for H-2b molecules and CD4 T cells in the rejection of C57BL/6 grafts by TAP1 mutant mice. The low expression of MHC-I molecules on TAP1-/- mice may be determinant in the selection of a T cell repertoire strongly reactive to self MHC class I molecules which probably escapes the control of peripheral regulatory mechanisms.     

Involvement of CCR5 signaling in macrophage recruitment to porcine islet xenografts

BACKGROUND: Porcine antigen primed and CD4+ T-cell-activated macrophages are capable of both recognition and rejection of porcine xenografts. However, the specific signaling mechanisms involved remains to be addressed. The aim of this study was to examine the role of chemokine receptor and CD40 signaling in macrophage recruitment and graft destruction. METHODS: Macrophages were isolated from rejecting CCR2, CCR5, CD40 and control C57BL/6 mice that were recipients of neonatal porcine pancreatic cell cluster (NPCC) xenografts and were transferred to NPCC recipient NOD-SCID mice. RESULTS: Macrophages isolated from rejecting NPCC xenografts in CD40 and wildtype C57BL/6 mice demonstrated upregulated expression of macrophage activation markers as well as CCR5 and CCR2 genes, and caused pig islet xenograft destruction 8 days after transfer to NOD-SCID recipients. Graft infiltrating macrophages from rejecting CCR2 mice showed a similar activation phenotype and destroyed NPCC xenografts 10 days after transfer to NOD-SCID mice. Blockade of MCP-1 by anti-MCP-1 mAb did not prolong graft survival in CD4+ T cell reconstituted NPCC recipient NOD-SCID mice. By contrast, the graft infiltrating macrophages from rejecting CCR5 recipients showed impaired macrophage activation when compared to control C57BL/6 recipients, and transfer of these macrophages did not result in xenograft destruction in NOD-SCID recipients until day 16 after transfer. Analysis of graft infiltrating macrophages from these rejecting NOD-SCID mice showed an impaired activation phenotype. CONCLUSION: These results demonstrate that CCR5 is involved in both the activation and recruitment of macrophages to rejecting islet xenografts but other pathways are involved.     

Role of CD4+ and CD8+ T cells in the rejection of concordant pancreas xenografts

BACKGROUND: We studied the ability of CD4 and CD8 T cells to induce rejection of pancreas xenografts in a concordant combination using rat pancreas xenografts as donors and chemically induced diabetic mice as recipients. METHODS: Lewis rat (2 to 3 weeks old) pancreas xenografts were transplanted into streptozotocin (STZ)-induced diabetic mice. Lymphocyte proliferation and cytokine production were analyzed in vitro. All pancreas xenografts were assessed by functional (blood glucose) and histopathologic examinations. RESULTS: Lewis rat pancreas grafts were rejected within 10 to 13 days, with mononuclear cell infiltrate and tissue necrosis in STZ-induced diabetic mice. A predominant T cell receptor alphabeta -CD4 cell (on day 4) and T cell receptor alphabeta -CD8 cell (on day 8) infiltrate and IgM deposition were found in the pancreas xenografts after transplantation. Anti-CD4 (GK1.5), but not anti-CD8 (YTS169.4), monoclonal antibodies resulted in a prolonged survival of Lewis rat pancreas xenografts. Lewis pancreas xenografts were permanently accepted by CD4 knockout mice but not by CD8 knockout mice. The pancreas xenografts were acutely rejected with a mean survival time of 15.3 days in B cell-deficient mice (microMT/microMT). Transfer of CD4 but not CD8 spleen cells from na?ve C57BL/6 mice into Rag2 mice led to acute rejection of transplanted pancreas xenografts. However, activated CD8 spleen cells elicited rejection of Lewis rat pancreas xenografts in SZT-induced diabetic mice. CONCLUSION: The current results show that CD4 T cells are necessary and sufficient for mediating the rejection of Lewis rat pancreas xenografts in STZ-induced diabetic mice. However, CD8 cells, when activated, can also induce acute rejection of concordant pancreas xenografts.     

The degree of phylogenetic disparity of islet grafts dictates the reliance on indirect CD4 T-cell antigen recognition for rejection

Cellular xenograft rejection involves a pronounced contribution of CD4 T-cells recognizing antigens in association with recipient MHC class II molecules. However, the requirement for such "indirect" antigen recognition for acute islet xenograft is not clear, especially as a function of the phylogenetic disparity between the donor and recipient species. In vitro studies show that C57BL/6 (B6) mouse T-cells respond directly to either allogeneic BALB/c or phylogenetically related xenogeneic WF rat stimulator cells while having undetectable responses to phylogenetically disparate porcine stimulator cells. Although all types of grafts rejected acutely in wild-type mice, this response demonstrated markedly differing dependence on host MHC class II antigen presentation, depending on the donor species. While BALB/c islet allografts were acutely rejected in B6 MHC class II-deficient (C2D) recipients, WF rat xenografts demonstrated marked prolongation in C2D hosts relative to wild-type recipients. Interestingly, neonatal porcine islet (NPI) xenografts uniformly survived long term (>100 days) in untreated C2D hosts despite transfer of wild-type CD4 T-cells, demonstrating that survival in C2D recipients was not secondary to a lack of CD4 T-cells seen in such mice. Taken together, these results show a marked hierarchy in the requirement for host MHC class II-restricted indirect pathway in the rejection of pancreatic islet grafts. Thus, while cellular rejection of porcine xenografts is generally quite vigorous, this pathway is relatively finite, displaying a major reliance on host MHC class II-dependent antigen presentation for acute rejection.     

Roles of CD4+ and CD8+ T cells in discordant skin xenograft rejection

An essential role of murine CD4+ T cells in immune reactivity and skin graft rejection in discordant xenogeneic combinations have been reported. Our study was conducted to further clarify the roles of CD4+ and CD8+ T cells in discordant skin xenograft rejection, by using CD4 and CD8 knockout [C57BL/6 Cr Slc (B6; H-2b) background] mice. When human skins were grafted on CD8 knockout mice or B6 mice, both hosts rejected human skin grafts within 12 days after grafting. By contrast, survival of human skin grafts was significantly prolonged in CD4 knockout mice (mean survival times=19.3+/-(SD) 1.6 days; median 19 days). Fully allogeneic C3H/He Slc (H-2k) skin grafts were rejected within 14 days in CD4 knockout mice, suggesting that non-CD4+ T cells in CD4 knockout mice were immunocompetent for allograft rejection. In spleens of these recipient mice, CD8+ T cells seemed to be activated 10 days after human skin grafting. Immunohistological analysis revealed the infiltration of CD8+ T cells at the site of transplanted human skin on CD4 knockout mice. To further examine the role of CD8+ T cells in CD4 knockout mice, human skin grafting was performed on day 0 followed by administration of anti-CD8 monoclonal antibody on days 0, 5, and 14. The administration of anti-CD8 monoclonal antibodies caused the significant prolongation of human skin graft survival. These results indicate the following two conclusions: (1) CD4+ T cells have an essential role in rejecting discordant human skin xenografts rapidly and (2) however, CD8+ T cells also are capable of rejecting discordant human skin xenografts.     

Effect of low-temperature culture and L3T4 antibody on the survival of pancreatic islets xenograft (fish to mouse)

Catfish (Ictalurus punctatus) islets were transplanted into the renal subcapsular space of diabetic C57BL/6J mice. The xenograft mean survival time (MST) of islets cultured for 6 days at 24 degrees C was 4.9 +/- 0.5 days, while xenotransplantation of 1-hour-cultured islets did not restore normoglycemia in the diabetic mice. A modest but significant prolongation of the MST was obtained by administration of anti-L3T4 monoclonal antibody to the recipients (13.4 +/- 2.1 days). Anti-L3T4 in conjunction with low-temperature culture did not produce a further increase of the MST (9.1 +/- 2.7 days). These findings indicate that catfish islets may be a source of islet tissue for transplantation in diabetic recipients. However, procedures that demonstrated to be effective in prolonging the MST of xenografts transplanted across wide species barrier, such as low-temperature culture and anti-L3T4 treatment, failed to prolong markedly the xenograft survival. Further experimental work is needed to study the possibility of improving islets survival after xenotransplantation across distant species barrier (fish to mouse).     

抗原特异性CD4+CD25+T细胞对同种异体胰岛移植影响及作用机制研究

目的:探讨抗原特异性CD4+CD25+Treg细胞免疫对同种异体胰岛急性移植排斥反应的影响和机制。方法:用MACS分选供体抗原特异性CD4+CD25+Treg细胞免疫糖尿病BALB/cByJ受体小鼠，以ICR小鼠胰岛为供体行同种异体胰岛移植。观察移植后小鼠的存活时间、移植前后外周血CD4+和CD8+T细胞亚群的变化和移植物中Th1/Th2细胞因子mRNA表达水平的变化。结果:抗原特异性Treg细胞联合胰岛移植组(C组)胰岛移植物平均生存期为(34.57±17.15)d，显著长于单纯胰岛移植组(B组)的(10.6±1.82) d (P<0.01)；移植后第3天，C组外周血CD4+/CD8+的值显著低于B组(P<0.01)；C组移植物中IL-10,TGF-β mRNA表达比B组显著增强。B组移植物中IL-1β，IL-2及IFN-γ mRNA表达明显强于C组。结论:抗原特异性CD4+CD25+ Treg细胞可通过调节Th2/Th1之间的反应平衡而延长同种异体胰岛移植物的存活时间。     

Patterns of immune responses evoked by allogeneic hepatocytes: evidence for independent co-dominant roles for CD4+ and CD8+ T-cell responses in acute rejection.

INTRODUCTION: This is the first in a series of reports that characterizes immune responses evoked by allogeneic hepatocytes using a functional model of hepatocyte transplantation in mice. METHODS: "Donor" hepatocytes expressing the transgene human alpha-1-antitrypsin (hA1AT-FVB/N, H2q) were transplanted into C57BL/6 (H2b) or MHC II knockout (H2b) hosts treated with anti-CD4, anti-CD8, or a combination of anti-CD4 and anti-CD8 monoclonal antibodies (mAbs). Hepatocyte rejection was determined as a loss of circulating ELISA-detectable transgene product (hA1AT). In addition, some C57BL/6 mice underwent transplantation with FVB/N heterotopic cardiac allografts and were treated with anti-CD4 mAb. Cardiac allograft rejection was determined by palpation. Graft recipients were tested for donor-reactive alloantibodies and donor-reactive delayed-type hypersensitivity (DTH) responses. RESULTS: The median survival time (MST) of allogeneic hepatocytes in normal C57BL/6 mice was 10 days (no treatment), 10 days (anti-CD4 mAb), 14 days (anti-CD8 mAb), and 35 days (anti-CD4 and anti-CD8 mAbs). The MST of hepatocytes in B6 MHC class II knockout mice was 10 days (no treatment) and 21 days (anti-CD8 mAb). The MST of cardiac allografts was 11 days (no treatment) and >100 days (anti-CD4 mAb). Donor-reactive DTH responses were readily detected in both untreated and mAb-treated recipients. Donor-reactive alloantibody was barely detectable in untreated hosts. CONCLUSIONS: These studies demonstrate that allogeneic hepatocytes are highly immunogenic and stimulate strong cell-mediated immune responses by both CD4+ and CD8+ T cells, even when treated with agents that can cause acceptance of cardiac allografts. Indeed, CD4+ or CD8+ T cells seem to independently cause hepatocellular allograft rejection. Allogeneic hepatocytes evoked strong donor-reactive DTH responses but were poor stimuli for donor-reactive antibody production. This is an unusual pattern of immune reactivity in allograft recipients.     

Selective rejection of porcine islet xenografts by macrophages

Abstract:  Background: Our previous study has shown that porcine antigen‐primed and CD4+ T cell‐activated macrophages are capable of recognition and rejection of porcine xenografts after adoptive transfer. However, whether this is an absolute xenograft specific rejection remains to be confirmed. Methods:  Mouse islet allografts and neonatal porcine islet cell cluster (NICC) xenografts were admixed and transplanted under the left kidney capsule, and NICC xenografts alone were transplanted under the right kidney capsule of strepotozotocin‐induced diabetic NOD‐SCID mice. After achievement of normoglycemia, the NOD‐SCID recipients were transferred with macrophages purified from NICC transplant NOD‐SCID mice reconstituted with CD4+ T cells. Five weeks after macrophage transfer the left kidney with the admixed grafts were removed. Graft survival and function following macrophage transfer was assessed by blood glucose measurement and immunohistochemistry. Results and conclusions:  Adoptive transfer with activated macrophages did not affect the normalized blood glucose levels in NOD‐SCID recipients of admixed grafts until left nephrectomy 5 weeks post‐macrophage transfer. Insulin‐positive and porcine C‐peptide‐negative mouse islets were detected in the admixed grafts. The surviving mouse islets in the admixed grafts were surrounded but not infiltrated by macrophages. The nephrectomized recipients demonstrated sustained hyperglycemia and completely destroyed NICC xenografts in their remaining right kidneys 8 weeks after macrophage transfer. Taken together, these data provide direct evidence of porcine islet xenograft specific rejection by activated macrophages.     

Differences in suppressor of cytokine signaling-1 (SOCS-1) expressing islet allograft destruction in normal BALB/c and spontaneously-diabetic NOD recipient mice

BACKGROUND: The ability to block interferon signaling represents an important strategy in designing therapies to prevent beta-cell destruction during islet allograft rejection. METHODS: The SOCS proteins regulate cytokine signaling by blocking activation of JAK/STAT proteins. Using islets isolated from SOCS-1 transgenic mice (SOCS-1-Tg; these mice express SOCS-1 under the control of the human insulin promoter and are on the C57BL6/J background), we investigated whether SOCS proteins can prevent the destruction pancreatic islet cells transplanted beneath the kidney capsule of major histocompatibility complex mismatched normal BALB/c and spontaneously-diabetic NOD mouse recipients. RESULTS: Immunohistochemical staining for insulin confirmed the presence of donor SOCS-1-Tg islets in islet allografts harvested at 22 days posttransplant, whereas grafts of control non-Tg islets were destroyed by 14 days. In contrast, SOCS-1-Tg allogeneic islets were not protected from beta-cell destruction in clinically diabetic NOD mice. The islet allografts functioned for 1 week posttransplant; however, hyperglycemia returned after 2 weeks and the grafts were destroyed. Rejection of SOCS-1-Tg and non-Tg islets in autoimmune diabetic NOD mice was associated with an infiltrate of both CD4+ and CD8+ T cells and a T2-type cytokine response (IL-4) rather than the conventional T1-type cytokine response observed during islet allograft rejection. Self-antigen upregulation in response to IFN-gamma stimulation did not appear to be a factor in rejection of the islet allografts. CONCLUSIONS: These results demonstrate that expression of SOCS-1 in islets delays islet allograft rejection but cannot circumvent destruction of the islets by the recurrence of the tissue-specific autoimmune process of spontaneous diabetes.     

CD103分子介导CD8+T淋巴细胞对同种胰岛移植物的损伤

目的 检验CD103分子是否介导了CD8+T淋巴细胞对同种移植胰岛的免疫损伤.方法 用流式细胞仪检测野生型C57BL/6小鼠外周血CD8+T淋巴细胞表达CD103的情况.以Balb/c小鼠为供者,C57BL/6小鼠为受者,制作同种胰岛移植模型.受者分为3组:M290-SAP组小鼠注射CD103免疫毒素M290-SAP;M290组小鼠注射抗CD103单克隆抗体M290;另以仅接受胰岛移植、不注射任何药物的小鼠为未处理组.检测移植胰岛CD3、CD8、CD44和CD103阳性细胞的表达,检测肠系膜淋巴结中CD3、CD8和CD103阳性细胞的表达.移植物功能丧失或观察期结束时获取移植胰岛,行HE染色和免疫组织化学染色.结果 野生型C57BL/6小鼠外周血的CD8+T淋巴细胞中有44.06%表达CD103.未处理组移植胰岛浸润的细胞成分中有29%的CD8+T淋巴细胞表达CD103.M290-SAP组小鼠淋巴细胞不仅丧失了CD103的表达,而且CD8+T淋巴细胞的绝对数量也减少,该组小鼠血糖稳定时间超过100 d(未处理组为13 d,P＜0.05),移植胰岛组织学形态良好.结论 CD8+T淋巴细胞免疫损伤同种移植胰岛必须表达CD103,CD103有可能成为胰岛移植抗排斥反应治疗的新靶点.

Abstract：

Objective To test whether the CD103 molecule mediates CD8+ T lymphocytes on allogeneic islet graft immune injury. Methods By using flow cytometry, the expression of CD103 in peripheral CD8+ T lymphocytes in wild-type C57BL/6 mice was detected. Allogenic islet transplantation models were made using Balb/c donor mice and C57BL/6 recipient mice. Recipients were divided into 3 groups: M290-SAP-treated mice were injected with CD103 immunotoxin M290-SAP; M290-treated mice were injected with CD103 monoclonal antibody M290; untreated mice were only transplanted islet without any drug treatment. CD3, CD8, CD44 and CD103 positive cells were counted in islet allograft infiltrative lymphocytes. CD3, CD8, and CD103 positive cells were measured in the mesenteric lymph node. The islet allografts were removed and subjected to HE staining and immunohistochemical staining at the time of graft loss or the end of the observation period. Results 44. 06% peripheral CD8+ T cells expressed CD103 in wild-type C57BL/6 mice. 29 % CD8+ T cells expressed CD103 in the infiltrative lyrnphocytes of islet allografts in the untreated mice. In M290-SAP-treated mice, the lymphocytes had no CD103 expression and the absolute number of CD8+ lymphocytes was decreased as well The blood glucose was maintained stable for more than 100 days (13 days in untreated group, P＜0.05) in the M290-SAP-treated mice. Moreover, the transplanted islets retained intact. Conclusion CD103 expression is required for destruction of pancreatic islet allograft by CD8+ T cells. CD103 might provide a novel target for therapeutic intervention in islet allograft rejection.     

Effect of transplantation site and alpha L3T4 treatment on survival of rat, hamster, and rabbit islet xenografts in mice

Rat, hamster, and rabbit islets were transplanted into diabetic C57BL/B6 mice. The effect on islet xenograft survival of low-temperature culture of the donor islets, alpha L3T4 treatment of the recipients for seven days, and transplantation of the grafts either in the renal capsule or in the liver via the portal vein was determined. Renal capsule transplants of control rat, hamster, and rabbit islets cultured at 37 degrees C for one day produced normoglycemia in the recipients, with the mean survival time (MST) of the grafts ranging from 14 to 19 days. Low temperature culture alone did not produce a significant increase in the survival time. Treatment of the recipients with alpha L3T4 produced a marked prolongation of xenograft survival for all three species receiving renal subcapsular transplants of control or low temperature cultured islets. The range of MST* was from 34 to 46 days. The intrahepatic site produced an even further prolongation of the survival of concordant rat islet xenografts treated in this manner, with 60% of the recipients still normoglycemic at 100 days after transplantation. This enhancing effect of the intrahepatic site on survival did not occur with the discordant xenografts of hamster and rabbit islets.