Indefinite survival of rat parathyroid allografts without postoperative immunosuppression

Methods that avoid long-term immunosuppression must be developed for human parathyroid allotransplantation to be feasible. Pretransplant treatment of the graft to eliminate passenger cells is one such method. An alternative approach is short-term treatment of the recipients with cyclosporine (CsA). In this study, parathyroid glands from Lewis X Brown Norway rats were cultured for 1 week and treated with antiserum directed against class II major histocompatibility complex antigens. Treated glands were transplanted into hypocalcemic Wistar-Furth recipients that previously received 30 mg/kg of CsA once a day for 3 days before transplantation. At 280 days after transplantation, 67% of the recipients had functional parathyroid allografts. Control rats (no CsA; fresh, untreated glands) rejected these grafts within 28 days. Control rats given 3 days of CsA and transplanted with fresh, untreated glands had functional grafts for greater than 56 days (median survival, 80.5 days). Prolongation of allograft survival with short-term, preoperative CsA demonstrates the efficacy of immunosuppression given at the time of antigen presentation. This course of CsA is even more effective when the recipient receives a graft whose passenger cells are eliminated.     

Effect of in vitro culture and cyclosporine A treatment on adrenal medulla allograft survival

Adrenal medullary tissue from Wistar-Furth rats was transplanted beneath the renal capsule of Lewis rats to determine the effect of in vitro culture of the donor graft and temporary recipient immunosuppression with Cyclosporine A (CsA) on allograft survival. The adrenal medulla was transplanted immediately after dissection or after 1 week of culture, either at 24 degrees C or in the presence of 95% O2 at 37 degrees C. The results showed that neither cultural pretreatments affect the survival of the isografts as indicated by morphologic integrity of the grafts 30 days after transplantation. In the absence of in vitro culture of the donor medulla and short-term CsA recipient treatment, all the allografts were completely rejected at 30 days. Cultural pretreatment of the grafts either at 24 degrees C or in the presence of 95% O2, in conjunction with temporary CsA treatment of the recipient, or CsA treatment alone produced histologic survival of the grafts 30 days after transplantation. Varying degrees of lymphocytic infiltration were present in the grafts. When adrenal cortex was transplanted in conjunction with medullary tissue a bimodal immune reaction was observed; medullary tissue was infiltrated by lymphocytes, while the adrenal cortex remained morphologically intact with no infiltration at all. The experiments performed did not show a benefit in prolonging medulla allograft survival using pretransplant culture of the tissue.     

Tolerance of T-independent xeno-antibody responses in the hamster-to-rat xenotransplantation model is species-restricted but not tissue-specific

Control of early acute xenograft rejection xenoreactions in the hamster-to-Lewis rat xenotransplantation model with cyclosporine (CsA) and leflunomide subdues early T-independent xenoreactivity and uncovers a late immune response that can be controlled by CsA alone. We had attributed this acquired responsiveness to CsA to the induction of tolerance of T-independent xeno-antibody responses in the recipient and recently reported that this tolerance is species-specific. Here we have further characterized the specificity and nature of this tolerant state. Lewis rats transplanted with either hearts, skin, kidney or spleen/pancreas from Golden Syrian hamsters were treated with leflunomide (5 mg/kg/day by gavage) for 14-21 days and CsA (20 mg/kg/day by gavage) continuously from the day of transplant. Some Lewis rats received a second graft of hearts or skin from Golden Syrian hamsters (day 21-30 after first transplant), and a third heart graft from Balb/c mice (day 60 after the first transplant). Serum was harvested and the titers of xenoreactive antibodies were quantified by flow cytometry. All grafts were harvested at the end of each experiment and examined by histological and immunohistochemical methods. The combination of CsA and leflunomide was able to completely inhibit the rejection of kidney, spleen and pancreas xenografts in this hamster-to-rat xenotransplantation model. In addition, only a transient treatment with leflunomide was necessary, and long-term graft survival could subsequently be maintained by CsA alone. Histological examination of these grafts at > 80 days post-transplantation indicated minimal signs of rejection. These immediately vascularized organs induced T-independent B-cell tolerance, so that second grafts of hamster hearts and skin could be maintained with CsA alone. Under the same immunosuppressive regimen, only four out of nine Lewis rats exhibited long-term hamster skin survival, probably reflecting the increased immunogenicity of the skin compared with other vascularized grafts. Nonetheless, all rats that did not reject the hamster skin graft also did not reject the hamster heart while on CsA alone. Finally, we demonstrate that the tolerant state could be maintained for up to 30 days in the absence of xenograft. The vigorous T-independent antibody response that mediates acute xenograft rejection in the hamster-to-rat model can be tolerized by the immunosuppressive regimen of CsA and leflunomide. The lack of organ specificity for the induction of this tolerance suggests that the xenoantigens inducing tolerance may be common endothelial cell antigens. Finally, the presence of the xenograft has been previously shown to be critical for the induction of T-independent B-cell tolerance, however, the tolerant state is relatively stable and persists after the removal of the xenograft.     

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)     

The effect of donor-specific transfusion and cyclosporin A on small bowel transplantation in the rat

Pre-transplant blood transfusions are given as a means of desensitization to reduce the required dose of cyclosporin A (CsA). In this study, the effect of pretransplant blood transfusion on host survival and T-cell function against alloantigen were investigated. Male Lewis rats (RT1¹) were used as the recipients in all experiments, and male DA rats (RT1^a) were used as the blood and small bowel donors, and as a source of allogeneic stimulator cells. Male BUF rats (RT1^b) were used as donors of third party blood, and of allo-stimulator cells in a delayed-type hypersensitivity (DTH) response. In our experimental design, Lewis rats were divided into the following groups according to the type of administration: (1) a donor-specific blood transfusion (DST) 8 days preoperatively and a concurrent 5-day course of CsA at 10 mg/kg per day; (2) a nonspecific third party blood transfusion (NST) and CsA at 10 mg/kg per day from day 8 to day 4 preoperatively; (3) CsA alone from day 8 to day 4 preoperatively; (4) DST alone 8 days preoperatively; or (5) no treatment, being the control group. Postoperative treatment consisted of CsA at 2.5 mg/kg per day for 30 days. Rats conditioned with NST plus CsA, CsA alone, DST alone, and the untreated control rats survived for 7.2 ±1.2, 9.0 ± 2.2, 6.8 ± 0.4, and 7.4 ± 1.6 days, respectively. In contrast, the five rats conditioned with DST plus CsA survived for 100 days or more. This study demonstrates that long-term survival of a small bowel allograft can be achieved by host-conditioning with a combined treatment of DST and low-dose CsA.This paper was presented at the 10th Congress of the Asian Association of Pediatric Surgeons held in Seoul, Korea from March 26–29, 1990, and at the 90th Annual Meeting of the Japanese Surgical Society held in Sapporo, Japan in 1990.     

Role of immunosuppression in recurrence after liver transplantation for diethylnitrosamine-induced tumors in rats

Abstract Hepatocellular carcinoma is one of the world's most common malienant diseases, with an increasing incidence related to liver cirrhosis. The purpose of the study was to evaluate the role of immunosuppression in recurrence in rats transplanted after liver tumor induction by diethylnitrosamine (DENA), which has proved to be a reliable carcinogen. In 14-week-old Lewis rats weighing 200 g, tumors were induced by the oral administration (5 mg/100 ml in drinking water ad libitum) of DENA for 13 weeks. Orthotopic liver transplantation (OLT) was performed after 4 weeks' latency. In the Lewis/Lewis rats weighing 200 g, tumors sporin A (CsA) treatment, median survival was 199-days with no recurrence or metastasis. In the BN/Lewis group with no CsA (5 ats) median survival was 144 days. All rats died due to rejection. In the other BN/Lewis group (10 rats), OLT was followed by CsA administration (7.5 mg/kg). Median survival was 161 days. In three rats (218 days), there was liver tumor recurrence; in two rats (137.5 days), kidney and lung metastases were found. The remaining rats died of septic complications. In the Lewis/Lewis + CsA group (10 rats), median survival was 131 days with 5 recurrencies and/or metastases. Two rats are still surviving at 84 and 88 days. Our results suggest that the DENA model is reliable; it proved to have a similar carcinologic pattern to HCC in man. Moreover, immunosuppression seems to play an important role in determining recurrence. Further studies are needed to investigate the efficacy of chemotherapy agents pre- and post-transplantation.     

Aorta transplantation as a model to study hyperacute, acute, and chronic rejection of xenografts

Abstract: To explore the mechanism of rejection of vascularized xenografts, we performed discordant and concordant transplantation of aortic grafts. Forty-one guinea pig-to-rat and 50 hamster-to-rat aortic transplantations were performed successfully. Recipient rats were either untreated or treated three times per week with 10 mg/kg of cyclosporine (CsA) starting the day before transplantation. Recipients were sacrificed at various timepoints after transplantation and the grafts were processed for histology and immunohistochemistry. Guinea pig aortic grafts were rejected hyperacutely in both the control and CsA treated group. Four hours after transplantation all endothelial cells and some of the medial smooth muscle cells had disappeared. Seven days after transplantation the media were totally acellular, whereas the adventitia was enlarged due to infiltrating cells, consisting mainly of macrophages. At day 56, only traces of the original graft could be identified.
Hamster aortic grafts developed signs of chronic rejection. In control rats, the intimal lesions could already be demonstrated in 17% of the rats at day 14, and in all rats from day 28. CsA treatment inhibited the development of the intimal lesions. At days 56 and 84 the difference in intimal thickness between the control group and the CsA treated group was statistically significant. The cellularity of the media of the hamster grafts remained constant during the first 21 days in both groups but declined sharply thereafter as a consequence of migration or necrosis of myocytes. The thickness of the adventitia in both groups increased after transplantation, due to infiltrating macrophages and T cells, reaching a peak at day 14. In conclusion, the aorta transplantation model provides useful information with regard to the development of chronic rejection in concordant grafts. Discordant aortic grafts are rejected hyperacutely just like discordant heart grafts.     

The mechanism of synergistic interaction between anti-interleukin 2 receptor monoclonal antibody and cyclosporine therapy in rat recipients of organ allografts

Untreated anephric LEW rats die ca. 9 days following transplantation of LBNF1 kidney allografts. Although treatment with ART-18, a mouse antirat IL-2R mAb (300 micrograms/kg/day x 10 days), prolonged graft survival to ca. 3 weeks, the severely impaired renal function was comparable to untreated controls (creatinine levels 3-5 mg/dl). In contrast, simultaneous infusion of ART-18 and a very low dose of CsA (0.75 mg/kg x 10 days), marginally effective on its own, resulted in survival of greater than 45 days; the grafts exhibited relatively good function comparable to that in rats treated with full-dose (15 mg/kg/day) CsA. This beneficial biological effect did not depend upon elevated CsA trough levels in animals conditioned with both modalities. The CD4:CD8 ratio at the graft site was lowest (0.3-0.4) in recipients treated with ART-18 + CsA. Synergy between the two agents has been demonstrated by adoptive transfer studies in which nonspecific suppression has been conferred selectively by cells infiltrating kidney grafts in rats given ART-18 and CsA in concert but not separately (LBNF1 and WF test cardiac allograft survival ca. 12 days). In contrast, suppression in the recipient spleens was donor-specific; both CD4 and CD8 cells prolonged test graft survival. Immunohistological evaluation of renal allografts revealed that therapy with ART-18 or low-dose CsA alone failed to deplete IL-2R+ cells and prevent production of IL-2, IFN-g, and TNF. In contrast, the frequency of infiltrating IL-2R+ cells and elaboration of endogenous cytokines in non-uremic hosts receiving combination therapy was greatly depressed, stressing again synergistic interaction between ART-18 and CsA. Additionally, markedly reduced class II antigen induction, XL-fibrin deposition, and glomerulitis may also contribute to prolonged survival and satisfactory function of kidney allografts in this animal group.     

Induction of donor-specific tolerance in rat hind-limb allografts under antilymphocyte serum and cyclosporine A protocol

Composite tissue allograft (CTA) transplantation became a clinical reality despite major side effects associated with the administration of chronic immunosuppression. Development of new treatment modalities eliminating life-long immunosuppression is essential for the future of CTA transplantation. In this study, combined use of cyclosporine A (CsA) and antilymphocyte serum (ALS) was tested for the potential to induce tolerance in the rat hind-limb allograft recipients across a major histocompatibility (MHC) barrier (Lewis-Brown-Norway [LBN, RT1(l+n)] to Lewis [LEW, RT1(l)] rats). Thirty transplantations were performed in 5 experimental groups. Animals received CsA and ALS 12 hours before surgery for 21 days thereafter. Although the allograft controls rejected their limbs at day 7 combined treatment of CsA and ALS resulted in indefinite survival (over 420 d) in all allograft recipients. Long-term survivors showed 35% to 42% of donor-specific chimerism in the peripheral blood. Clinical tolerance was confirmed by acceptance of the donor-specific skin grafts and immunocompetence was confirmed by rejection of the third-party grafts. Mixed lymphocyte reaction revealed suppressed response against donor-type antigens and increased response to third-party antigens. Donor-specific tolerance across MHC barrier was induced in CTA allografts under 21 days protocol of ALS/CsA.     

Effects of Cerivastatin on Vascularized Allogenic Bone Transplantation in Rats Treated with Cyclosporine A

The aim of the present study was to investigate the effects of oral cerivastatin (0.1 mg/kg/day) on vascularized allogenic transplanted bone that is treated with cyclosporine A (CsA) (10 mg/kg/day) and on vascularized isogenic transplanted bone that is not treated with CsA. Allogenic transplantation was performed on 12-week-old male DA rats with the major histocompatibility antigen (MHC) RT1a (as the donor) and age-matched male Lewis rats with MHC RT1l (as the recipient), and isogenic transplantation was performed on 12-week-old male Lewis rats. After transplantations, 20 rats (10 rats in each transplantation) were randomized into four groups to receive the following treatment for 16 weeks: (1) CsA plus cerivastatin vehicle or (2) CsA plus cerivastatin in the allogenic transplanted rats, and (3) CsA vehicle plus cerivastatin vehicle or (4) CsA vehicle plus cerivastatin in the isogenic transplanted rats. Bone biochemical markers, mineral density, and strength were measured at the end of the study period. Serum levels of osteocalcin (OC) and parathyroid hormone (PTH) and urinary deoxypyridinoline (DPD) level were higher in the allogenic transplanted rats than in the isogenic transplanted rats. In the allogenic transplanted rats, the cerivastatin treatment decreased urinary DPD levels, but not serum OC nor PTH levels. Furthermore, the cerivastatin treatment improved bone mineral density of the allogenic transplanted bones and bone strength of the allogenic reconstructed bones. In contrast, no effect of the cerivastatin treatment was observed in the isogenic transplanted rats. These results suggest that the cerivastatin treatment improves CsA-induced high-turnover osteopenia mainly through the inhibition of bone resorption.     

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.     

Cyclosporine mitigates graft coronary artery disease in murine cardiac allografts: description and validation of a novel fully allogeneic model.

BACKGROUND: The effect of cyclosporine (CsA) on the development of graft coronary artery disease (GCAD) is controversial. We developed a novel allogeneic mouse model of heart transplantation and investigated the effect of CsA on acute rejection and GCAD. METHODS: Hearts of FVB mice (H-2(q)) were heterotopically transplanted into 60 C57BL/6 mice (H-2(b)). CsA was administered to recipients at 10, 20 or 30 mg/kg/day for 10 or 30 days after transplantation. Untreated recipients as well as isograft recipients served as controls. Viability of the grafts was assessed daily by palpation. Parenchymal rejection was scored in grafts surviving 30 days in the 30-day treatment groups. GCAD was evaluated by the percentage of luminal narrowing, intima/media ratio and percentage of diseased vessels. Blood CsA and creatinine levels were also evaluated. Results were evaluated statistically. RESULTS: All groups except the untreated control group and the allograft groups treated with 10 or 20 mg for 10 days showed significant graft survival (>/=33% survival for 30 days). An inverse correlation was observed between CsA treatment dose, parenchymal rejection score and degree of GCAD in the 30-day treatment groups. However, graft survival in the 20-mg/kg/day group was significantly better than that in the 30-mg/kg/day group. Serum creatine levels showed no nephrotoxicity. CONCLUSIONS: Relatively high-dose CsA mitigated parenchymal rejection and GCAD of the mouse cardiac allografts. In addition, a valuable mouse model mimicking the clinical course of GCAD was achieved with CsA treatment of 20 mg/kg/day for 30 days.     

Conversion from cyclosporine A to mycophenolate mofetil protects recipient kidney and prevents intimal hyperplasia in rat aortic allografts

BACKGROUND: Recent studies have demonstrated that complete conversion from cyclosporine A (CsA) to mycophenolate mofetil (MMF) prolongs graft survival in patients undergoing clinical organ transplantation. We investigated the effects of conversion from CsA to MMF on recipient kidneys and transplant arteriosclerosis in a rat aortic allograft model as a high responder combination. METHODS: DA (MHC haplotype, RT1a) rat abdominal aortic grafts were orthotopically transplanted into Lewis (RT1l) rats. The recipients were divided into four oral treatment groups: (1) vehicle group, (2) CsA group (15 mg/kg/day), (3) CsA/MMF40 group (conversion from CsA 15 mg/kg/day to MMF 40 mg/kg/day on day 14), and (4) CsA/MMF20 group (conversion from CsA 15 mg/kg/day to MMF 20 mg/kg/day on day 14). On day 28 after transplantation, the rats were sacrificed and the hematoserological parameters were analyzed. The grafted aortas and recipient kidneys also were evaluated histologically and immunohistochemically. RESULTS: The CsA group developed serological renal dysfunction, arteriolar hyalinosis, and apoptosis in the recipient kidneys, whereas the CsA/MMF40 and CsA/MMF20 groups did not. In the vehicle group, we observed remarkable intimal hyperplasia and marked inflammatory cell infiltration including macrophages and T cells. In the CsA group, intimal hyperplasia was evident without infiltration of macrophages or T cells. In the CsA/MMF40 and CsA/MMF20 groups, intimal hyperplasia was abrogated, while adventitial infiltration of and adhesion to the endothelium by macrophages and T cells occurred. CONCLUSIONS: Conversion from CsA to MMF protected recipient kidneys and prevented transplant arteriosclerosis. However, insufficient immunosuppression by MMF might reactivate immune cells. This conversion therapy has preventive potential in transplant patients with CsA-associated nephrotoxicity and transplant arteriosclerosis.     

T suppressor cells induced by transfusions and cyclosporine. Studies in the murine cardiac allograft model

Pregraft transfusion combined with immunosuppression at the time of grafting improves the survival of clinical and experimental allografts. The mechanisms responsible for this effect were investigated in the murine model of cardiac transplantation, combining transfusions 7 to 30 days prior to transplantation with cyclosporine 100 mg/kg, 7 to 20 days pregraft or on days 0, 4, and 6 after grafting. Pregraft DST, third-party blood, and CsA all improved graft survival in the BALB/c-to-CBA donor-recipient combination. In animals treated with DST at 14 days pregrafting, 4/9 grafts survived for greater than 100 days. In those given C57BL/6 blood, or CsA on days 0, 4, 6 postgraft, 1/9 grafts survived for greater than 100 days. When 10(7) spleen cells from DST-treated CBA mice with long-surviving BALB/c heart grafts were transferred to naive CBA mice that then received a BALB/c heart 24 hr later, the transferred cells prolonged graft survival, with all grafts functioning at greater than 40 days, and 4/7 at greater than 100 days. Selective removal of T cells from the spleen cell population prior to transfer showed that L3T4+ T cells, but not Ly-2+ T cells, were required to maintain BALB/c allografts. Combining a short course of CsA with DST was more effective than either treatment alone. The most effective combined treatment was DST at day -14 with 100 mg/kg CsA given on days 0, 4, and 6 postgrafting (8/10 grafts survived greater than 100 days). This treatment also induced splenic suppressor T cells of the L3T4+ Ly-2- phenotype. These results clearly show that L3T4+ splenic T suppressor cells are induced by donor-specific blood transfusion with or without CsA treatment, and that these cells play a role in maintaining long-term tolerance to allografts in the mouse heart transplant model.     

Immunosuppressive treatment of aortic allografts

Immunosuppression with cyclosporine (CsA) was explored as a means of preventing arterial allograft rejection and failure. Aortic allografts across the major histocompatibility barrier were studied in Brown-Norway and Lewis inbred rats. Grafts 1 cm long were interposed into the infra-abdominal aorta of Lewis recipients; five groups included two groups of untreated isograft and allograft control animals and three groups had allograft-CsA treatment regimens. The grafts were examined at 30, 60, and 100 days for patency, aneurysmal dilation, gross structural changes, inflammatory responses, and infiltration of W3/25- and OX8-positive lymphocytes. Only three allograft controls became occluded; the rest showed significant dilation (p less than 0.01), medial thinning and necrosis, intimal proliferation, and prominent cellular infiltration at 30 days. With all CsA regimens, aneurysmal dilation was significantly reduced or prevented (p less than 0.01), correlating with medial smooth muscle cell preservation. Cellular infiltration was delayed by an average daily dose of 5 to 10 mg/kg subcutaneous CsA for 30 days and was suppressed at 100 days by a continuous 5 mg/kg dose every 4 days. Intimal thickening in the graft was delayed but not prevented. We conclude that a low maintenance dose of CsA provides effective immunosuppression, thereby preventing aneurysm formation, and that the potential use of arterial allografts in vascular surgery may need to be readdressed.     

Piceatannol in combination with low doses of cyclosporine A prolongs kidney allograft survival in a stringent rat transplantation model

BACKGROUND: The discovery of new immunosuppressive agents has enhanced short-term graft survival. However, current immunosuppressants often induce toxicities that limit their clinical use. Thus, there is a need for new immunosuppressants for use in clinical transplantation. Piceatannol blocks Syk and ZAP-70, tyrosine kinases involved in immune cell activation. We examined whether piceatannol prolongs kidney allograft survival in the stringent ACI-to-Lewis rat model. METHODS: Kidney recipients were divided into four groups. Group 1 (n=8) received piceatannol 30 mg/kg per day intravenously and cyclosporine A (CsA) 2 mg/kg per day intramuscularly from day -3 to day 7 after transplantation. At day 8, piceatannol was reduced to 10 mg/kg per day and the combined treatment continued until day 60. Group 2 (n=9) received 2 mg/kg per day CsA alone from day -3 to day 60. Group 3 (n=4) received piceatannol alone as in group 1. Group 4 (n=2) received only the vehicle dimethyl sulfoxide from day -3 to day 60. Graft rejection was defined as either a serum creatinine level more than 2 mg/dL or animal death. RESULTS: Group 1 animals survived for at least 115 days (n=8, P<0.05), with several animals maintaining their grafts for more than 200 days. In contrast, 8 of 9 animals in group 2 rejected their grafts within 10 days of transplantation; one animal survived for 71 days. Excellent graft function was maintained in group 1 animals despite withdrawal of immunosuppression. CONCLUSIONS: These results are the first to show that piceatannol, when combined with subtherapeutic dosages of CsA, prevents graft rejection, suggesting that targeting Syk and Zap could be useful for preventing graft rejection.     

Treatment with a short course of LF 15-0195 and continuous cyclosporin A attenuates acute xenograft rejection in a rat-to-mouse cardiac transplantation model

Searching for a novel immunosuppressive agent to effectively prevent acute vascular rejection (AVR) is essential for success in clinical xenotransplantation. We previously reported that Lewis rat hearts transplanted into BALB/c mice developed typical AVR in 6 days. The present study was undertaken to determine the efficacy of LF 15-0195, a new immunosuppressive analog of 15-deoxyspergualin in the prevention of AVR in a rat-to-mouse cardiac xenograft model. We transplanted 2-week old Lewis rat hearts into BALB/c mice. Four groups were included in this study: untreated recipients and cyclosporin A (CsA) treated recipients were controls; LF 15-0195 treated recipients or LF 15-0195 combined with CsA treated recipients were experimental groups. Mouse recipients received either LF 15-0195 2 mg/kg subcutaneously from day-1 to post-operative day 14, or CsA 15 mg/kg subcutaneously daily, from day 0 to endpoint rejection, or the two drugs in combination. We observed that high dose CsA did not inhibit AVR and the graft was rejected in 11.3 +/- 1.9 days. Graft histology and immunohistology showed typical AVR, characterized by interstitial hemorrhage, intravascular fibrin deposition, thrombosis, and massive deposition of anti-rat immunoglobulin G (IgG) and immunoglobulin M (IgM). Serum xenoreactive antibodies (xAbs) were markedly elevated in these animals as well. In contrast, we observed that treatment with LF 15-0195 alone significantly prolonged graft survival to 19.3 +/- 0.7 days. Notably, xAbs were significantly decreased and the rejection pattern of these grafts was cell-mediated rejection (CMR), instead of AVR. When CsA was combined with LF 15-0195, the graft mean survival time was further increased to 58.5 +/- 17.3 days. Antibody production and T-cell infiltration were significantly inhibited at the terminal stages of graft survival and pathology showed striking attenuation of both AVR and CMR. Sequential studies on days 6 and 14 demonstrated that LF 15-0195 either alone or combined with CsA completely inhibited antibody production. However, intragraft infiltration by Mac-1 positive cells including natural killer cells, macrophages and granulocytes in LF 15-0195 treated recipients was similar to that of untreated recipients. We conclude that LF 15-0195 effectively prevented AVR by markedly inhibiting the production of anti-donor IgG xAbs. Also, treatment with short course LF 15-0195 and continuous CsA significantly reduced T-cell infiltration. Studies to test this therapy in inhibiting AVR in a pig-to-non-human primate xenotransplantation model are underway.     

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.