Cyclosporin A spares selectively lymphocytes with donor-specific suppressor characteristics

The effect of cyclosporin A (Cy A) on the host responses to heart allografts have been examined in rats following administration of the drug for 7 days after grafting. All grafts functioned greater than 100 days without rejection episodes in animals of major histocompatibility differences. Thymic or splenic lymphocytes (1 X 10(8) from LEW recipients of (LEW X BN)F1 hearts were transferred at varying periods into untreated LEW rats transplanted with (LEW X BN)F1 test hearts 24 hr later. Test grafts survived 12 to 16 days significantly (P less than 0.001) longer than in untreated animals (MST +/- SD = 7 +/- 0.3 days). Cells from normal LEW animals, Cy A-treated but ungrafted, and grafted but not treated animals, all failed to prolong test graft survival. Specificity of the effect was tested in vivo, using hearts from donor and third-party rats, and in vitro, using the mixed lymphocyte response (MLR). In vivo, thymocytes from treated LEW recipients of (LEW X WF)F1 grafts failed to prolong (LEW X BN)F1 test grafts; conversely, transferred thymocytes from LEW recipients of LEW X BN)F1 grafts failed to prolong (LEW X WF)F1 grafts. The MLR of lymphocytes from Cy A-treated rats was significantly decreased against donor lymphocytes but not against third-party lymphocytes. Additionally, both cellular and humoral immunity mounted by Cy A-treated recipients was depressed throughout the entire follow-up period. Prolonged heart graft survival after 7 days of Cy A treatment suggests emergence of cells with specific suppressor activity, which in turn may cause profound abrogation of host effector responses against vascularized organ allografts.     

Inhibition of rat skin allograft rejection by cyclosporine. In situ characterization of the impaired local immune response

Cyclosporine (CsA) is known to induce long-term survival of skin allografts, although the cellular mechanisms responsible for this effect are not well understood. To further define the effects of CsA-induced immunosuppression, we performed a morphological and immunohistological study of acute skin allograft rejection in the rat, comparing untreated and CsA-treated animals. Three significant differences were found between grafts in CsA-treated and untreated rats. First, CsA-allografts contained fewer MRC OX-8+ cytotoxic T cells than untreated allografts. Second, although the presence and numbers of infiltrating macrophages (W3/25+, W3/13- cells) was not influenced by CsA treatment, CsA treatment blocked expression of a macrophage membrane activation antigen, defined by the monoclonal antibody A1-3, which has previously been linked with development of macrophage procoagulant activity (PCA). Third, diminution in MRC OX-8+ lymphocytes and A1-3+ macrophages in CsA allografts was associated with an absence of the widespread thrombotic and necrotizing microvascular injury typical of acute rejection in untreated rats. We conclude that prolongation of skin allograft survival by CsA is related to its ability to prevent cell mediated injury to the endothelium of graft vessels, and possibly also to inhibition of macrophage PCA with consequent reduced thrombus formation.     

Role of antibody in rat renal allograft rejection. II. Failure to enhance renal allografts by sensitization to donor class I antigens presented by donor strain erythrocytes

BN rats were immunized with one or three doses of 1 X 10(8) highly purified LEW erythrocytes (LEW-E) yielding IgM antibody (IgM-BN rats) and IgG antibody (IgG-BN rats) to LEW class I antigens, respectively. LEW kidneys transplanted into IgM-BN rats elicited cytotoxic T cell responses and lymphocytotoxic antibody responses comparable to those elicited by LEW renal grafts in unmodified BN rats. However, LEW kidneys were rejected by IgM-BN hosts in a slightly delayed fashion compared with controls (mean rejection times (MRTs), 9.4 versus 7.1 days); delayed rejection was associated with the absence of anti-LEW IgG hemagglutinins from the recipients' blood and the absence of vasculonecrotic lesions from rejected renal grafts. LEW kidneys inserted into IgG-BN rats were rejected in a slightly accelerated fashion compared with controls (MRT, 6.6 days). Lymphocytotoxins developed in IgG-BN recipients of LEW kidneys in a fashion similar to that of controls, but cytotoxic T cell responses were delayed up to the 6th day after transplantation. These observations confirm our previous finding that cytotoxic T cells do not play a decisive role in acute rejection in this model. The association observed between delayed or accelerated rejection of LEW kidneys by BN rats sensitized with LEW-E and the absence or presence of anti-donor IgG hemagglutinins in the blood of these recipients after transplantation suggests an important role for IgG anti-donor class I antibodies in the rejection of LEW renal allografts by BN rats.     

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.     

Immunohistological observations of rat fetal pancreas allografts transplanted into unmodified and cyclosporine-treated recipients

Administration of CsA (15 mg/kg/day) prolonged the survival of DA (RT1a) rat fetal pancreas transplanted to the renal subcapular site of both PVG (RT1c) and Lewis (RT1(1] recipients. Sections of fetal pancreas examined 40 days after transplantation into allogeneic CsA-treated recipients showed growth and development of the fetal pancreas tissue, and the presence of numerous insulin-containing islets. CsA treatment prevented the induction of MHC antigen within allografts. Whereas at day 4, both rejecting and CsA treated grafts showed donor class I MHC expression on duct epithelium and islet cells, only rejecting grafts displayed class I MHC induction on acinar cells. Rejecting grafts showed strong induction of class II MHC antigen expression on duct epithelium from day 4 onward but this was completely prevented by CsA treatment. Islet cells in both rejecting and CsA treated allografts remained class II-negative throughout. CsA also resulted in a reduction in the day 6 cellular infiltrate of allografts (median area leukocyte infiltrate reduced from 43% to 10%) with a marked decrease in the number of MRC OX-8-positive cells. These results show a favorable effect of CsA on rat fetal pancreas allografts with a reduction in MHC antigen expression within the graft and prolonged survival of insulin-rich endocrine tissue.     

Pretreatment with lymphocyte subpopulations and renal allograft survival in the rat

The induction of antigen-induced immunosuppression by highly purified lymphocyte populations of different phenotypes was investigated in a rat renal allograft model (LEW-to-DA). Lymphocyte populations were prepared from Lewis spleen cells by rosette depletion and flow cytometric separation. Rosette depletion was performed using appropriate monoclonal reagents. B cells were prepared from spleen lymphocytes by rosette depletion of T cells, using three monoclonal antibodies: MRC OX19 (anti-T-cell), MRC OX8 (anti-T-cytotoxic/suppressor) and MRC W3/25 (anti-T-helper). T cells were purified by rosette depletion of B cells with MRC OX12 (anti-rat-K-chain). After depletion the lymphocyte populations were analyzed by flow cytometry and the purity of each preparation determined. B cells were 93.6% pure and T cells were 92.4% pure. Intravenous injection of 5 X 10(6) of these LEW B or T cells one week before transplantation of a LEW kidney into a DA recipient resulted in was indefinite renal allograft survival (median survival time [MST] greater than 100 days). Purification of the enriched B and T cell preparations by flow sorting resulted in highly purified populations of spleen B cells (99.3%) and T cells (98.2%). Further fractionation of the T cells into cells of T helper (99.6%) (i.e., W3/25-positive) and T cytotoxic/suppressor phenotype (99.4%) (i.e., MRC OX8-positive) was performed. While purified B cells, T cells, and T helper cells, given at a dose of 10(6) cells intravenously one week before transplantation resulted in long-term renal allograft survival (MST greater than 100 days), cells of the T cytotoxic/suppressor phenotype did not prevent graft rejection at this dose (MST 10 days).     

Allograft rejection in CD4+ T cell-reconstituted athymic nude rats--the nonessential role of host-derived CD8+ cells.

PVG-rnu/rnu nude rats reject fully allogenic renal (DA) and skin (BN, AO) allografts after the adoptive transfer of naive CD4+ T cells alone, but rejection is accompanied by the accumulation of many nude-derived CD8+ leukocytes within the graft. In addition, mononuclear cells infiltrating the rejecting renal grafts in these animals display cytotoxic activity in vitro against specific and third-party alloantigens. In this investigation we have treated CD4+ T cell-restored nude rats bearing renal or skin allografts with the mAb MRC OX8 to deplete the host of CD8+ cells. In vivo treatment with OX8 completely eliminated CD8+ cells from rejecting grafts of both kidney and skin, but it did not prevent graft rejection, nor did OX8 treatment abolish the cytotoxic effector cells found in nude rat spleen or in graft-infiltrating cells (GIC) of rejecting renal allografts. The nature of the cytotoxic activity was examined with anti-CD3 mAb 1F4, which was shown to block conventional CD8+ Tc killing in vitro but did not inhibit allogeneic target cell lysis by spleen cells from nude rats. The cytotoxic activity found in GIC of rejecting allografts was not inhibited by anti-CD3 mAb, suggesting that these cytotoxic effector cells were CD3-CD8- and were of extrathymic origin. We conclude that non-thymus-derived CD8+ GIC are not essential for allograft rejection in CD4+ T cell-restored nude rats.     

Specific unresponsiveness to fully allogeneic kidney allografts in rats induced by procarbazine hydrochloride and antilymphocyte serum

A short course of procarbazine hydrochloride (PCH; 50 mg/kg) and antilymphocyte serum (ALS; 5 ml/kg), administered to Lewis (LEW;RT1(1] rats in the first week following transplantation of Brown Norway (BN;RT1n) kidneys, substantially prolonged allograft survival and induced long-term survival in 62% of the grafts. The two agents acted synergistically, in that neither of them administered alone had much effect. Graft recipients did not produce detectable cytotoxic antibodies and antigen-reactive cells injected i.v. were not diverted to the liver, thus showing that neither antibodies nor immune complexes are likely to mediate the unresponsiveness. Spleen cells from graft-bearing recipients failed to cause graft-versus-host responses (GVHR) in both (LEW X BN)F1 and (LEW X DA)F1 hybrids, but they specifically suppressed the GVHR given by normal syngeneic cells to donor strain (BN) antigens. This suppression was specific because the response against third-party antigens (DA; RT1a) was unaffected. Adoptive transfer of spleen and thymus cells from PCH-ALS-treated LEW rats bearing healthy BN kidneys caused a profound prolongation of BN graft survival in sublethally irradiated LEW recipients. This transfer was specific and mediated by W3/13+ (T) lymphocytes. It is concluded that a limited regimen of PCH and ALS given in the first postoperative week incites the generation of specific suppressor T lymphocytes and that this form of immunosuppression, even without preoperative donor antigen, is an effective way of prolonging kidney allograft survival.     

Cyclosporine and anti-interleukin 2 receptor monoclonal antibody therapy suppress accelerated rejection of rat cardiac allografts through different effector mechanisms

Increasing numbers of sensitized patients are either precluded from receiving an allograft or experience accelerated rejection which may be refractory to conventional therapy. Using a rat model, we have shown that accelerated (24 hr) rejection of LBN cardiac Tx in LEW rats sensitized with BN skin grafts 7 days earlier, could be prevented by treatment with cyclosporine (15 mg/kg/day x7 days, Tx survival about 42 days) or ART-18, an anti-IL-2R mAb (300 micrograms/kg/day x10 days i.v., Tx survival about 16 days). In this study, we evaluated intragraft mechanisms responsible for these effects by immunoperoxidase localization of relevant humoral mediators (IgG, IgM, C3, cross-linked fibrin), graft infiltrating cells (GIC), and associated cytokines (IL-2, IFN-g, tumor necrosis factor [TNF], or cytokine receptors (IL-2R). Tx rejected in fulminating fashion by 24 hr in sensitized hosts showed extensive and progressive endothelial deposition of IgG, C3, and fibrin from 2 hr, followed by an influx of neutrophils at 3 hr, and peak numbers of GIC by 18 hr (88.8 +/- 20.3 leukocytes/field). At 18 hr, GIC consisted of neutrophils (26%), T cells (20%, greater than 90% of which were OX-8+), and monocytes/macrophages (53%), whereas B cells were absent. By 18 hr, up to 20% of GIC were IFN-g+, 10% were IL-2R+, and 10% were IL-2+, consistent with labeling of 20% of cells with OX-22. Widespread endothelial and mononuclear cell labeling for TNF and the procoagulant molecular tissue factor (TF) were also noted. In contrast to untreated grafts, CsA treatment essentially abolished intragraft Ig, C3, and fibrin deposition. Moreover, despite dense cell infiltration at 24 hr (total GIC 55.3 +/- 13.4/field), analysis of CsA-treated Tx showed markedly decreased neutrophils (0.5%), with increased T cells (35%) and similar proportions of macrophages (66%). In addition to the reduction in neutrophils, Ig and C3, fewer IL-2R+ (6%) and OX-22+ (3%) cells, considerably less TNF and TF, and almost no IL-2+ or IFN-g+ GIC (less than 1%) were detected. Surprisingly, ART-18 treatment also greatly decreased but did not abolish endothelial deposition of C3, IgG, or IgM, whereas widespread endothelial and mononuclear labeling for fibrin, TNF, and TF remained. In addition, GIC (about 54.8 +/- 16.1/field) contained only moderately reduced numbers of neutrophils (31%) and the proportions of T cells (27%) and macrophages (49%) were generally comparable to those of rejecting Tx in untreated rats.(ABSTRACT TRUNCATED AT 400 WORDS)     

Effect of a single injection of high-dose FK506 on lung transplantation in rats

Orthotopic left lung grafts from Brown Norway (BN) donors were transplanted to Lewis (LEW) rat recipients which had been treated with a single dose of FK506 10 mg/kg body weight intramuscularly on postoperative day 3. Although the lungs were rejected with a median survival time of 7 days, with a range of 6–8 days in the untreated controls, maximum survival was prolonged to 60 days. The major adverse effects of this therapy were reduction of feeding, loss of body weight, and diarrhea. One of the 7 rats died on the 21st postoperative day due to anorexia. The effects of this therapy were investigated by histopathological examination and flow cytometric analysis using monoclonal antibodies against rat lymphocytes: OX-39 (anti-interleukin 2 receptor (IL-2R)) and OX-6 (anti-class II MHC). Histopathologically, the lung allografts showed mild perivascular and peribronchiolar cuffs of mononuclear cells, while marked reduction of the thymic medulla with FK506 treatment was also observed. Flow cytometric analysis of the transplanted lung showed no significant changes. Regarding the thymus, the percentages of positive cells labeled with OX-39 and OX-6 were significantly suppressed after this treatment. In the spleen, the number of OX-6-positive cells significantly decreased. The results using this therapy thus suggest that the suppression of IL-2R and MHC class II expression was systemically maintained for a long time.     

Suppression of antibody response and prolongation of skin graft survival by multiple blood transfusions in the rat

The effect of blood transfusions (BT) on antibody response and skin graft survival was studied in the strongly MHC-incompatible BN and LEW combination. One-to-three BT induced high titer antibodies. Additional BT, however, led to a decrease of antibody titers. After 15 BT the recipients either had no detectable antibodies, or they had very low antibody titers. This suppression of response was shown to be distinct from a simple loss of antibody activity caused by lack of further antigenic challenge. In multiple transfused rats, humoral nonreactivity persisted in spite of rechallenge with antigen; in animals that lost their antibodies as a result of lack of further stimulation, an additional BT boosted strong antibody production. In LEW recipients of multiple BN transfusions, not only the specific anti-BN response but also reactivity to third-party BUF blood was suppressed. However, whereas the donor-specific response (anti-BN) was largely inhibited after a ten-week interval, the response to third-party BUF blood recovered. The state of humoral nonreactivity could be transferred by spleen cells to nontransfused syngeneic animals. In LEW rats that received three injections of 5 X 10(7) "suppressor" spleen cells, the antibody response to BN blood was strongly impaired as compared with animals that received normal spleen cells. BN or (BN X LEW)F1 skin grafts survived significantly better in multiple transfused LEW rats than in nontransfused controls. This was even more pronounced when ALS was given additionally. Third-party grafts (BUF) survived only slightly better than controls. It is concluded that multiple BT (1) result in humoral anti-donor nonreactivity secondary to an initial antibody response, (2) induce strong specific and weak nonspecific suppressor cell activity, and (3) increase skin graft survival.     

Suppressed alloreactivity and mixed chimerism in rats with accepted cardiac allografts by intrathymic injection of donor bone marrow cells

Intrathymic injection of donor bone marrow cells (ITBMCs) at the time of transplantation and treatment with antilymphocyte serum (ALS) permitted the indefinite survival of Brown Norway (BN, RT1ⁿ) rat heart grafts in 6 out of 8 Lewis (LEW, RT1^l) rat recipients. LEW recipients with long-surviving BN heart grafts (LSGs) also accepted additional BN heart grafts without further immunosuppression, though they rejected Piebald Virol Glaxo (PVG, RT1^c) rat heart grafts in the usual fashion. In the in vitro study, the proliferative response of the lymphocytes from LEW recipients with LSGs remained suppressed when they were stimulated by BN spleen cells, but not when stimulated by PVG cells. Bone marrow cells (BMCs) from LEW rats with LSGs showed strong, nonspecific, suppressive effects on the proliferative response in the mixed lymphocyte culture reaction, suggesting that one of the possible explanations for tolerance might be the involvement of a suppressor mechanism. Received: 7 August 1996 Received after revision: 12 February 1997 Accepted: 17 February 1997     

Efficacy of Perioperative Portal Venous Inoculation with Donor Lymphocytes on Skin Graft Survivals in the Rat

Although the administration of donor lymphocytes via portal vein (PV) on the day of transplantation significantly prolongs rat renal allograft survivals and the unresponsive state is mediated by an antigen-specific suppressor factor in the serum, significant variations exist among rodent models in terms of immunogenecity and mechanism of antigen presentation. The present studies sought to assess the effect of perioperative PV inoculation with donor lymphocytes on skin allograft survivals. Donor lymphocytes were prepared from Brown-Norway (BN, RT-1^a) or third-party DA (RT-1^a) rat spleens and lymph nodes and injected via PV or intravenously to Lewis (LEW, RT-1¹) hosts on the day of skin grafting. Untreated LEW hosts rejected BN skin grafts at 9.0 ± 1.4 days (n= 10). Intravenous administration of 1 ± 10⁸ BN cells into LEW hosts on day 0 did not prolong the skin graft survivals (MST= 8.6 ± 1.2 days, n= 7, NS), whereas PV inoculation of 1 × 10⁸ BN cells prolonged skin graft survival to 13.4 ± 3.9 (n= 8, P <. 01). PV administration of 1 × 10⁸ DA cells to LEW hosts did not prolong the survival of BN skin grafts (MST= 8.6 ± 1.5 days, n= 6). PV inoculation with BN cells inhibited the generation of anti-BN delayed-type hypersensitivity (DTH) response in the hosts, whereas untreated control hosts or hosts inoculated with third-party DA cells could not inhibit the anti-BN DTH response. When serum harvested from PV-treated LEW hosts on day 7 was added to MLC, it suppressed the reaction toward donor BN cells by 61%, but not toward third-party DA stimulators (4.8% suppression, NS). Moreover, adoptive transfer of the serum from PV-treated LEW rats into the virgin secondary LEW hosts significantly prolonged the graft survivals of BN kidney from 7.8 to 16.3 ±1.1 days (n= 6, P ≤. 01), but not third-party DA renal graft (MST= 7.7 ± 0.5, n= 8, NS) or BN skin graft (MST= 9.8 ± 1.2 days, n= 5, NS). These studies suggest that the suppressor mechanism demonstrated in the PV-treated renal transplant model might be similarly active in the hosts who received skin grafts simultaneously with the PV inoculation of donor cells.     

The cellular basis of allograft rejection in vivo. III. Restoration of first-set rejection of heart grafts by T helper cells in irradiated rats

An adoptive transfer model was used to examine the subpopulations of lymphocytes required to effect first-set rejection of directly vascularized heart allografts. PVG heart grafts are not rejected in irradiated DA hosts for at least 50 days. The adoptive transfer of 5 X 10(7) syngeneic lymph node cells (LNC) restores rejection to 14.4 +/- 2.4 days (mean +/- SD). Subpopulations of LNC, were separated by an indirect "panning" technique using the mouse antirat monoclonal antibodies W3/13, MRC OX8, or W3/25 to deplete the unwanted subsets of cells. Each subpopulation was tested, in a number equivalent to the number present in 5 X 10(7) normal LNC, for its ability to cause the rejection of heart grafts. Whole T cells (W3/13+) or helper/inducer T cells (W3/25+) restored graft rejection to 16.4 +/- 3.8 d and 16.0 +/- 2.4 days, respectively. Neither cytotoxic/suppressor T cells (MRC OX8+) nor B cells (Ig+) restored rejection. Indirect immunoperoxidase stains of the grafts showed that although W3/25+ cells predominated in the rejected tissue, MRC OX8+ cells were also present even in grafts from rats restored with inocula that contained less than 1% MRC OX8+ cells. Examination of lymphoid tissues suggested that the MRC OX8+ cells might be of host origin. By the time the grafts were rejected in irradiated hosts, significant thymic regeneration had occurred and there were large numbers of MRC OX8+ cells present in the thymus, as well as some in lymph nodes and spleen.     

Prolongation of renal allograft survival in the rat treated with amniotic fluid.

To assess the role of amniotic fluid (AMF) in the maintenance of pregnancy, immunosuppressive effects of AMF were studied in vivo, and the mechanisms of suppressor activity were analyzed immunologically in vitro in the rat. Female Lewis (LEW, RT-1l) rats mated with Brown-Norway (BN, RT-1n) rats for 14 days were sacrificed and cell-free AMF was obtained. AMF was diafiltered with PBS (PH 7.2) and reconstituted to 2 OD units measured at 280 nm. Untreated LEW hosts rejected BN renal grafts at 7.8 +/- 0.2 days (n = 10). Five days of intravenous inoculation of AMF into LEW hosts remarkably enhanced BN graft survivals (MST = 20.3 +/- 4.4 days, n = 12) compared with controls (P less than 0.01), and slightly prolonged third-party DA (RT-1a) graft survivals (MST = 9.4 +/- 0.8 days, n = 7) compared with control LEW hosts engrafted with a DA kidney (MST = 7.6 +/- 0.2 days, n = 6). Five days of intravenous inoculation of pregnant sera into LEW hosts had no effect on BN graft survival. The AMF suppressed the proliferative response of LEW lymphocytes against not only irradiated BN stimulator cells but also irradiated third-party DA stimulators. The AMF also suppressed allokiller T cell generation of normal LEW lymphocytes against BN cells by 70.1% and 51.3%, and against DA cells by 64.9% and 38.9% at concentrations of 25% and 12.5%, respectively (P less than 0.01). To dissect the immunosuppressive activity of AMF, the effect of AMF on cytokine production and interleukin 2 (IL-2) receptor expression of concanavalin A-stimulated lymphocytes were investigated. AMF suppressed interferon and IL-2 production. Interestingly, however, AMF did not suppress interleukin 3 (IL-3) and interleukin 6 (IL-6) production, as well as IL-2 receptor expression. These results demonstrated that rat AMF displayed a strong immunosuppression in vivo as well as in vitro, and that AMF might play an important role in the maintenance of pregnancy.     

Inhibition of the accumulation, in rat kidney allografts, of specific--but not nonspecific--cytotoxic cells by cyclosporine

Rats receiving kidney allografts were divided into two groups--one was treated daily with an immunosuppressive dose of cyclosporine and the other group was left untreated. Five days after transplantation the cells infiltrating the grafts were extracted by enzymic treatment and tested in vitro for specific and nonspecific cytotoxicity in a 6-hr 51Cr release assay. Approximately 5 X 10(7) and 7 X 10(7) mononuclear cells per kidney were obtained, respectively, from healthy grafts excised from cyclosporine-treated hosts and from grafts undergoing unmodified rejection. Despite these similarities in yield the cells harvested from the grafts of the two groups showed very different cytolytic activity. Cells from both sources displayed comparable levels of nonspecific cytotoxicity, but only those obtained from grafts undergoing rejection were able to mediate specific target cell lysis. The relevance of these observations to the understanding of the mechanism of kidney allograft rejection in the rat and of the mode of action of cyclosporine are briefly discussed.     

Detection of serum-blocking factors by inhibition of allorosette formation in rats with long-surviving renal allografts following short-term postoperative ALS treatment.

Thirty-nine (LEW x BN)F1 kidneys were transplanted to LEW rats. Twenty-four untreated recipients survived for a mean time of 16.1 +/- 1.7 days (group 1). Fifteen recipients received 4 ml of antilymphocytic serum per rat (group 3). In the last group 10 recipients survived for more than 4 months. The spleen cells of these permanently surviving 10 rats were obtained by splenectomy and used in a graft-versus-host assay, and this assay showed that the reactivity of these cells was normal. Following splenectomy the animals were given an (LEW x BN)F1 skin allograft, followed 18 days by a second. After another 18 days (LEW x Buf)F1 "third party" skin allografts were transplanted to the same animals. Animals of group 2 rejected their first grafts with a mean survival time of 12.2 +/- 1.2 days, whereas the second grafts were rejected normally as were the third party grafts. Attempts were made to detect lymphocytotoxic antibodies and haemagglutinins before and after the transplantation of skin grafts and none could be found up to day 53. The sera of group 2 inhibited allorosette formation by 38%. This serum-blocking factor was donor specific. It is probable that the survival of the kidney transplants following antilymphocytic serum treatment was brought about by the development of blocking antibodies.     

Infectious tolerance develops after intrathymic alloantigen-induced acceptance of rat heart allografts can be adoptively transferred

BACKGROUND: We have shown that intrathymic (IT) injection of alloantigen with antirat lymphocyte serum (ALS) treatment can induce donor-specific allograft acceptance. The purpose of this study was to investigate whether T-regulatory (T-reg) cells play a role in the maintenance of donor-specific heart graft tolerance that develops after IT injection of Lewis (LEW, RT1(l)) alloantigen into a Dark Agouti (DA, RT1(a)). METHODS: Na?ve DA rats were injected IT with 2.5 x10(7) LEW donor splenocytes and injected intraperitoneally with 1 mL ALS. Twenty-one days after pretreatment, a LEW or Brown Norway (BN, RT1(n)) heart was transplanted into a treated DA recipient. Splenocytes (1 x 10(8) or 5 x 10(7)) from a LEW heart-tolerant long-term survivor (LTS; >60 days) DA recipient were harvested and adoptively transferred (AT) into an irradiated (450 rad) na?ve DA rat 24 hours before transplanting a LEW heart. RESULTS: All LEW heart allografts were rejected by untreated DA rats in a mean survival time (MST) of 7.4 +/- 1.7 days (n=7). In contrast, 66.7% of LEW heart grafts into IT+ALS-pretreated DA recipients were accepted indefinitely (n=24). When either 1 x 10(8) (n=5) or 5 x 10(7) (n=5) splenocytes from a LEW heart graft-tolerant LTS (>60 days) DA recipient were AT into a new na?ve DA rat, all new LEW heart grafts were accepted indefinitely. CONCLUSIONS: The donor-specific tolerance that develops after IT+ALS-induced LEW heart acceptance by DA recipients can be transferred adoptively to new na?ve DA recipients, thus indicating that it is infectious tolerance.     

The potent role of graft-derived NKR-P1+TCRalphabeta+ T (NKT) cells in the spontaneous acceptance of rat liver allografts

BACKGROUND: The mechanism involved in the spontaneous acceptance of liver allografts in some rat strain combinations remains unclear. Immunoregulatory NKR-P1TCRalphabetaT (NKT) cells primarily produce IL-4 and IFN-gamma, and enhance the polarization of immune responses to Th2 and Th1, respectively. The aim of this study was to clarify the role of graft-derived NKT cells in inducing the spontaneous acceptance of rat orthotopic liver transplantation (OLTx) METHODS: The experimental groups were divided as follows: Group 1, BN to LEW "low responder (acceptor)" combination; Group 2, DA to LEW "high responder (rejector)" combination; na?ve BN (Group 3) or LEW recipients (Group 4) with liver allografts from irradiated BN donors. The recipients had liver allografts from irradiated donors reconstituted from the following cell populations 24 hr before harvesting, spleen cells (SPCs, Group 5), IgSPCs (Group 6), IgNKR-P1SPCs (Group 7), and IgTCRabSPCs (Group 8) RESULTS: In Group 1, the percent of graft-derived NKT cells harvested on day 7 posttransplant were significantly higher than in Group 2. In the case of BN liver allografts that had been irradiated and reconstituted with cell populations including NKT cells (Groups 5 and 6), the mean graft survival (MST) was extended to 39.2+/-5.7 and 38.8+/-8.0 days, respectively. In contrast, when NKT cells were excluded (Groups 7 and 8), the grafts were acutely rejected within MST of 17.8+/-4.0 and 18.8+/-7.7 days, respectively. The concentrations of IL-10 and TGF-beta, but not IL-4 in IgGICs culture supernatants were predominant in the acceptor, whereas those with IFN-gamma predominated in the rejector. CONCLUSIONS: Graft-derived NKT cells might be responsible for spontaneous acceptance in the rat OLTx.     

Development of donor-specific immunoregulatory T-cells after local CTLA4Ig gene transfer to pancreatic allograft

BACKGROUND: CTLA4Ig gene transfer directly to graft tissue might have the potential to avoid the need for systemic immunosuppression. In our previous studies of bio-breeding (BB) rats, local adenovirus-mediated CTLA4Ig gene transfer protected the pancreas from autoimmune and alloimmune responses. This study investigated the potency of local CD28/B7 costimulatory blockade for induction of donor-specific tolerance and further examined the existing mechanisms. METHODS: Brown Norway (BN; RT1)-pancreaticoduodenal grafts transfected with Ad.CTLA4Ig via intraarterial ex vivo perfusion were transplanted into streptozotocin-induced diabetic Lewis (LEW; RT1) rats. RESULTS: Ad.CTLA4Ig transduced grafts combined with a short course of FK506 resulted in indefinitely prolonged survival (>156 days vs. 19.5 days with FK506 alone). CTLA4Ig was predominantly expressed in grafts on day 4. The expression was gradually diminished and was only slightly detectable at day >100. The proliferative responses against BN antigen were remarkably enhanced among recipients with rejected grafts, but the T-cells from tolerant recipients (>100 days) showed poor cytotoxic responses. On adoptive transfer assay, the splenic T-cells of tolerant recipients were able to suppress the rejection of BN, but not third-party Wistar Furth (WF; RT1) hearts in irradiated (480 cGy) LEW recipients. The percentage of CD4CD25 splenic T-cells was significantly increased in tolerant recipients (13.53 +/- 4.06% vs. 6.06 +/- 0.56% in naive rats). CONCLUSION: CTLA4Ig gene transfer to the pancreaticoduodenal allograft combined with a short course of FK506 induces donor-specific tolerance. The mechanism of maintaining tolerance could be explained by development of splenic T suppressor cells.