Intestinal graft versus native liver cytokine expression in a rat model of intestinal transplantation with and without donor-specific cell augmentation

BACKGROUND: Immunomodulatory strategies such as donor-specific bone marrow or blood transfusions have been used to promote engraftment after intestinal transplants. We previously showed that delivery of donor antigen via the portal vein can effectively reduce the rate of intestinal graft rejection. The purpose of our current study was to investigate the impact of donor-specific cell augmentation (blood versus bone marrow) via the portal vein on cytokine expression in intestinal grafts versus native livers. MATERIAL AND METHODS: We performed heterotopic small intestinal transplants between male Brown-Norway (donor) and female Lewis (recipient) rats. We studied 10 groups according to the type of donor-specific cell augmentation and the use and dose of immunosuppressive therapy. For cell augmentation, donor-specific blood or bone marrow was transfused via the donor portal vein immediately before graft implantation. For immunosuppression, tacrolimus was used post-transplant at a high or low dose. Control rats received neither immunosuppression nor cell augmentation. Tissue samples for histological assessment were obtained at designated time points. RNA was extracted from intestinal graft and native liver biopsies for cytokine measurements (IL-1 alpha, IL-1 beta, IL-2, IL-4, IL-5, IL-6, IFN-gamma, TNF-alpha, and TNF-beta). Chimerism levels were determined using Q-PCR analysis. RESULTS: Without concurrent immunosuppression, neither portal donor-specific blood nor bone marrow transfusion reduced the rate of rejection. With immunosuppression, outcome was significantly better after portal donor-specific blood (versus bone marrow) transfusion. Irrespective of the type of donor-specific cell augmentation, severe rejection caused strong cytokine expression in the grafts of IL-1 alpha, IL-1 beta, IFN-gamma, and TNF-alpha; in the native livers, mainly of TNF-alpha (with IFN-gamma showing hardly any increase). In general, rejection caused stronger cytokine expression in the grafts than in the native livers. Mild rejection correlated well with strong intragraft expression of IL-6, TNF-alpha, and TNF-beta (early rejection markers); severe rejection with IL-1 alpha, IL-1 beta, IFN-gamma, and TNF-alpha (late rejection markers).In addition to cell augmentation per se, the type of cell augmentation also had an impact on cytokine expression in both grafts and native livers. Cell-augmented (versus tacrolimus-treated) rats showed hardly any differences in intragraft cytokine expression, but the expression of almost all cytokines was significantly stronger in the native livers. With immunosuppression, bone marrow infusion increased intragraft cytokine expression of IL-1 alpha, IL-1 beta, IFN-gamma, and TNF alpha, as well as liver cytokine expression of IL-1 beta, compared to blood transfusion. This finding reflected the more advanced rejection stages in the bone marrow infused group; different types of donor-specific cell augmentation had similar effects on liver cytokine expression. In the absence of myoablative therapy, chimerism levels were low, in both cell-augmented and non-cell-augmented groups. CONCLUSIONS: Rejection and donor-specific cell augmentation independently causes differences in intragraft versus native liver cytokine expression after intestinal transplants. Portal donor-specific blood transfusion, as compared with donor-specific bone marrow infusion, lowered the incidence of rejection and diminished intragraft cytokine up-regulation.     

Portal donor-specific blood transfusion and mycophenolate mofetil allow steroid avoidance and tacrolimus dose reduction with sustained levels of chimerism in a pig model of intestinal transplantation

BACKGROUND: In a pig model of intestinal transplantation, we previously showed that hepatic conditioning through portal donor-specific blood transfusion (pDSBT), high-dose tacrolimus (TAC), and steroids prevented rejection and increased survival Our current study tests a protocol of pDSBT, short-term mycophenolate mofetil (MMF), and low-dose TAC to eliminate the use of steroids, reduce TAC dosage, and increase the level of chimerism in the peripheral blood. MATERIALS AND METHODS: Four groups of outbred, mixed lymphocyte culture (MLC)-reactive pigs underwent bowel transplants and pDSBT. Immunosuppression (group 1, high-dose TAC and steroids; group 2, low-dose TAC and MMF; group 3, low-dose TAC, MMF, and aminoguanidine; group 4, low-dose TAC, MMF, and arginine) was discontinued after 28 days. RNA was extracted from intestinal graft and native liver biopsies for cytokine measurements. Chimerism levels were determined using a Q-PCR analysis. RESULTS: Pig survival and death rates due to rejection did not significantly differ between the four groups. Chimerism levels determined by Q-PCR analysis were not different until day 28. After discontinuation of immunosuppression, we noted a trend (P = 0.15) toward higher mean chimerism levels on day 60 for groups 2, 3, and 4 (9%) vs. group 1 (0.5%). Tissue cytokine and serum nitrate levels did not significantly differ between the four groups. Attempts to modify nitric oxide synthase activity offered no added benefit. CONCLUSIONS: The combination of pDSBT, MMF, and low-dose TAC (vs. high-dose TAC and steroids) allowed sustained levels of mixed chimerism to develop after discontinuation of immunosuppression.     

Cytokine and T cell receptor gene expression at the site of allograft rejection.

Intragraft cytokine and T cell receptor gene expression was analyzed in rejecting renal allografts by polymerase chain reaction (PCR). Message for IL-1 beta, IL-6, and TNF-alpha was detected in nephrectomy tissue with pathological evidence of acute or chronic rejection. Similarly, mRNA for both IL-6 and TNF-alpha was present in renal biopsies from acute rejecting kidneys. IL-2R, IL-4, and IL-5 mRNA was present in both rejecting and rejected kidney allografts, indicating that these cytokines may play a role in ongoing renal allograft rejection. Conversely, IL-2, IL-7, and IFN-gamma message was detected infrequently. In order to address the diversity of T cells in rejecting kidneys, we have analyzed the clonality of the TcR present within the allograft tissue. Rearranged TcR genes were identified in all allografts examined (n = 16) indicating the presence of T cells bearing the alpha/beta TcR. We have determined that there is a heterogeneous infiltration of T cells in the rejected allograft with TcR representing x = 7.47 +/- 2.4 families rearranged in samples obtained from nephrectomies, whereas x = 5.33 +/- 0.58 families were detected in samples obtained from biopsy tissue. These data indicate that (1) cytokines are produced locally which may contribute to graft cell destruction, (2) the heterogeneity of intragraft T cells during kidney allograft rejection may exist because nonspecific lymphocytes have been recruited to the site by locally produced cytokines or because T cells are responding to multiple epitopes or multiple donor antigens. Detection of intragraft cytokines and TcR may prove useful in elucidating the mechanism of rejection and therefore lead to improved immunosuppression.     

Long-term results of a controlled prospective study with transfusion of donor-specific bone marrow in 57 cadaveric renal allograft recipients

Experimental studies have shown that antilymphocyte globulin combined with transfusion of donor-specific bone marrow cells can induce partial tolerance to allograft tissue. We have adapted these protocols to clinical use and present the results of 57 cadaveric renal allograft recipients who received Minnesota ALG followed by the transfusion of cryopreserved donor-specific bone marrow. A group of 54 patients received the contralateral kidney and similar immunosuppression without the marrow transfusion and serve as controls. Both groups received quadruple immunosuppression with MALG, cyclosporin, azathioprine, and prednisone. In the bone marrow group, after a 10-14 day induction course of ALG, cryopreserved marrow was transfused on the seventh day after the last dose of ALG. The median follow-up in both groups is 16 months, (range 2.5-33 months). Six grafts have been lost in the bone marrow group, (three rejections, 2 deaths [Cr 2.0, 2.3], 1 recurrent disease). In the control group 16 grafts have been lost (13 rejections, 3 deaths [Cr 1.7, 2.5, 3.0]). Five patients in the control group have biopsy-proved chronic rejection compared to one in the bone marrow group. 17 patients in the bone marrow group have been tapered off the prednisone, and three of these patients have had mild late rejection episodes without graft loss. The two groups were compared for differences in the number of rejection episodes, estimated renal plasma flow, glomerular filtration rate, and urine protein. No differences were found. The allograft survival of the bone marrow group was significantly greater (P less than .01) than the control group. The graft survival rates for the bone marrow group at 12 and 18 months were 90% (confidence limits [CL] 85-94) and 85% (CL 78-90), respectively. In the the control group the 12 and 18 month allograft survival rates were 71% (CL 63-78) and 67% (CL 58-74), respectively. The survival in the control group was similar to our overall transplant experience with quadruple therapy. Mixed lymphocyte culture analysis shows a trend to diminished donor-specific responsiveness in the bone marrow group. The use of cryopreserved donor-specific bone marrow is associated with improved allograft survival in cadaveric kidney allograft recipients. However, a more effective induction protocol is needed to reduce the overall number of rejection episodes.     

A comparison of 2 protocols for living-related renal transplantation in children: donor-specific transfusions versus cyclosporine

We analyzed the results obtained with protocols for immunosuppression of pediatric recipients of haploidentical living-related renal transplants. In the donor-specific transfusion group transfusion of blood products obtained from the prospective organ donor was performed before transplantation, and at transplantation maintenance immunosuppression of azathioprine and prednisone was begun. In the cyclosporine group donor-specific transfusion was not used, and maintenance immuno-suppression of cyclosporine and azathioprine was begun 1 week before transplantation, with the addition of prednisone at transplantation. Of 24 donor-specific transfusion recipients 3 had circulating cytotoxic antibodies to the prospective donor for an incidence of 12%. There was no significant difference between groups with respect to 1-year actual patient and graft survival (100 and 89 versus 100 and 86%, respectively), 1-year mean serum creatinine level (1.1 versus 1.2 mg./dl.), rejection treatments per patient (2.5 versus 2.6) and total days hospitalized during year 1 after transplantation (27 versus 18), with donor-specific transfusion data presented first. Initial hospitalization was significantly shorter (10 versus 16 days, p less than 0.05) and the incidence of rejection crises within 3 months was significantly less (68 versus 94%, p less than 0.05) in the cyclosporine group. We believe that cyclosporine and azathioprine pre-treatment of pediatric recipients of haploidentical living-related renal transplants with the addition of prednisone at transplantation is preferable to a donor-specific transfusion protocol because there is no risk of recipient sensitization to the prospective donor, and patient and graft survival is not adversely affected.     

猪节段性小肠移植免疫耐受的研究

目的 探讨免疫耐受在移植领域的应用前景,建立猪节段性小肠移植免疫耐受模型。方法 １２只幼猪为受者,随机分为实验组及对照组,另选体重相近的异性猪为供者,实验组用供者骨髓细胞预处理,２周后行节段性小肠移植,术后不使用免疫抑制剂;对照组不作预处理。结果 实验组部分移植小肠获长期存活,Ｔ细胞亚群明显下降,外周血白细胞介素（ＩＬ－６均无明显变化,外周血白细胞发现嵌合现象,病理表现为轻度急性排异和慢性排异或无     

Influence of gadolinium-induced kupffer cell blockade on portal venous tolerance in rat skin allograft transplantation

BACKGROUND: Intraportal injection of donor antigens delays rejection of allografts (portal venous tolerance). The study aimed to investigate the possible influence of prior gadolinium chloride (Gd)-induced Kupffer cell blockade on tolerance to non-vascularized skin allografts induced by means of donor-specific intraportal blood transfusion. MATERIALS AND METHODS: Wistar rats (n = 10) were used as donors and Sprague-Dawley rats (n = 70) as recipients of a non-vascularized skin graft. Recipients were divided into groups according to the manipulations prior to transplantation, as follows: (1) no manipulation; (2) donor-specific intrajugular blood transfusion; (3) donor-specific intraportal blood transfusion; (4) Gd administration and donor-specific intrajugular blood transfusion; (5) Gd administration and donor-specific intraportal blood transfusion; (6) Gd administration, and (7) intraportal saline infusion. In a first set of experiments, these manipulations were performed once. In a second set of experiments, the same manipulations were performed twice. Skin allograft was performed 7 days after the last manipulation in all groups. RESULTS: Group 3 showed the highest skin graft survival, particularly after repeated blood transfusion. Graft survival in this group was significantly higher than in any other group. Conversely, group 5 showed the lowest graft survival, particularly after repeated blood transfusion. Graft survival in this group was significantly lower than that of groups 1, 2, 3 and 7. CONCLUSIONS: In this model of skin allograft transplantation, Gd administration abrogates and can even reverse the tolerogenic effect of repeated donor-specific intraportal blood transfusion.     

The impact of portal infusion with donor-derived bone marrow cells and intracellular cytokine expression of graft-infiltrating lymphocytes on the graft survival in rat small bowel transplant model

BACKGROUND: Intraportal administration of alloantigen is reported to reduce antigen-specific immune responses, although the underlying mechanisms for the reduced immunological reactions, especially those of the graft, are poorly understood. We examined intracellular cytokine production by graft-infiltrating lymphocytes (GILs) and peripheral blood lymphocytes (PBLs) to elucidate the underlying mechanisms of beneficial effects on intraportal infusion of donor cells in rat small bowel transplantation (SBT). METHODS: Recipient rats (Lewis) were transplanted with small bowel from ACI rats. Tacrolimus (Tac) was injected daily from days 0 to 4. Bone marrow cells of ACI rats were infused via the portal or tail vein on the day of surgery. On day 5, both GILs and PBLs collected from SBT graft and peripheral blood, respectively, were analyzed for intracellular cytokine production of recipient-derived alphabeta-T cells. The Th1/Th2 balance in each group was designated as the ratio of the percentage of GILs or PBLs staining positive for intracellular IL-4 or IFN-gamma, respectively. The total cell numbers of GILs from SBT graft were also counted. RESULTS: Survival of recipients was markedly prolonged by the combination of Tac and donor-specific bone marrow infusion via the portal vein (DSBMI-PV-Tac) compared with the untreated control, Tac alone, or DSBMI tail vein plus Tac. DSBMI-PV-Tac significantly decreased the total cell numbers of GILs and also induced remarkable Th2-type response in GILs. CONCLUSIONS: Our results indicate that DSBMI-PV-Tac decreased GILs and enhanced Th2-type response in SBT graft, both of which are associated with a significant prolongation of graft survival in SBT.     

Bone marrow augmentation in kidney transplantation: a large animal study

Specific immunomodulatory strategies are required to eliminate the need for lifelong dependence on debilitating immunosuppressants. One proposed strategy is to simultaneously transplant the kidney and infuse donor-specific bone marrow cells. We prospectively studied the effect of unmodified donor-specific bone marrow infusion (DSBMI) on rejection, infection, graft-versus-host disease (GvHD), and graft survival. We performed 57 kidney transplants in mixed lymphocyte culture (MLC)-reactive, outbred pigs. The groups of recipient pigs differed according to the use of (1) indefinite versus short-term tacrolimus-based immunosuppression, (2) DSBMI, and (3) recipient preconditioning (RPC: whole body irradiation with 400 rads on day 0 and horse anti-pig thymocyte globulin (ATG) on days –2, –1, and 0). In all, we studied eight groups: group 1, nonimmunosuppressed control pigs (n = 8); group 2, nonimmunosuppressed DSBMI pigs (n = 7); group 3, nonimmunosuppressed RPC + DSBMI pigs (n = 5); group 4, tacrolimus (indefinite) pigs (n = 11); group 5, tacrolimus (10 days only) pigs (n = 5); group 6, DSBMI + tacrolimus (indefinite) pigs (n = 8); group 7, DSBMI + tacrolimus (10 days only) pigs (n = 6); and group 8, RPC + DSBMI + tacrolimus (indefinite) pigs (n = 7). DSBMI alone (group 2) or in combination with RPC (group 3) did not prolong graft survival, as compared with nonimmunosuppressed controls (group 1). In groups 1, 2, and 3, all but one pig died from rejection; in group 3 only, 45 % of the pigs died from concurrent infection or GvHD, indicating that RPC in combination with DSBMI aggravated the risk of generalized infection and GvHD. Post-transplant immunosuppression – irrespective of indefinite or short-term administration – was required for prolonged graft survival. With indefinite use of immunosuppression, graft survival rates and death rates from rejection were not different for pigs with (group 6) versus without (group 4) DSBMI; however, the death rate from infection was higher in group 6, suggesting that the bone marrow inoculum increased the risk of systemic infection. With short-term use of immunosuppression, graft survival rates were higher and death rates from rejection lower for pigs with (group 7) versus without (group 5) DSBMI. But DSBMI and short-term immunosuppression (group 7) failed to prolong survival beyond that achieved with indefinite immunosuppression (groups 4 and 6). Although the combination of DSBMI and short-term immunosuppression (group 7) reduced the risk of infection, it did not avert severe rejection. The addition of RPC to DSBMI and indefinite immunosuppression (group 8) significantly decreased graft survival, as compared with groups 4, 6, and 7. It also increased the incidence of death from rejection, GvHD, and infection, or a combination thereof. Unmodified DSBMI did not prolong graft survival after kidney transplantation, nor did it decrease the incidence of rejection. But it aggravated the risk of GvHD and infection. Short-term immunosuppression with DSBMI reduced the incidence of death from infection or GvHD, but it resulted in a higher incidence of death from rejection (as compared with indefinite use of immunosuppression). RPC, combined with DSBMI and indefinite immunosuppression, increased the death rate from rejection, GvHD, infection, or a combination thereof. In this large animal study, the effect of unmodified DSBMI has been disappointing. The search continues for the optimal way to successfully perform bone marrow augmentation in solid organ transplants. Received: 6 June 2000 Accepted: 28 December 2000     

Cytokines and chemokine gene expression in human kidney transplantation

Despite advances in immunosuppression in past decades, allograft rejection remains the main reason for kidney graft failure. Recently, despite great improvements in understanding of molecular basis of allograft rejections, renal histology remains the primary method to monitor the onset of graft rejection. The aim of the present study was to ascertain whether cytokine and chemokine expression profiles in kidney allografts contributed to the diagnosis of graft dysfunction. We analyzed mRNA expression in 174 kidney graft biopsies for the following cytokines: TGF-beta1, TNF-alpha, IL-10, and chemokine RANTES. Based on the expression levels obtained by real-time RT-PCR, we correlated data with the results of morphologic examinations. All tested cytokines and chemokines were upregulated (P < .001) during acute rejection compared to nonrejecting controls. Upregulation was also found in chronic allograft nephropathy (CAN) group for TGF-beta1, IL-10 (P < .001), TNF-alpha, and RANTES (P < .01). Upregulated expression of IL-10 (P < .001), TGF-beta1, (P < .01) and RANTES (P < .05) showed borderline changes. Higher expression levels (P < .001) of TGF-beta1 and IL-10 were also found during ATN. IL-10 was upregulated (P < .01) in specimens with recurrent glomerulonephritis. Weakly increased (P < .05) expressions of TGF-beta1 were found during CsA toxicity. Distinctive expression levels between acute rejection and CAN were only found for IL-10 (P < .01). TNF-alpha showed a different expression profile in acute rejection versus ATN (P < .001). These findings suggest that distinct cytokine and chemokine expression profiles in grafts may contribute to the diagnosis for and elucidation of the immunopathologic process during graft dysfunction.     

Selectin inhibitor bimosiamose prolongs survival of kidney allografts by reduction in intragraft production of cytokines and chemokines

Binding of the P-, L-, and E-selectins to sialyl Lewis(x) (sLe(x)) retards circulating leukocytes, thereby facilitating their attachment to the blood vessels of allografts. Whether the selectin inhibitor bimosiamose (BIMO; C(46)H(54)O(16) . 0.25 H(2)O [867.4 molecular weight]) inhibits the rejection process of kidney allografts in a rat model was examined. Rat recipients acutely rejected kidney allografts at a mean survival time of 8.8 +/- 0.75 d. An intravenous 7-d infusion by osmotic pump of 2.5, 5, 10, or 20 mg/kg BIMO extended kidney allograft survival to 11.5 +/- 2.2 d (P < 0.03), 25.4 +/- 11.4 d (P < 0.006), 37.4 +/- 13.6 d (P < 0.001), and 39.8 +/- 34.5 d (P < 0.01), respectively. Combination of BIMO with cyclosporine produced synergistic interactions, as documented by the combination index (CI) values of 0.34 to 0.43 (CI <1 is synergistic; CI = 1 is additive; and CI >1 is antagonistic). Similarly, BIMO interacted synergistically with sirolimus (CI = 0.64) and FTY720 (CI = 0.22). While the mechanism of immunosuppression was being analyzed, decreased infiltration of CD4(+), CD8(+), and macrophages on day 7 after grafting was observed. Multiple cytokines were also expressed, including IL-1alpha, IL-1beta, IL-2, IL-4, IL-6, IL-10, IL-12, IL-18, TNF-alpha, and IFN-gamma in kidney allografts on days 3, 5, and 7 after grafting, as measured by a ribonuclease protection assay. Furthermore, at similar time points, BIMO treatment reduced intragraft expression of P-selectin glycoprotein ligand-1, CX(3)CL1, CCL19, CCL20, and CCL2. Thus, BIMO blocks allograft rejection by reduction of intragraft expression of cytokines and chemokines.     

Use of cryopreserved donor bone marrow in cadaver kidney allograft recipients

Donor-specific unresponsiveness to organ allografts remains an elusive goal in clinical transplantation, as most successful experimental protocols for the production of antigen-specific immunosuppression require lengthy recipient pretreatment. The use of an induction course of antilymphocyte serum (ALS) beginning at the time of transplantation, followed by the transfusion to the recipient of donor-specific bone marrow, has been shown in animals to induce prolonged allograft survival and is applicable for use in cadaver donor clinical transplantation. Our preliminary data in humans suggest that the transfusion of cryopreserved cadaver donor bone marrow following a short course of ALS is safe and does not induce graft-versus-host disease or allograft rejection. Twenty patients have been included in the protocol and 19 have been discharged from the hospital with functioning kidney transplants. One graft failed at 3 months. Eight patients have been withdrawn entirely from prednisone immunosuppression 3-6 months following transplantation. The contralateral kidneys from the marrow donors were transplanted into an additional 20 patients who received sequential immunosuppressive therapy without marrow transfusion. Three of these grafts have failed within 3 months due to acute rejection. Donor marrow transfusion may give rise to improved allograft and patient survival in clinical transplantation while at the same time allow for reduced requirements for nonspecific immunosuppressive agents with their undesirable side effects.     

Exogenous IL-6 Inhibits Acute Inflammatory Responses and Prevents Ischemia/Reperfusion Injury after Intestinal Transplantation

Interleukin-6 (IL-6) is a pleiotropic acute reactant cytokine involved in inflammatory responses. To explore the role of IL-6 in inflammation, this study examined the efficacy of exogenous IL-6 in preventing intestinal ischemia/reperfusion (I/R) injury associated with small bowel transplantation (SBTx). Syngenic orthotopic SBTx was performed in Lewis rats after 6-h graft preservation in University of Wisconsin (UW) at 4 degrees C. IL-6 mutein (IL-6m, 500 microg/kg), a recombinant molecular variant of human IL-6, was subcutaneously given to donors 2 h before harvesting (IL-6mD) or to excised grafts by luminal infusion (IL-6mG). Animal survival was 100% and 75% in IL-6mD (p<0.05 vs. control) and IL-6mG groups, respectively, compared with 64.3% in untreated controls. The severity of I/R injury (e.g. epithelial denudation, villous congestion) was reduced with IL-6m, in addition to a striking increase in re-epithelization. With IL-6m, neutrophil extravasation was markedly reduced in intestinal grafts and in remote organs (e.g. lung). IL-6m mediated anti-inflammatory effects through the inhibition of I/R-induced up-regulation of intragraft and circulating IL-1-beta, tumor necrosis factor-alpha (TNF-alpha) and IL-6. IL-6m also increased intestinal graft tissue blood flow. These results show that IL-6 is effective in protecting the intestine from cold I/R injury by maintaining graft blood flow and reducing pro-inflammatory cytokine up-regulation and neutrophil infiltration.     

Immunological unresponsiveness in chimeric miniature swine following MHC-mismatched spleen transplantation

BACKGROUND: In rodents, spleen allotransplantation (SpTx) induces tolerance. We investigated the induction of chimerism and donor-specific unresponsiveness following pig SpTx. METHODS: Thirteen pigs underwent splenectomy (day 0); all received a blood transfusion. In 11/13 pigs, SpTx was performed across a MHC class I (n=1) or full (n=10) barrier; two control pigs received no SpTx. All pigs were monitored for chimerism, and anti-donor immune responses, including suppressor assays. Four pigs (two asplenic controls and two with SpTx) underwent delayed donor-matched kidney transplantation without immunosuppression. RESULTS: Six of the 11 spleen grafts were lost from rejection (n=5) or splenic vein thrombosis (n=1), and five remained viable. All 11 SpTx recipients developed multilineage chimerism, but chimerism was rapidly lost if the graft failed. Two control pigs showed <6% blood chimerism for 4 and 11 days only. Pigs with functioning spleen grafts had multilineage chimerism in blood, thymus and bone marrow for at least 2-6 months, without graft-versus-host disease. These pigs developed in vitro donor-specific hyporesponsiveness and suppression. In 2 pigs tolerant to the spleen graft, donor MHC-matched kidney grafts survived for >4 and >7 months in the absence of exogenous immunosuppression; in two asplenic pigs, kidney grafts were rejected on days 4 and 15. CONCLUSIONS: Successful SpTx can result in hematopoietic cell engraftment and in vitro donor-specific unresponsiveness, enabling prolonged survival of subsequent donor-matched kidney grafts without immunosuppression.     

Comparison of chimeric acid and non-chimeric tolerance using posttransplant total lymphoid irradiation: cytokine expression and chronic rejection.

BACKGROUND: Previous studies showed that an intravenous infusion of donor blood cells facilitates tolerance to ACI heart allografts in Lewis rat hosts given posttransplant total lymphoid irradiation (TLI) and anti-thymocyte globulin (ATG). The object of the current study was to compare tolerance induction using donor cells that do or do not induce chimerism. METHODS: Normal peripheral blood mononuclear cells (PBMC), granulocyte colony-stimulating factor (G-CSF)-mobilized PBMC, and bone marrow (BM) cells from ACI donors were tested for their capacity to prolong ACI heart allograft survival in Lewis hosts. Chimerism, anti-donor cell reactivity, and cytokine gene expression in grafts were determined. RESULTS: Intravenous injections of equal numbers of all three donor cells markedly prolonged graft survival (median: >164 to >175 days) as compared to uninjected controls (median: 53 days). Chimerism among T and B cells in the blood was determined by immunofluorescent staining in hosts bearing long-term (> 150 days) grafts. Although no chimerism was detected in hosts given normal or G-CSF-mobilized PBMC, chimerism was detected at variable levels in all hosts given BM cells. Vigorous anti-donor reactivity in the mixed leukocyte reaction was present only in non-chimeric hosts. Long-term grafts from hosts given normal ACI PBMC developed chronic rejection, but those from hosts given ACI BM cells did not. The latter hosts showed the lowest levels of intragraft cytokine mRNA. CONCLUSIONS: Chimeric tolerance is more robust than non-chimeric tolerance in the model of posttransplant TLI, ATG, and donor cell infusion, and is associated with less chronic rejection.