Long-term prolongation of cardiac allografts by subtherapeutic levels of cyclosporine in rats conditioned with pretransplant blood transfusions and cyclosporine

This study was aimed at ascertaining whether long-term graft survival was achievable with short term cyclosporine (CsA) therapy or with subtherapeutic doses of CsA in rats conditioned with blood transfusions (BT) combined with CsA. Previous studies had shown that donor-specific transfusions combined with a short course of CsA interacted synergistically, resulting in considerable prolongations of ACI and BUF grafts in LEW hosts receiving no postoperative treatment. The donor-specific depression of alloreactivity was confirmed in the present study by showing a depression of mixed-lymphocyte reaction (MLR) reactivity as well as of humoral antidonor responses in BT-CsA conditioned rats. The effects of postoperative CsA were then studied in recipients conditioned with BT-CsA or BT alone. ACI and BUF cardiac graft survival in LEW hosts conditioned with BT and treated with a five-day postoperative course of CsA (20 mg/kg/day) were indistinguishable from graft survival in untransfused hosts (ACI: 35.6 +/- 15.5 vs. 38.8 +/- 7.4; BUF: 58.4 +/- 39.8 vs. 48.0 +/- 21.7) indicating no interaction between BT and CsA under these conditions. In contrast, the effect of a post-operative five-day course of CsA (10 mg/kg/day) was extended by conditioning the recipients with donor-specific BT and CsA (ACI:41.7 +/- 7.0 vs. 27.4 +/- 11.6; P less than 0.05). More remarkably, a thirty-day course of subtherapeutic doses of CsA (2.5 mg/kg/day) resulted in long-term prolongation (greater than 100 days) of ACI grafts in a large proportion of hosts conditioned with donor-specific BT and CsA, while the majority of controls conditioned with nonspecific BT and CsA or CsA alone rejected their grafts within three weeks (P less than 0.01). The possible mechanisms of this phenomenon are discussed.     

Small bowel transplantation in the rat. Effect of pretransplant blood transfusions and cyclosporine on host survival

We investigated the effect of pretransplant conditioning as a way to reduce the need for the aggressive immunosuppressive therapy reportedly required in small bowel (SB) allograft recipients. LEW rats were conditioned with (1) a donor-specific blood transfusion (DST) on day -8 and a concurrent 5-day course of CsA (10 mg/kg/day); (2) a nonspecific blood transfusion and CsA; (3) CsA alone. A 10-cm segment of the host native bowel was then replaced with an equivalent segment of SB obtained from ACI rats. Postoperative treatment consisted of CsA at 2.5 mg/kg/day for 30 days. Rats conditioned with a nonspecific transfusion and CsA or with CsA alone survived for 14.1 +/- 5.8 and 18.3 +/- 5.7 days, respectively. In contrast, rats conditioned with DST and CsA survived for 60.3 +/- 36.2 days (P less than 0.001 vs. both controls). Biopsies taken from long-term survivors showed a normal bowel architecture. The function of the allografts was studied in a group of animals totally deprived of their native bowel and transplanted with a 30-cm segment of ACI SB. CsA-DST-treated recipients survived an average of 90 +/- 43 days and grew at a rate comparable to isografted animals. Treated allograft recipients had maltose absorption indistinguishable from isografted controls at all times tested. In contrast, maltose absorption was severely impaired in recipients rejecting their grafts. This study demonstrates that long-term survival of SB allograft recipients can be achieved with good functional results with low doses of CsA in recipients conditioned with DST and CsA.     

Effect of ultraviolet-B-irradiated donor-specific blood transfusions and peritransplant immunosuppression with cyclosporine on rat cardiac allograft survival

We have previously demonstrated that pretreatment of ACI recipients with ultraviolet-irradiated donor-specific blood transfusion (UV-DST) leads to permanent cardiac allograft survival without further host immunosuppression (ACI rats are weak responders to Lewis lymphocytes in mixed-lymphocyte reaction). This study examines the effect of UV-DST and the timing of transfusions on ACI cardiac allograft survival in Lewis recipients with and without the addition of peritransplant cyclosporine (CsA) (20 mg/kg i.m.) given on days 0, +1, and +2 in relation to the time of transplantation. The mean survival time (MST) of ACI cardiac allografts in Lewis recipients was significantly increased to 33.6 +/- 5.7 days (P less than 0.001) by CsA treatment alone as compared to 6.5 +/- 0.5 days survival in control. When DST was given on day -3 combined with CsA, graft survival was increased to 42.0 +/- 9.3 days (P less than 0.01), as compared to 5.8 +/- 1.3 days when DST alone was used. When DST was irradiated with ultraviolet B (UV-DST) and administered on day -3 combined with peritransplant CsA, the MST was increased to 68.83 +/- 16.1 days as compared to an MST of 10.0 +/- 1.0 days in controls treated with UV-DST alone. When UV-DST was given on day -7 and combined with peritransplant CsA immunosuppression, the results were similar. However, when UV-DST was peritransplant CsA course, 4 of 6 recipients maintained their ACI heart allografts indefinitely (greater than 300 days) in contrast to the effect of UV-DST alone (MST of 13.5 days). Third-party (W/F) UV-irradiated blood transfusions were ineffective in prolonging ACI cardiac allografts in Lewis rats, regardless of whether the transfusions were given alone or in combination with peritransplant immunosuppression with CsA. In conclusion, these results demonstrate that UV-DST combined with a brief peritransplant immunosuppression with CsA induces prolonged heart allograft survival in a histoincompatible, strong responder host, and that such effect is donor specific. The use of UV-DST combined with peritransplant CsA immunosuppression offers a promising approach to achieving organ transplant unresponsiveness, and decreased sensitization to the donor blood elements, which eventually may have important clinical implications.     

The effect of donor-specific blood transfusion, cyclosporine, and dietary prostaglandin precursors on rat cardiac allograft survival. II. Effectiveness of a 24-hour induction period with DST and CsA in inducing long-term graft survival

We investigated the effect of donor-specific transfusion given 24 hours pretransplant, a short course of low-dose cyclosporine, and dietary enrichment with the prostaglandin precursor linoleic acid (LA) to see which of the modalities could act synergistically on cardiac allograft survival in a stringent animal model. ACI male rats (RT1a) were used as blood and heart donors, and Lewis male rats (RT1l) were used as recipients. DST alone (1 ml) given 24 hr pretransplant or LA alone started 24 hr pretransplant and given daily p.o. until rejection prolonged cardiac allograft survival slightly but significantly, from 6 to 8 days. CsA alone started at the time of transplant at a dose of 5 mg/kg/day s.c. and given daily for 14 days prolonged cardiac survival to 11.8 days. However, when CsA was started 24 hr pretransplant and continued for two weeks, there was a significantly prolonged allograft survival to 55 days. CsA given together with DST 24 hr pretransplant and continued for two weeks posttransplant significantly prolonged cardiac allograft survival to 80 days and resulted in permanent tolerance in some animals. The addition of LA to a DST and CSA treatment regimen did not further improve allograft survival. CsA blood levels were determined in a separate group of Lewis rats. Three dosages of CsA were administered s.c. for 2 weeks: 2.5 mg/kg/day, 5 mg/kg/day, and 10 mg/kg/day. One injection of the three CsA doses did not achieve what are considered therapeutic levels in man. After 5 days, all three doses of CsA achieved significant blood levels. Significant blood levels were still present one week, but not 3 weeks after CsA was stopped. We conclude that DST given 24 hr before transplant and a 2-week course of low-dose CsA started one day pretransplant have strong synergism in inducing long-term graft survival in this rat model. Linoleic acid started 24 hr pretransplant, together with DST and CsA, did not contribute significantly to graft survival compared with the group given CsA and DST alone. Prolonged heart allograft survival was not due to persistently high CsA levels after the drug was discontinued.     

Extensive prolongation of rat renal allograft survival following donor or nonspecific transfusions and concomitant immunosuppressant

We report here a marked beneficial effect upon rat renal allograft survival transplanted across a strong histocompatibility barrier (BN----LEW) by pretransplant concomitant donor-strain blood transfusion (DST) and CsA treatment. Comparisons between recipient groups treated with pretransplant nonspecific blood (NST) and concomitant cyclosporine (CsA) or azathioprine (Aza) administration were also made. LEW recipients receiving only a BN renal allograft survived for a geometric average time of 8.9 days. Recipients receiving 1 ml of donor blood at weekly intervals, each week for three weeks prior to transplantation, demonstrated a geometric mean survival time (GMST) of 40.5 days. Recipients receiving this same regimen and concurrent CsA cover (5 mg/kg/day) starting 7 days prior to the first transfusion with discontinuation 5 days prior to transplantation showed extensive prolongation (greater than 100 days). Recipients treated with only CsA cover survived for a GMST of 34.4 days. LEW recipients receiving 1 ml of nonspecific blood at weekly intervals (DA, BUF, WKY, respectively) each week for 3 weeks prior to transplantation were prolonged to 27.7 days. Recipients treated with this same regimen while under CsA cover also demonstrated extended prolongation (greater than 100 days). Recipients receiving multiple donor blood transfusions under Aza (2 mg/kg/day) cover demonstrated lesser prolongation (22.8 days). Recipients receiving the multiple nonspecific blood protocol under Aza cover showed similar prolongation (38.6 days). Recipients treated only with Aza did not show prolonged survival (9.3 days). These differences in survival were considered significant among the 9 transplant groups as determined by ANOVA (P less than 0.001). The majority of recipient groups showed relatively poor renal function over their life spans, independent of whether prolongation occurred. Yet, renal function in the NST or particularly the DST groups covered by pretransplant CsA, demonstrated the best renal function in our laboratory over many years of investigations using the BN----LEW combination. In conclusion, there was a dramatic synergistic beneficial effect of prior multiple DST or NST specific to CsA, as opposed to another immunopharmacologic agent, Aza.     

Induction of donor-specific unresponsiveness to rat cardiac allograft by donor leukocytes and cyclosporine

Many recent reports have emphasized the importance of donor antigens in the induction of allograft tolerance. This study examines the effect of pretransplant infusion of 10(8) donor leukocytes (DL) combined with peritransplant cyclosporine (CsA) on W/F cardiac allograft survival in Lewis rats. Peritransplant recipient treatment consisted of CsA 20 mg/kg given i.m. on days 0, +1, and +2 relative to heart transplantation. Lewis recipients, 5-8 per group, were pretreated with 10(8) DL with or without peritransplant CsA. A single DL transfusion on day -3 or day -7 prior to transplantation significantly prolonged the mean survival time (MST) of W/F hearts from 7.0 +/- 0.9 days in controls to 12.2 +/- 4.5 days and 12.4 +/- 1.0 days (P less than 0.01), respectively. Two DL infusions on days -7 and -3 or on days -14 and -7 prolonged the MST to 10.6 +/- 1.3 days (P less than 0.02) and 16.4 +/- 2.8 days (P less than 0.001), respectively. The administration of peritransplant CsA alone significantly prolonged W/F heart allograft survival to 43.1 +/- 2.7 days. When pretransplant DL transfusion on day -3 was combined with CsA treatment, 4/8 animals maintained their grafts indefinitely (greater than 100 days). Similarly, DL infusion on day -7 with peritransplant CsA led to indefinite graft survival in 3/5 animals. Administration of DL on days -7 and -3 combined with CsA resulted in indefinite graft survival (greater than 100 days) in 4/6 animals. Transfusion of DL on day -3 alone or in combination with peritransplant CsA, had no effect on a third-party (ACI) heart allograft survival prolongation compared with appropriate controls. To define the underlying mechanisms responsible for donor-specific unresponsiveness in this model, pooled sera and unseparated spleen cells were passively transferred from recipients of long-term cardiac allografts to syngeneic rats receiving donor-type (W/F) or third-party (ACI) cardiac allografts. Transfer of serum (1 ml on days 0, and 1, 0.5 ml on days +2, +3, and +4) from ungrafted recipients of DL on days -14 and -7 led to significant donor graft survival of 9.8 +/- 0.4 days (P less than 0.02) in unmodified hosts. Similarly, passive transfer of serum obtained at 20 and 100 days after transplantation significantly prolonged the MST of donor-type hearts in syngeneic untreated hosts to 11.3 +/- 0.8 and 10.0 +/- 1.1 days, respectively.(ABSTRACT TRUNCATED AT 400 WORDS)     

Enhancement of allograft survival by donor-specific transfusion one day prior to transplant. Importance of timing and specificity when DST is given with cyclosporine.

Donor-specific transfusion effects were studied in the ACI-to-Lewis rat heterotopic heart allograft model using cyclosporine immunosuppression. Low-dose CsA for 1 week plus a single fresh or stored DST given 1 day before allografting significantly prolonged graft survival over CsA therapy alone (median survival time 23.5 days vs. 10 days, P less than 0.01), but third-party transfusion did not (11.5 vs. 10 days, NS). When CsA was started at the time of DST and continued for 2 weeks, maximal graft enhancement was achieved after just one DST. DST/CsA was equally efficacious if given on any day before transplantation, provided CsA was started on the same day as the transfusion. However, pretransplant DST given without CsA shortened subsequent graft survival of day -1 DST/CsA treatment (14.5 days, n = 6, vs. 60 days for controls, n = 10; P less than 0.01). The addition of methylprednisolone to the DST/CsA protocol had no effect on graft survival (51 vs. 53 days, P = NS), but extending the period of postoperative CsA therapy for 4 weeks at reduced dose (2.5 mg/kg/day) significantly prolonged median survival (111 days, n = 11) and resulted in 45% permanent engraftment (greater than 120 days survival). CsA permits graft enhancement with a single DST as early as 1 day before grafting. This avoids the risk of sensitization from DSTs and can extend DST use to cadaveric graft recipients.     

Effects of pre- and postengraftment donor-specific transfusions and cyclosporine on the enhancement of experimental allograft survival.

The tolerogenic effects of immediate pretransplant donor-specific transfusion (DST) with cyclosporine (CsA) have been well described. The purpose of this study was to determine if these effects could be improved upon by the administration of post-transplant DSTs. When added to a 29-day course of CsA, a single DST given 24 hr pretransplant improved graft survival compared to CsA alone (84.9 +/- 12.3 vs 40.0 +/- 8.8 days; P less than 0.05). The administration of an additional DST on post-transplant Days 7, 14, and 21 further improved this survival to 152 +/- 28 days, with 45% of grafts surviving greater than 200 days, until sacrifice. The donor specificity of this effect was demonstrated by the increased survival of second ACI grafts transplanted into Lewis recipients with existing "tolerant" ACI allografts (long-term survivors, or LTS); third-party Buffalo rat hearts transplanted into LTS rats in a similar manner were rejected normally. Loss of graft antigenicity was not seen, as retransplanted ACI hearts obtained from LTS Lewis rats were rejected in a first-order manner. From this we conclude that (1) the addition of multiple post-transplant DSTs improve the enhancement seen with preoperative DST and CsA, (2) loss of graft antigenicity does not contribute to this improved enhancement, and (3) this effect appears to be donor antigen specific.     

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 a novel immunosuppressant, FTY720, on allograft survival after renal transplant in rats

FTY720 was developed by chemical modification of ISP-1 which was purified from culture filtrates of an ascomycete, Isaria sinclairii. We evaluated the effect of FTY720 on allograft survival using a rat renal transplantation model in which Wistar King Aptekman Hokkaido rats (WKAH, RT1(K)) served as the organ donor and Lewis rats (LEW, RT1(l)) as the recipient. WKAH renal allografts were acutely rejected by the untreated LEW recipients at a mean graft survival +/- SD of 7.2 +/- 0.4 days (n = 5). Consecutive oral administration of FTY720 following transplantation significantly prolonged allograft survival in a dose-dependent manner over the range of 0. 05-3 mg/kg/day. The mean allograft survival of the recipients treated with FTY720 at a doses of 0.05, 0.1, 0.5, 1, and 3 mg/kg/day was 12.2 +/- 3.3 (n = 5, p < 0.05, vs. untreated host), 11.2 +/- 2.4 (n = 5, p < 0.05, vs. untreated host), 13.6 +/- 0.9 (n = 5, p < 0.01, vs. untreated host), 14.6 +/- 1.7 (n = 5, p < 0.01, vs. untreated host) and 20.2 +/- 0.8 days (n = 5, p < 0.01, vs. untreated host). In the recipients treated with FTY720 (3 mg/kg/day), the number of peripheral blood lymphocytes significantly decreased. From the results of the flow cytometric study, FTY720 significantly diminished the percentage of interleukin-2 receptor (IL-2R)-positive cells in the allografts (6.34 +/- 0.81% in the untreated recipients vs. 3.10 +/- 0.86% in the recipients treated with FTY720, p < 0.05). As to the CD4/CD8 ratio of splenic cells and graft infiltrate, there was no significant difference between the untreated hosts and the recipients treated with FTY720. In conclusion, FTY720 significantly extended rat renal allograft survival and the immunosuppressive effects of FTY720 may be due to a reduction in not only the number of peripheral lymphocytes but also the percentage of IL-2R-positive cells in the allografts.     

Elimination of acute GVHD and prolongation of rat pancreas allograft survival with DST cyclosporine, and spleen transplantation

Allogeneic spleen transplantation has been shown to have a tolerizing effect on pancreas allograft survival in rats. In this study we examined the effect of blood transfusions and cyclosporine administration on both rat pancreas allograft survival and acute graft-versus-host disease in BN recipients of Lewis pancreas-spleen allografts. We found that in this strain combination significant pancreas allograft prolongation occurred when the spleen was included en bloc with the pancreas graft. However, 50% of these recipients developed GVHD and died. A single donor-specific transfusion delivered to BN recipients of Lewis pancreas and pancreas-spleen allografts did not extend graft survival, but precluded the development of GVHD. A short, 6-day, and long, 26-day, course of CsA to recipients of pancreas and pancreas-spleen allografts extended graft and animal survival times, although not indefinitely. All pancreas-spleen recipients of both CsA protocols died following acute GVHD. Combined DST and CsA (short and long-course) administration in pancreas-only allograft recipients was deleterious to graft survival, compared with CsA administration alone. However, in pancreas-spleen recipients, combined DST and CsA had an additive effect. Moreover, in DST and long-course CsA-treated pancreas-spleen recipients, indefinite graft survival occurred with no signs of acute GVHD. The beneficial effect of the spleen allograft on pancreas graft survival was not dependent upon GVHD, since splenic-induced prolongation of pancreas graft survival was observed in the F1-donor to parent-recipient combination.     

Cyclosporine and skin allografts for the treatment of thermal injury. I. Extensive graft survival with low-level long-term administration and prolongation in a rat burn model

The hypothesis tested in the present and accompanying study is that an effective treatment for severe burns involves early excision of necrotic tissue followed by skin allografting and cyclosporine (CsA) immunosuppressive therapy. LEW (RT1) rats served as recipients of thermal injury and/or skin allografts. BN x LEW F1 (LBN, RT1(l+n)) rats served as skin donors. LEW burn recipients received a hot water (90 degrees C for 10 sec) 30% body surface area (BSA) full-thickness burn. As expected, LEW recipients treated with CsA (25 mg/kg/day for 20 days) demonstrated significant graft prolongation compared with controls (P less than 0.005). Skin graft survival was similarly prolonged in LEW recipients undergoing burn injury, primary wound excision, and CsA administration compared with burn-skin allograft controls (P less than 0.001). Mortality was not increased in the thermal injury-CsA-treated recipients compared with burn controls. A final experiment was initiated to investigate how low-level long-term (greater than 100 days) maintenance CsA treatment influenced skin allograft survival for possible future consideration in burn trauma. Recipients receiving skin allografts plus CsA (20 days, 8mg/kg/day, followed by every other day thereafter) did not reject their grafts. However, a possible early sign of rejection (a single small ulcerative lesion) was noted in five of these long-term CsA-treated animals at a mean of 34 +/- 11 (SD) days. The lesion in these animals did not progress any further during CsA administration. Histopathologic study of selected animals removed from the CsA maintenance regimen for greater than 50 days following long-term administration revealed a number of interesting chronic lesions similar to those previously reported in the skin component of composite tissue (limb) allografts following long-term low-level CsA intervention. In conclusion, CsA was very successful in preventing rejection of skin allografts in a rat burn model without apparent adverse effects.     

In vivo and in vitro mechanisms of cardiac allograft acceptance in the rat after short treatment with 15-deoxyspergualin

15-Deoxyspergualin (DSG) has been reported to be a useful immunosuppressive agent already used to inhibit acute rejection in clinical transplantation. In the present study, the survival of heart allograft in rats after a short course of DSG treatment and the mechanisms underlying DSG-induced heart allograft acceptance were studied. Male LEW rats were used as recipients. Male ACI and Wistar rats were used as donors and third-party donors, respectively. Survival of ACI heart grafts in LEW recipients treated with a short course of DSG starting on day 4 after grafting was markedly prolonged, with a mean survival time of 16.6±5.8 days and 29.8±3.0 days at doses of 2.5 mg/kg per day and 5 mg/kg per day, respectively. On day 20 after grafting, the mechanism of inducing allograft survival after DSG treatment at a dose of 5 mg/kg per day was analyzed by testing the activation of spleen cells or serum in several assay systems. Spleen cells from DSG-treated rats with surviving heart allografts showed almost no proliferative response against donor strain stimulator cells compared with controls. The cytotoxic activity towards donor strain target cells of spleen cells from DSG-treated rats with surviving heart allografts was lower than that of spleen cells from rats with rejected heart allografts. Adding various concentrations of spleen cells or serum from DSG-treated LEW rats with surviving ACI heart allografts to the mixed lymphocyte reaction when responder cells from normal LEW rats were exposed to irradiated ACI or Wistar (third-party) stimulator cells, revealed strong suppression in a cell-dose-dependent manner and a serum-dose-dependent manner. Moreover, transfer of 2.0x10⁸ spleen cells or 2 ml serum from DSG-treated LEW rats with surviving ACI heart allografts to irradiated grafted host did not prolong the survival either of ACI heart grafts or of thirdparty Wistar heart grafts. These results suggest that proliferative response and cytotoxic activity are decreased and suppressor cells and suppressor humoral factor(s) are induced by treatment with DSG in rats with surviving allografts.Abbreviotions DSG 15-Deoxyspergualin - MLR mixed lymphocyte reaction - CML cell-mediated lympholysis     

A comparison between pancreas and heart allotransplantation after administration of donor-specific antigen and cyclosporine

These experiments compared the effect of a five-day course (days - 1 to +3) of cyclosporine therapy coupled with pretransplant (day - 1) administration of donor-specific antigen (whole blood or splenocytes) on either pancreatic or heart allograft survival in the Buffalo to Lewis rat donor-recipient combination. CsA therapy alone significantly (P less than 0.001) prolonged both heart (16.2 +/- 1.6 days) and pancreas (12.5 +/- 1.5 days) graft survival when compared with nonimmunosuppressed control heart and pancreas grafts (7.7 +/- 1.8 and 7.9 +/- 1.0 days, respectively). Pretransplant transfusion with either 2 ml of BUF whole blood or 2 x 10(8) red cell-free splenocytes on day -1 also resulted in a significant (P less than 0.001) prolongation of heart survival (14.0 +/- 1.2 and 14.0 +/- 1.6 days, respectively) but did not improve pancreas allograft survival (9.4 +/- 1.5 and 8.5 +/- 1.0 days, respectively). Combination CsA and antigen therapy further improved heart graft survival to 26.5 +/- 6.1 days (whole blood) and 28.8 +/- 5.8 days (splenocytes) but did not improve pancreas graft survival over that of CsA therapy alone. Extension of CsA therapy by adding two additional 3-day cycles on days 10-12 and 17-19 further improved heart graft survival both after CsA alone (35.2 +/- 3.2 days) and after CsA coupled with whole-blood transfusion (45.3 +/- 8.6 days), but did not have a salutary effect on pancreas allograft survival. Portal vein administration of donor antigen was equally effective as systemic inoculation in prolonging heart graft survival when the splenocytes were given alone (11.6 +/- 1.7 days). Conversely, pancreas allograft survival was not beneficially effected by portal antigen administration whether or not CsA was given. These data demonstrate the ability of pretransplant donor-specific antigen administration and short-term CsA therapy to significantly prolong rat heart allograft survival across a strong MHC histocompatibility barrier-but, surprisingly, they also demonstrate the failure of this regimen to have a salutary effect on pancreas allograft survival.     

Evidence that therapeutic strategies targeted at CD4+ cells modulate accelerated rejection of cardiac allografts in sensitized rats by different mechanisms.

(LEW x BN)F1 cardiac allografts are rejected within 36 hr in LEW rats presensitized with BN skin grafts 7 days earlier (acute rejection occurs within 8 days). We have previously described the effects of individual CD4 (BWH-4), CD25 (IL-2R, ART-18) mAbs, and CsA therapeutic regimens upon cardiac allograft survival in sensitized hosts. The present studies were designed to probe an adjunctive use of ART-18 or CsA upon BWH-4-mediated suppression of accelerated graft injury. Sequential therapy with BWH-4 and ART-18 in the sensitization phase (days -7 to -1) and effector phase (from day 0, the day of cardiac transplant), respectively, prolonged graft survival additively to c. 22 days. Treatment with BWH-4 markedly diminished host humoral response against ART-18 preparation. BWH-4 given in concert with subtherapeutic dose of CsA produced graft survival comparable to that induced by mAb alone (c. 13 days) with concomitant decreased host anti-BWH-4 response. None of the combined regimens affected the frequency of circulating CD4+ cells, as compared with that exerted by BWH-4 monotherapy. Thus this study defines principles and some mechanistic aspects of optimal immunosuppressive strategies potentiating the effects of CD4-targeted therapy.     

Humoral presensitization in rat heart allotransplantation

In these experiments an attempt was made to create a rat model of the past-positive, current-negative lymphocyte crossmatch (PPCNCx) phenomenon currently of concern in clinical renal transplantation. Lewis rats were sensitized with three to four serial ACI heart fragment (HF) or skin grafts. Subsequent ACI heart graft survival in the presence of high titer LEW-anti-ACI antibody was markedly shortened with 4 of 10 surviving for 24 hr or less in HF-sensitized rats and 11 of 11 surviving less than 24 hr following skin graft sensitization. Thirteen sensitized LEW rats were transplanted with ACI hearts 18 months later when their anti-ACI antibody was nil. Control rats (N = 5) had graft survival of 4.4 +/- 0.6 days; cyclosporine (CsA) therapy prolonged this to 8.0 +/- 3.6 days (N = 4), while combined cyclosporine and cyclophosphamide (Cy) resulted in an MST of 4.3 +/- 0.4 (N = 3). LEW-anti-ACI antibody was present on Day 3 or 4 in the control rats but was absent at the time of rejection in the CsA-Cy treated rats. Adoptive transfer of splenocytes from sensitized LEW rats into naive LEW hosts produced animals with humoral immune memory but no anti-ACI antibody at the time of transplantation. Nonimmunosuppressed adoptively transferred LEW recipients of ACI hearts rejected their grafts in an accelerated fashion (MST of 4.5 +/- 0.5 days) and displayed an anamnestic antibody production with first appearance on Day 3 or 4. Immunosuppression with CsA or Cy prolonged graft survival (greater than 30 days) in all cases and Cy prevented an anamnestic humoral response.(ABSTRACT TRUNCATED AT 250 WORDS)     

Posttransplant infusion of donor-specific blood induces immunological unresponsiveness in rat hepatic allografts

BACKGROUND: We previously reported that pretransplant donor-specific blood transfusion (DST) induces CD45RC-CD4+ T cells, Th2-like effector cells, and prolongs rat hepatic allograft survival. Our study investigated the effects of posttransplant DST on rat hepatic allograft survival. METHODS: Three days after transplantation, LEW (RT1(1)) recipient rats with ACI (RT1a) livers were injected i.v. with freshly heparinized donor-specific blood. The time kinetics of CD45RC-CD4+ and CD45RC+CD4+ T cell subsets in hepatic infiltrates were examined. RESULTS: Posttransplant DST significantly prolonged rat hepatic allograft survival. Interferon (IFN)-gamma, interleukin (IL)-12, and IL-18 mRNA levels in hepatic allografts of untreated recipients were significantly greater than in recipients treated with posttransplant DST. However, hepatic allografts of recipients treated with posttransplant DST showed significantly higher IL-4, IL-10, and transforming growth factor (TGF)-beta mRNA levels than untreated recipients. The ratio of CD45RC-CD4+ T cells to CD45RC+CD4+ T cells was significantly higher in hepatic allografts treated with posttransplant DST than in untreated animals. Immunostaining with anti-rat dendritic cell (OX-62) monoclonal antibody revealed that OX-62+ cells were distributed to the splenic red pulp of animals treated with posttransplant DST and to the splenic white pulp in untreated animals. Most OX62+ cells isolated from the spleen of recipients treated with posttransplant DST expressed donor RT1Ba class II major histocompatibility complex antigens, suggesting that OX-62+ cells were of donor origin. CONCLUSION: Posttransplant DST was associated with persistent infiltration of CD45RC-CD4+ T cells, Th2-like effector cells, in rat hepatic allografts, causing immunologic unresponsiveness and establishment of microchimerism in the spleen.     

Immunological treatment with low dosage ciclosporin in rat liver allotransplantation

Ciclosporin (CsA) was administered subcutaneously at a dose of 3 mg/kg body weight/day from the day of operation to 14 days of liver allotransplantation in ACI rat (RT1a) to LEW rat (RT1(l) strain combination. All LEW recipients of ACI liver transplants without immunosuppressive treatment had severe rejection and expired within 12 days. In contrast, 7 out of 9 recipients in the same strain combination with temporary CsA treatment survived indefinitely. Histologically, widespread cellular infiltration and massive hepatocyte necrosis were evident upon autopsy of the recipients without CsA treatment. In contrast, in the surviving rats of the CsA-treated group, mononuclear cell infiltration was restricted to the periportal field and hepatocytes appeared to be normal at 14 days posttransplant. CsA concentrations in whole blood were determined by high-performance liquid chromatography. The trough levels were 788 +/- 48, 621 +/- 76 and 546 +/- 52 ng/ml, at 5, 10 and 14 days posttransplant, respectively. We concluded that this relatively low-dose subcutaneous administration of CsA offered adequate immunosuppression in rat liver allotransplantation in this strain combination.     

Beneficial effect of thalidomide and ciclosporin combination in heterotopic cardiac transplantation in rats

The effect of thalidomide on the prevention of early rejection was studied in heterotopic cardiac transplants between ACI (donors) and Lewis (recipients) rats, in combination with subtherapeutic doses of ciclosporin. Although allografts treated solely with thalidomide (5 mg/kg/day intraperitoneally) survived longer than controls (9.4 +/- 2.7 and 6.3 +/- 0.6 days, respectively, p less than 0.001), the survival rates of animals treated with low dose ciclosporin (1.25 mg/kg/day intraperitoneally) plus thalidomide (1.25, 2.5 and 5 mg/kg/day) were significantly better at 21 days (70, 88.9 and 88.9%, respectively), compared to 55.6% in those treated with ciclosporin (1.25 mg/kg/day) alone. Graft survival rates at 90 days were not significantly different in the thalidomide-ciclosporin combination groups (60, 77.8 and 55.6%, respectively) compared to the ciclosporin group alone (55.6%). We conclude that thalidomide is effective in preventing early rejection of rat cardiac allograft when combined with subtherapeutic doses of ciclosporin, thus avoiding the dose-dependent side effects of ciclosporin in the early posttransplant period.