Hyperacute rejection in porcine liver transplantation. I. Clinical characteristics, histopathology, and disappearance of donor-specific lymphocytotoxic antibody from serum

Hyperacute rejection following orthotopic liver transplantation remains an extremely unusual occurrence. In this study, we examined a porcine model of liver transplantation in which recipient animals were sensitized prior to transplantation with three serial full-thickness skin grafts. Three experimental groups were studied. Group I recipients (n = 6) were specifically sensitized against their liver donors with biweekly skin grafts followed by hepatic grafting. Group II recipients (n = 6) underwent third-party skin graft sensitization prior to liver transplantation. Group III recipients (n = 6) underwent liver grafting without sensitization. Mixed lymphocyte cultures were done before each skin graft and prior to transplantation. Lymphocytotoxic antibody (LCTA) titers were measured before the first skin graft, at weekly intervals thereafter, intraoperatively, and daily postoperatively until death. Intraoperative and postmortem liver biopsies were obtained in all recipients. Five of six recipients in Group I died within 4 hr of hepatic revascularization. The remaining animal survived for four days. Mean survival time in group I was 0 +/- 0.7 days. In contrast, MST in groups II and III were 4.0 +/- 1.2 and 6.2 +/- 1.3 days, respectively. The MST in group I was significantly shorter than in groups II and III (P less than 0.026 and P less than 0.005, respectively). There was no significant difference in survival between groups II and III. MLC reactivity between recipients and skin donors increased progressively following each skin graft, reaching a peak just prior to liver transplantation. LCTA titers also increased following each skin graft, reaching peak levels immediately prior to hepatic grafting. Intraoperative LCTA titers decreased within 2 min of graft revascularization and were undetectable within 4 hr. In group III (unsensitized recipients), MLC reactivity was low and at no time was LCTA detectable. Histologic examination of the livers from group I recipients showed parenchymal hemorrhage, endophlebitis, and neutrophil infiltration. Histologic examination of postmortem liver biopsies from animals in groups II and III revealed acute cellular rejection. In conclusion, hyperacute rejection resulting in graft failure and recipient death can be consistently produced in a porcine model of hepatic transplantation by donor-specific sensitization of the recipient. It is postulated that high titers of donor-specific antibody are required to exceed the liver's capacity for antibody absorption and elimination and produce the clinical picture of hyperacute rejection.     

Humoral immunity in allograft rejection. The role of cytotoxic alloantibody in hyperacute rejection and enhancement of rat cardiac allografts

The role of humoral immunity in graft rejection in the rat model remains controversial. Passive transfer of cytotoxic alloantibody (CAA) has resulted either in hyperacute rejection or in graft enhancement. This study examines the effect of transfer of CAA on cardiac allograft survival in three rat strain combinations that are fully mismatched at the major histocompatibility (MHC) loci. Strain-specific immune responsiveness in donor-recipient pairs varied from low (Lewis-to-ACI) to high (ACI-to-Lewis) as measured by mixed lymphocyte reactions. CAA was obtained from rats sensitized by three successive skin grafts at weekly intervals. Group 1 (high responder recipients), which consisted of Lewis rats presensitized to ACI and had a lymphocytotoxicity titer of 1:512 to 1:2048, rejected ACI cardiac allografts in 10.8 +/- 7.2 hr compared with 6.5 +/- 0.5 days in naive controls (p less than 0.001). Injection of 1 ml of high-titer CAA into naive Lewis rats immediately after ACI cardiac grafting led to hyperacute rejection of ACI hears in 2.1 +/- 0.8 hr while 1 ml of CAA followed by 2 ml of guinea pig complement (GPC) resulted in even faster rejection (mean survival time (MST) of 23.8 +/- 4.7 min). Injection of 2 ml GPC alone or in combination with 1 ml naive Lewis serum had no effect on graft survival. Multiple pretransplant injections of 1 ml of CAA on days -3, -2,-1, and 0 relative to transplantation resulted in significant prolongation of allograft survival (MST of 10.3 +/- 0.3 days; P less than 0.01). In group 2 (intermediate responder recipients), where Lewis rats were presensitized to WF strain and where cytotoxicity titer was 1:16 to 1:256, the recipients rejected WF hearts in 23.8 +/- 5.8 hr compared with 6.8 +/- 0.8 days in unsensitized control recipients (P less than 0.001). Injection of 1 ml of Lewis anti-WF CAA resulted in prolonged graft survival of 9.7 +/- 3.5 days, while injection of 1 ml of CAA followed by 2 ml of GPC caused hyperacute rejection in 104 +/- 61.7 min. Pretransplant injections of CAA on days -3, -2, -1, and 0 resulted in enhancement, with an MST of 16.3 +/- 1.3 days (P less than 0.001). In group 3 (low responder recipients), ACI presensitized to Lewis developed a cytotoxicity titer of 1:2 to 1:32 and rejected Lewis hearts in 5.3 +/- 0.4 days compared with 10.6 +/- 1.0 days in naive recipients.(ABSTRACT TRUNCATED AT 400 WORDS)     

Effect of FK-506 on heart allograft survival in the highly sensitized recipient rats as compared with ciclosporin and 15-deoxyspergualin.

The effect of FK-506 on allograft survival in unsensitized recipients has been established in several animal experimental models. In this present study, we investigated the immunosuppressive capacity of FK-506, in comparison with ciclosporin (Cs) and 15-deoxyspergualin (DSG), on heart allograft in presensitized rats. Heart grafts from male ACI rats were heterotopically transplanted to male LEW rats. All recipient rats were sensitized with donor-type whole blood admixed with immunoadjuvant (adjuvant complete Freund) 7 days prior to transplantation. FK-506, Cs and DSG were administered from day 0 to day 14 posttransplantation. The results showed that both FK-506 and Cs significantly prolonged heart allograft survival of presensitized recipients in a dose-dependent manner. The minimum effective dose in the treatment was less for FK-506 than for Cs. However, DSG showed almost no effect of prolongation in this experiment.     

Down-regulation of the immune response to histocompatibility antigens and prevention of sensitization by skin allografts by orally administered alloantigen.

The effects of oral administration of major histocompatibility antigens on the alloimmune response have not been investigated. Lymphocytes from inbred LEW (RT1u) rats that were pre-fed allogeneic WF (RT1l) splenocytes exhibited significant antigen specific reduction of the mixed lymphocyte response in vitro and delayed-type hypersensitivity response in vivo, when compared with unfed controls. In an accelerated allograft rejection model, LEW rats were presensitized with BN (RT1n) skin allografts 7 days before challenging them with (LEW x BN)F1 or BN vascularized cardiac allografts. While sensitized control animals hyperacutely reject their cardiac allografts within 2 days, animals prefed with BN splenocytes maintained cardiac allograft survival to 7 days, a time similar to that observed in unsensitized control recipients. This phenomenon was antigen-specific, as third-party WF grafts were rejected within 2 days. Immunohistologic examination of cardiac allografts harvested on day 2 from the fed animals had markedly reduced deposition of IgG, IgM, C3, and fibrin. In addition, there were significantly fewer cellular infiltrates of total white blood cells, neutrophils, macrophages, T cells, IL-2 receptor-positive T cells, and mononuclear cells with positive staining for the activation cytokines IL-2 and IFN-g. On day 6 posttransplant, the grafts from fed animals showed immunohistologic changes typical of acute cellular rejection usually seen in unsensitized rejecting controls. Feeding allogeneic splenocytes prevents sensitization by skin grafts and transforms accelerated rejection of vascularized cardiac allografts to an acute form typical of unsensitized recipients. Oral administration of alloantigen provides a novel approach to down-regulate the specific systemic alloimmune response against histocompatibility antigens.     

Immunological unresponsiveness to hepatic allografts in rats. Immunological reactivities of the recipient to donor antigens

Wistar (RT1bv1) rats transplanted orthotopically with ACI (RT1a) livers survive indefinitely without any immunosuppression, while heterotopic heart grafts or skin grafts are rejected acutely in this combination. Levels of alkaline phosphatase after liver allografting remain significantly higher than those found in controls receiving syngeneic grafts. We studied changes in immune responsiveness in rats receiving liver grafts. Local graft-versus-host reactivity was present at all times assayed. Delayed type hypersensitivity reactions were already positive 2 weeks after liver transplantation and increased in strength. Liver graft-bearing rats were subsequently grafted with donor or third-party skin. Third-party skin grafts survived significantly longer on liver-grafted rats than on untreated controls when grafted within the first week after grafting. Donor-type skin grafts survived longer than controls when grafted within the first 4 weeks after liver grafting, although the skin grafts were eventually rejected. Donor-type skin grafted more than 8 weeks after liver grafting was rejected acutely. In an adoptive transfer assay, ACI hearts survived significantly longer in Wistar rats given serum from Wistar donors 2-4 weeks after ACI liver grafts than in untreated controls. On the other hand, spleen cells obtained at any period after liver grafting were not capable of prolonging cardiac allograft survival after transfer to syngeneic recipients. Thus cellular responses to ACI antigen are not changed during the life-span of liver-grafted animals. Evidence suggests that a serum "enhancing" factor protects the donor liver from rejection in the initial period after liver transplantation. The long-term acceptance of liver grafts is discussed.     

Development and maintenance of donor-specific chimerism in semi-allogenic and fully major histocompatibility complex mismatched facial allograft transplants

BACKGROUND: The clinical application of composite tissue allograft transplants opened the discussion on the restoration of facial deformities by allotransplantation. We introduce a hemifacial allograft transplant model to investigate the rationale for the development of operational tolerance across a major histocompatibility complex (MHC) barrier. MATERIAL AND METHODS: Thirty rats were studied in five groups of six animals each. The composite hemiface isograft transplantations were performed in group 1. Allograft rejection controls included semi-allogenic transplantations from LBN (RT1(1+n) donors (group 2) and fully allogenic transplantations from ACI (RT1a) donors (group 3) to LEW (RT1(1)) recipients. In the allograft treatment groups, recipients of LBN (group 4) and ACI donors (group 5) were treated with cyclosporine A monotherapy (16 mg/kg/day, tapered to 2 mg/kg/day). Face allografts were evaluated clinically and histologically. Donor-specific chimerism for MHC class I RT1n and RT1a antigens was assessed by flow cytometry. Mixed lymphocyte reaction for donor-specific tolerance in vitro was tested at day 160 posttransplant. RESULTS: Isograft controls survived indefinitely. All nontreated allografts rejected within 5 to 8 days posttransplant. Long-term survival was achieved in 100% of LBN (up to 400 days) and ACI (up to 330 days) recipients. At day 160, posttransplant donor-specific chimerism was present in recipients of LBN (10.14% CD4/RT1n, 6.38% CD8/RT1n, 10.02% CD45RA/RT1n) and ACI (17.54% CD4/RT1a, 9.28% CD8/RT1a) transplants, and mixed lymphocyte reaction confirmed tolerance in recipients of LBN transplants and moderate reactivity in recipients of ACI allografts. CONCLUSION: Operational tolerance was induced in hemiface allograft transplants across an MHC barrier under cyclosporine A monotherapy protocol. It was associated directly with the presence of multilineage donor-specific chimerism.     

Time frame of pancreas allograft rejection: an immunogenetic analysis in MHC-disparate, presensitized inbred rat strains

AIM: The pattern of rejection of vascularized pancreas allografts in presensitized recipients was studied among congeneic and recombinant rat strains in order to establish the time frame of rejection. Donors and recipients differed either in their entire MHC or in class I or class II MHC antigens. MATERIAL AND METHODS: Streptozotocin diabetic (55 mg/kg bone weight) recipients underwent an intra-abdominal heterotopic pancreas whole organ transplantation. The exocrine secretion of the pancreas was suppressed by ligation of the duct. Rejection was defined as recurrence of diabetic hyperglycemia exceeding 14 mmol/L, which was subsequently confirmed by histologic examination. The pancreas recipients were presensitized by repetitive donor-specific skin transplants performed 12, 8, and 4 weeks prior to pancreas grafting. RESULTS: The results shown accelerated rejection in all instances. Animals with incompatibility for the entire MHC showed a median rejection time in naive recipients of 12.5 days and in presensitized recipients of 8 days. Class I MHC incompatible native recipients rejected the allografts after 16.5 days (median) and presensitized recipients after 9 days (median). Concerning class II MHC incompatibility rejection appeared in naive recipients after 16 days (median) and in presensitized recipients after 7 days (median). Hyperacute rejection, however, was not observed. DISCUSSION: These results show an accelerated pattern of rejection in all instances caused by donor MHC antigens. Hyperacute rejection, however, was not observed. The effect is slightly pronounced in class II MHC incompatibility. Acceleration of rejection may be caused by stimulation of the humoral as well as the cellular pathway of the immune response. The underlying mechanisms concerning the different MHC incompatibilities, however, remain speculative.     

C4d Deposition and Clearance in Cardiac Transplants Correlates With Alloantibody Levels and Rejection in Rats

Antibody-mediated rejection of human cardiac transplants is correlated with C4d deposits and macrophage infiltrates in capillaries of endomyocardial biopsies. We produced an antibody to rat C4d to study C4d deposition and clearance in Lewis rats that were sensitized with a blood transfusion from DA rats 7, 14 or 21 days before cardiac transplantation. Cyclosporin A (CsA) immunosuppression was initiated after transplantation at a dose that inhibited graft rejection, antibody production and C4d deposition in unsensitized recipients. Blood transfusion elicited high levels of circulating IgG alloantibodies, predominantly of the complement-activating IgG2b subclass, that peaked 14 days after transplantation. At this time, macrophages accumulated in capillaries, and C4d deposits were diffuse and intense on arteries, capillaries and veins. Grafts that survived 90 days in sensitized recipients still had deposits of C4d that were associated with increased interstitial fibrosis and vasculopathy in arteries. Clearance of C4d was determined by retransplanting DA cardiac allografts from Lewis recipients back to DA recipients. C4d deposits were decreased to minimal levels within 5 days after retransplantation. Thus, C4d deposition is not limited to the capillaries, but extends throughout the arterial tree, and despite formation of a covalent bond, C4d is cleared within days.     

Donor-specific cellular immunity in rejecting and long-term-surviving class I-disparate rat renal allograft recipients

The effects of pre- and posttransplant immunization on graft survival, infiltrate intensity, and host in situ/systemic cellular immune responsiveness were examined for class I MHC-disparate rat renal allograft recipients. Naive, unsensitized PVG (RT1c) recipients of class I MHC disparate PVG.R1 (RT1.Aa on PVG background) orthotopic kidney transplants displayed long-term (greater than 50 days) survival (LTS) in a majority (41/52) of cases. Pretransplant immunization of recipients with a PVG.R1 skin graft most often resulted in rejection (mean survival greater than 21.3 days) with 8/15 rats surviving less than or equal to 2 weeks and only 3/15 with LTS. Pretransplant immunization with a skin graft from a fully MHC-disparate PVG.1A (RT1a on PVG background) donor resulted in acute rejection (mean = 6.1 days) with 0/8 rats surviving greater than or equal to 2 weeks. Donor-specific class I and II disparate (PVG.1A), and third-party (LEW) skin transplants applied on LTS (greater than 50 days) PVG.R1 kidney graft recipients showed typical 1st- and accelerated 2nd-set skin graft rejection, but had no effect on kidney graft survival. In contrast, 6/7 LTS PVG.R1 kidney graft recipients accepted PVG.R1 skin grafts indefinitely following their transient partial rejection. Histologic analysis of kidney allografts revealed the highest degree of mononuclear cell infiltrates in animals specifically sensitized by PVG.1A skin grafts prior to transplant. Donor class I-specific cytotoxic T lymphocyte precursor (pCTL) frequencies, as determined by limiting dilution assays, were increased and equivalent at 1 week posttransplant in kidney allograft cell eluates from nonrejecting naive recipients (1/127-1/2209) and rejecting presensitized animals (1/470-1/7848). LTS animals had decreased intragraft pCTL at greater than 50 days (1/2969-1/61875), as did LTS at greater than 50 days that received PVG.R1, PVG.1A, or LEW skin grafts posttransplant. In all groups, splenocyte pCTL frequencies were significantly lower than the corresponding values within the allograft. By comparison, no significant differences in intragraft or splenic proliferative T lymphocyte (pPTL) precursor frequencies were observed between any groups. These results indicate that unsensitized recipients of class I-disparate renal cells grafts are capable of maintaining graft survival in the early posttransplant period, despite the presence of significant in situ antidonor class I MHC-specific cellular immune responsiveness. These findings also indicate that long-surviving PVG recipients of class I-disparate renal allografts develop specific functional tolerance to donor class I alloantigens, that may be associated with a diminished frequency of anti-class I cytotoxic (but not proliferative) T cell precursors.     

Long-term acceptance of composite tissue allografts through mixed chimerism and CD28 blockade

BACKGROUND: Clinical composite-tissue (hand) transplantation between genetically disparate individuals currently requires potent, nonspecific immunosuppressive agents that are neither completely successful in preventing acute episodes of rejection nor free from complications. The reliance on long-term immunosuppression has prompted this study to achieve donor-specific transplantation tolerance in adult recipients using a nontoxic, nonmyeloablative protocol. METHODS: Fully mismatched, 4- to 6-week-old ACI (RT1Aa) and Wistar Furth (WF) rats were used as donors and recipients, respectively. Recipients were administered CTLA4-Ig at 2 mg/kg per day (alternate days) in combination with tacrolimus at 1 mg/kg per day (daily) from day 0 through day +10, antilymphocyte serum at 10 mg at day +10 (single dose), and total-body irradiation t 300 cGy (day 0) before bone-marrow transplantation (BMT) (day 0) with 100 x 10(6) T-cell-depleted bone marrow cells. Hindlimb transplants were performed 4 weeks postBMT. Multilineage donor hematopoiesis was determined pre- and posttransplant using flow cytometry. In vitro T-cell responses were evaluated by mixed lymphocyte reactivity assays. RESULTS: CD28 blockade in a transplant model of mixed chimerism effectively aborts T-cell clonal expansion in vitro and in vivo, inhibits the development of acute and chronic rejection of vascularized hindlimb allografts in rats (ACI limbs to ACI-->WF chimeras, n=5; WF limbs to ACI-->WF chimeras, n=4), and subsequently leads to long-term survival of allogeneic skin grafts (n=9). Third-party (F344, n=4) transplants were uniformly rejected within 14 days posttransplant. Multilineage donor hematopoiesis was demonstrated pre- and posttransplant. Donor chimerism, present postBMT, increased throughout the study (pretransplant range 2-28%, mean 17%; posttransplant range 5-49%, mean 34%). Transplant recipients maintained full reactivity to respond to third-party antigens without harmful manifestations of graft-versus-host disease. CONCLUSIONS: Although efforts have been made to induce tolerance to composite tissue allografts in adult recipients, thus far, none have succeeded without toxic, myeloablative host preconditioning. Our demonstration that tolerance can be achieved with minimal preconditioning provides a rationale for application to large animals and humans and suggests that although composite tissue allografts may have a significant skin component (and are therefore felt to be highly antigenic), protocols used to induce tolerance to organ transplants may be equally applicable to composite-tissue allotransplantation.     

Facial tissue allograft transplantation

A hemifacial allograft transplant model was used to investigate the rationale for development of functional tolerance across an MHC barrier. Thirty hemiface transplantations were performed in five groups of six Lewis (RT1(1)) rat recipients each. Isografts were performed in group 1. Transplants were obtained from semiallogenic LBN(RT1(1+n)) in group 2 and from fully allogenic ACI(RT1(a)) in group 3 donors, which served as allograft rejection controls. Group 4 grafts using LBN donors and group 5 using ACI donors in addition received CsA monotherapy (16 mg/kg/d for 1 week) and maintained at 2 mg/kg/d. Signs of graft rejection were sought daily. Isograft controls survived indefinitely. All nontreated allografts were rejected within 5 to 8 days posttransplant. Eighty-three percent of face-transplant recipients from LBN donors and 67% from ACI donors did not show any signs of rejection up to 270 days and 200 days, respectively. Flow cytometry at day 63 in LBN recipients showed the presence of donor-specific chimerism for MHC class I RT1(n) antigens, namely 3.39% CD4/RT1(n); 1.01% CD8/RT1(n) T-lymphocytes; and 3.54% CD45RA/RT1(n) B-lymphocytes. In ACI recipients the chimerism test revealed 10.55% CD4/RT1(a) and 4.59% of CD8/RT1(a) T-lymphocytes. MLR assay at day 160 posttransplant revealed suppressed responses against LBN donor antigens in group 4, but moderate reactivity to ACI donor antigens in group 5. Functional tolerance toward hemifacial allograft transplants induced across MHC barrier using a CsA monotherapy protocol was associated with the presence of donor-specific chimerism in T- and B-cell subpopulations.     

Sensitized B lymphocytes contribute to acute allograft rejection

The contribution of sensitized B lymphocytes to second-set allograft rejection has been relatively ignored despite their regular appearance in rejecting allografts. This study presents evidence that adoptively transferred sensitized B lymphocytes accelerate the rate of acute allograft rejection in a sublethally irradiated rat cardiac allograft model. Donors of reconstituting B lymphocytes were sensitized with three consecutive ACI skin grafts. Transplantation of a heart from an ACI strain donor into a Lewis strain recipient (complete RT1 mismatch) results in rejection in 6.8 +/- 0.3 days. When the allograft donor and recipient are irradiated with 650 cGy prior to transplantation, rejection occurs at 31.5 +/- 3.0 days. Irradiated recipients reconstituted with 10(6) syngeneic sensitized splenic B cells reject their grafts in 20.1 +/- 2.0 days, while reconstitution with 10(6) unsensitized syngeneic B cells has no effect on the rate of rejection (P = 0.0007). These data strongly suggest that sensitized B lymphocytes have a marked accelerating effect on the tempo of allograft rejection.     

灵长类动物预致敏后肾移植加速排斥反应模型的建立

目的 建立灵长类动物预致敏后肾移植加速排斥反应模型.方法 取血型相容的正常猕猴配对,预先将供者腹部全层皮肤移植到受者背部,使受者预致敏.2周后再将同一供者的左侧肾脏移植到受者腹腔内,间时切除受者自体双肾,术后予以环孢素A、霉酚酸酯和泼尼松治疗(致敏用药组),不用免疫抑制剂者为对照(致敏对照组),以未致敏的肾移植作为对照组.术后观察受者血肌酐变化、移植物存活时间及病理特点.结果 对照组的4只移植肾存活时间分别为9、18、8、7 d;致敏对照组的3只移植肾存活时间分别为3、3、4 d;致敏用药组的3只移植肾存活时间分别为2、3、4 d.移植皮肤于术后10 d出现排斥反应,至术后14 d被完全排斥.对照组于肾移植1周以后才发牛排斥反应,而致敏者均在肾移植后3 d左右发生较严重的排斥反应.结论 受者被供者皮肤预致敏后再行肾移植,可以加速移植物的排斥,且不能被环孢素A、霉酚酸酯及泼尼松所组成的三联免疫抑制方案逆转.     

Recirculation of indium-111-labeled lymphocytes in normal and allografted rats

The kinetics of lymphocyte recirculation in normal and allografted rats with acute cardiac rejection was studied with indium-111 (In-111) labeled splenic lymphocytes in two groups of rats. Group 1 consisted of subgroups of normal Lewis rats infused with In-111 labeled unsensitized syngeneic cells (group 1a); ACI-sensitized syngeneic cells (group 1b); and ACI spleen cells (group 1c). Four rats from each subgroup were killed at 3, 6, 18, and 24 hr after cell infusion for blood, spleen, mesenteric lymph node (MLN), thymus, bone marrow (BM), liver, kidney, muscle, and heart scintillation counts. Group 2 consisted of Lewis recipients of ACI cardiac allografts infused with normal or with ACI-sensitized syngeneic splenic cells. Four rats from each subgroup were killed daily until rejection (day 7) for isotope counts of various organs. In ungrafted rats (group I), splenic accumulation of unsensitized syngeneic cells fell from 50% of the total injected dose/g tissue at 3 hr to 28% at 24 hr, whereas it rose from 12% at 3 hr to 39% at 24 hr in MLN. In contrast, the sensitized syngeneic and allogeneic cells homed preferentially to the spleen with insignificant accumulation in the MLN throughout the experiment. The BM and liver showed moderate accumulation while the thymus and nonlymphoid organs had low concentrations of labeled cells at all times. Splenic accumulation of unsensitized syngeneic cells in allografted rats (group II) showed a steep rise from day 1, reaching a peak at day 3, followed by a plateau--but sensitized cells demonstrated a peak on day 4 followed by a sharp decline until rejection. Accumulation of unsensitized cells in the MLN was significantly higher (P less than 0.001) than that of sensitized cells throughout the study. There was a significant fall (P less than 0.001) in radioactivity of BM, thymus, liver, and nonlymphoid organs from days 1-7, and the cardiac allograft demonstrated a reciprocal sharp rise in radioactivity. There was a significant early accumulation (P less than 0.001) of sensitized cells compared with unsensitized cells in the cardiac allograft on day 1. This study shows that In-111 labeled donor cells bearing surface antigen different from that of the recipient were sequestered from the circulating pool and immobilized in the spleen, but labeled donor cells with similar surface antigen to that of the recipient were recruited into the lymph node lymphocyte recirculating pool. It further demonstrates the difference in migration patterns of normal and sensitized syngeneic cells during acute allograft rejection.     

Infiltrating cell phenotypes and patterns associated with hepatic allograft rejection or acceptance

The association of inflammatory cell infiltration with orthotopic rat liver transplant rejection was studied by immunopathologic evaluation of allografts at different time points using high- and low-responder strain combinations. PVG(RT-1c) recipients of ACI (RT-1a) liver transplants had prolonged survival (greater than 100 days) without immunosuppression. In contrast, Lewis (RT-1l) recipients of ACI liver transplants had severe acute rejection with mean survival of 10.7 +/- 0.5 days (n = 9). Graft recipients of both strain combinations, as well as control syngeneic PVG-to-PVG and Lewis-to-Lewis graft recipients were sacrificed at various time points posttransplant. Sections of livers were evaluated in a masked fashion for histologic changes as well as the extent and phenotype of cellular infiltrates, as determined by immunoperoxidase labeling using monoclonal antibodies OX1 (pan leukocyte), W3/13 (pan T cell), W3/25 (T helper cell:Th), and OX8 (T cytotoxic-suppressor:Tc-s). The results suggest that: the intensity and relative distribution of rat hepatic allograft T cell infiltrates at a given time point do not necessarily correlate with eventual outcome; the intensities of W3/25 (Th) and OX1 (pan-leukocyte) cell infiltrates parallel each other in both high- and low-responder strain combinations; the relative ratio of T cells (W3/13) to non-T cells increases over time in low-responder strains but remains relatively constant in high-responder strains during active rejection; and the relative ratio of W3/25:OX8 (Th:Tc-s) decreases in high-responder strains but increases in low-responder strains.     

Immunological studies in diabetic rat recipients with a pancreatic islet cell allograft in the brain

Intracerebrally (IC) transplanted outbred Wistar and inbred Lewis (AgB1/1) strain rat islets and pancreatic endocrine cells (PEC) were able to function for a prolonged period in nonimmunosuppressed diabetic inbred ACI (AgB4/4) rats across a major histocompatibility barrier. All recipients were sensitized to various degrees to the donor antigens, as demonstrated by circulating cytotoxic antibody, irrespective of the survival of the IC graft. Nevertheless, the antidonor antibody titers in the IC islet and PEC graft recipients were lower and peaked later when compared with ACI recipients that received an intraportal islet allograft. PEC were also transplanted IC in immunized ACI recipients. In recipients hyperimmunized by repeated splenocyte injections, accelerated PEC graft rejection was observed. In recipients with weaker immunization by intraportal whole islet allograft 2 months prior to the IC allograft, the IC PEC allografts were also rejected. To assess if ACI rats with long-term-functioning IC islet/PEC allograft developed tolerance to the donor antigens, these animals were transplanted with a donor-strain skin graft. The skin grafts were all rejected in a first-set fashion similar to normal control ACI rats. Also, 7/12 and 7/9 recipients rejected their functional IC islet or PEC allograft, respectively, following transplantation of a donor-strain skin allograft, thus indicating that the transplanted PEC maintained their antigenicity even after long-term survival of over 1 year in allogeneic recipients. The data indicate that the brain does possess immunoprotective properties for the islet/PEC allograft. The protection, however, is relatively weak and is possibly due to the paucity of the effector mechanism in the brain relative to that normally present systemically.     

Sensitization interval and administration method alter the effect of 15-deoxyspergualin on heart transplantation in sensitized recipient rats

We evaluated the effect of 15-deoxyspergualin (DSG) on accelerated rejection. Brown Norway rats (BN) served as organ donors and Lewis rats (LEW) as recipients. In an accelerated rejection model, after a LEW rat was sensitized with BN skin, a BN heart was transplanted. Various intervals between sensitization and heart transplantation were examined. The heart allografts in sensitized recipients were rejected earlier than those in unmodified recipients regardless of the sensitization interval. DSG (2.5 mg/kg per day), given to the recipients during the sensitization phase, significantly prolonged graft survival compared with the untreated hosts when the sensitization interval was short. When the recipients were treated with DSG after heart transplantation, heart graft survival was significantly prolonged regardless of the sensitization interval. Flow cytometric analysis and complement-dependent cytotoxicity tests revealed that DSG suppressed antidonor antibody formation and that postoperative administration of DSG significantly decreased the proliferation of B cells when the sensitization interval was short and the proliferation of class II antigen-positive cells when the sensitization interval was long.     

Increased risk of antibody-mediated rejection of reduced-size liver allografts

Because of the shortage of liver allografts in children, transplantation of reduced-size liver allografts from adult cadaveric donors or living, related donors is being done more frequently. Reduced-size liver allografts may be used in cases of ABO incompatibility and T-cell warm cross-match positivity. This experimental study in inbred rats was undertaken to determine if reduced-size liver allografts are more sensitive to antibody-mediated rejection than full-size liver allografts. Brown-Norway (BN) (RT1(n)) rats were sensitized by three successive skin grafts at 10-day intervals. Then orthotopic Lewis (LEW) (RT1(1)) liver grafts were transplanted into these BN rats. Full-size liver allografts were compared with reduced-size liver allografts (70% of donor liver). Control groups were composed of full-size and/or reduced-size isografts. Titers of specific antibodies were assayed using a complement-dependent assay before and after orthotopic liver transplantation. Histological and immunofluorescence studies (IgG, IgM, C(3), and fibrinogen deposits) were assessed. Recipients of reduced-size liver allografts died of hyperacute rejection at 36.6 +/- 4.1 h, significantly earlier than recipients receiving full-size liver allografts, which died of accelerated acute rejection at 259.2 +/- 25.2 h (P < 0.001). Either full-size or reduced-size isograft recipients survived indefinitely. A decrease in the titers of donor-specific antibodies was observed in both groups of animals. Slight deposits of IgG, IgM, C(3), and fibrinogen were observed in recipients of reduced-size liver allografts, whereas larger deposits were observed in recipients of full-size liver allografts. Our data demonstrate that there is an increased risk of antibody-mediated rejection of reduced-size liver allografts in sensitized recipients. This may have important clinical implications for partial liver grafting in cases of ABO incompatibility and T-cell warm cross-match positivity.     

The role of passenger leukocyte genotype in rejection and acceptance of rat liver allografts

BACKGROUND: Although graft-resident passenger leukocytes are known to mediate acute rejection by triggering direct allorecognition, they may also act in an immunomodulatory fashion and play an important role in tolerance induction. Our purpose in the current study was to utilize rat bone marrow chimeras to evaluate the role of the genotype of passenger leukocytes in both acute rejection and tolerance of liver allografts. METHODS: The fate of livers bearing donor-type, recipient-type, and third-party passenger leukocytes was evaluated in the MHC class I and II mismatched rejector combination ACI-->LEW and the acceptor combination PVG-->DA. RESULTS: We report that although treatment of ACI liver donors with lethal irradiation does not lead to prolongation of graft survival in the ACI-->LEW strain combination, ACI livers bearing recipient-type (LEW) or third-party passenger leukocytes (BN) are rejected at a significantly slower rate. We confirm that lethal irradiation of PVG donor animals leads to abrogation of tolerance induction with acute rejection of their livers by DA recipients. However, the majority of PVG livers carrying donor-type (PVG), recipient-type (DA), or third-party (LEW) passenger leukocytes are accepted for >100 days. These DA recipients develop immune tolerance to the donor parenchyma (PVG). CONCLUSIONS: Our findings demonstrate that long-term acceptance of liver allografts and tolerance induction is not dependent on the presence of donor-type passenger leukocytes and can be achieved with organs carrying donor-type, recipient-type, or third-party passenger leukocytes. The importance of the MHC framework on the surface of passenger leukocytes as a critical regulator of the immune response after transplantation of chimeric organs is substantiated by the delayed tempo of rejection of ACI livers bearing recipient-type or third-party passenger leukocytes in the ACI-->LEW strain combination.     

Prevention and restoration of second-set liver allograft rejection in presensitized mice: the role of "passenger" leukocytes, donor major histocompatibility complex antigens, and host cytotoxic effector mechanisms

BACKGROUND: The aim was to determine whether sublethal donor total body irradiation (TBI) might be as effective as lethal TBI in preventing mouse second-set liver allograft rejection, and to evaluate the role of passenger leukocytes, donor major histocompatibility complex (MHC) antigens, and host effector mechanisms in the response to livers from sublethally irradiated donors. METHODS: B10 (H2b) donors received various doses of TBI at different times before their livers were transplanted orthotopically into normal or donor skin-presensitized C3H (H2k) recipients. The influence of irradiation on graft non-parenchymal cells (NPC) was determined by monoclonal antibody staining, and flow cytometric analysis. Hematopoietic cells within the grafts were reconstituted by intravenous infusion of syngeneic or third-party bone marrow cells. Allograft survival was determined in recipients that received no treatment, or that were given spleen cells from either normal B10 donors, or MHC class I - or class II-deficient mice syngeneic with the donors. Cytotoxic activity of graft-infiltrating cells and host spleen cells, and complement-dependent cytotoxic alloantibody titers were determined by isotype release assays. RESULTS: The protective effect of donor TBI was observed both at lethal (9.5 Gy) and sublethal doses (5 and 3 Gy; graft median survival time: >100 days). Extended delay in liver transplantation, allowing hematopoietic recovery and graft reconstitution eliminated the effect. Liver NPC were reduced about 80% within 24 hr of 3 Gy TBI, with a selective reduction in the incidence of B cells. The NPC-depleted livers underwent accelerated rejection when donor (but not third-party) spleen cells (5 x 10(7) were administered systemically to the recipient immediately after graft revascularization. Spleen cells from MHC class I-deficient (but not MHC class II-deficient) mice failed to fully restore accelerated rejection of TBI liver grafts. Freshly isolated graft NPC, or spleen cells from TBI liver recipients, harvested 4 days after transplantation, exhibited lower, donor-specific cytotoxic activity than cells from mice given normal livers. Recipients of TBI livers also showed much lower serum complement-dependent cytotoxic alloantibody titers. CONCLUSIONS: By substantially depleting "passenger leukocytes," sublethal donor TBI undermines anti-donor cell-mediated and humoral immune reactivity and inhibits second-set liver allograft rejection in presensitized recipients. The interval between irradiation and transplantation is important in conferring resistance to rejection. Expression of MHC class I on donor leukocyte infusions is important for overcoming resistance to second-set rejection induced by donor irradiation.