受体血清“封闭”供肝预防异种肝移植超急性排斥反应

目的 探讨受体血清“封闭”供肝对异种肝移植超急性排斥反应(hyperacute rejection,HAR)的预防作用.方法 取豚鼠和SD大鼠各20只,分别作为供体和受体,供受体随机配对;移植前采集受体大鼠近交系其他个体血清,45℃水浴灭活补体备用;实验组(n=10)术前用0.1％受体血清(recipient serum,RS)的Ringer液“封闭”供肝,对照组(n=10)仅用Ringer液灌洗供肝;采用改良“双套管法”行豚鼠、SD大鼠原位肝移植,观察供肝植入后形态学改变、受体存活时间、术后1h存活率,HE染色法检测移植肝微血栓、出血和肝细胞水肿等病理损害积分;检测血清丙氨酸转氨酶(ALT)评价肝功能.结果 两组大鼠供体异种肝移植时间和无肝期比较,差异无统计学意义(P＞0.05);对照组受体大鼠供肝充盈缓慢,灌注不均,实验组供肝充盈迅速,灌注较均匀;实验组受体大鼠术后存活时间和术后1h存活率较对照组均明显增加(P＜0.01),移植肝微血栓、间质出血(积分)较对照组明显减轻(P＜0.01),肝细胞水肿无明显差异(P＞0.05);血清丙氨酸转氨酶(ALT)较对照组明显下降(P＜0.05).结论 受体血清“封闭”供肝对异种肝移植HAR具有一定的抑制作用,是预防器官移植HAR的潜在方法之一.     

清除补体避免猪到猕猴异种心脏移植超急性排斥反应的实验研究

目的 观察纯化的眼镜蛇毒因子(CVF)对猪到狱猴异种心脏移植超急性排斥反应的影响。方法 以幼猪为供者，施行猪到狱猴腹腔内异位心脏移植，实验组(n＝4)使用CVF完全清除受者体内补体，对照组(n＝5)不使用CVF，两个组术后均采用环抱素A、甲泼尼龙和环磷酰胺抑制排斥反应，通过检测血清C3、C4水平及总补体活性验证CVF的效果，移植心停跳时切取移植心进行病理检查。结果 在使用CVF后，实验组血清C3降为0，总补体活性CH50值也几乎为0，末发现明显毒副反应，移植猪心存活时间平均为lld，最长达13d，病理学提示均发生了延迟性异种排斥反应；对照组3个移植心在移植后60min内发生超急性排斥反应，另2个分别存活22h及6d。结论 纯化的CVF有良好的清除补体的作用，且末见明显副作用；使用CVF可克服猪到狱猴异种心脏移植超急性排斥反应的发生。     

Evidence that 15-deoxyspergualin inhibits natural antibody production but fails to prevent hyperacute rejection in a discordant xenograft model.

Preventing hyperacute rejection (HAR) is a difficult and unsolved problem in xenotransplantation. This may be due, in part, to a lack of therapies that can suppress production of natural antibodies (NA), which are thought to be critical mediators of HAR. This study examined the effect of 15-deoxyspergualin (DSPG) and splenectomy (Spx) on NA production and return of NA after plasma exchange (PE) in a discordant species combination (strain 2 guinea pig to Lewis rat). A dose of 5 mg/kg/day DSPG + Spx significantly reduced Lewis rat anti-guinea pig NA titer after one week of therapy. Antibody titer was not significantly reduced in rats treated with splenectomy alone. PE alone acutely depleted NA titers; however, complete rebound was seen in 48 hr. When PE was performed in rats treated with DSPG + Spx, an additional significant NA reduction occurred; no rebound 24-48 hr after PE was seen. Except for a 20% reduction in body weight, no serious complications occurred in DSPG + Spx recipients. Despite a profound NA titer reduction, treatment with DSPG, Spx, and PE did not prolong guinea pig cardiac xenograft survival in a clinically significant fashion. Immunopathological study of rejected cardiac xenografts revealed no antibody deposition but persistent complement deposition on vascular endothelium. We conclude that DSPG + Spx effectively inhibits synthesis of rat anti-guinea pig NA, that further NA titer reduction can be achieved with the addition of PE, and that DSPG + Spx prevents post-PE antibody rebound. We also conclude that the limited prolongation in cardiac xenograft survival achieved, despite marked suppression of NA, supports a complement-mediated mechanism of HAR in our animal model.     

IgG, but not IgM, mediates hyperacute rejection in hepatic xenografting

We reported previously that no classical features of hyperacute rejection (HAR) could be found in liver grafts in the guinea-pig (GP)-to-rat model and that recipients died shortly after transplantation of non-immunologic causes. Thus, the GP-to-rat model is not suitable for studying the mechanisms of discordant liver xenograft rejection. In the hamster to rat model, long-term survival of a liver graft is possible, but extremely low levels of xenoreactive natural antibodies are present. To mimic a discordant situation with pre-formed IgM and IgG antibodies, we sensitized rats 1 or 5 weeks before grafting. Specific anti-hamster IgM antibodies were found in recipients sensitized at week –1 but not week –5. Anti-hamster IgG was present in all recipients, albeit considerably higher in animals sensitized 5 weeks before grafting. In these two models, we examined the mechanism of HAR of liver grafts and compared this with heart xenografts. Control heart and liver grafts were rejected 4 and 7 days after transplantation respectively. Liver grafts in recipients sensitized at week –5 showed venous congestion and bleeding after reperfusion, indicating HAR, however this was not observed after sensitization at week –1. This surprising finding was confirmed by histology. Massive extravasation, edema, and acute liver cell degradation were noticed in grafts subjected to HAR. Liver grafts of recipients sensitized at week –1 showed only minimal changes. Heart grafts were rejected hyperacutely in both sensitization models. IgG antibodies could be detected on liver grafts in the group sensitized at week –5 but not in the group sensitized at week –1. Minimal IgM depositions were found on liver grafts of animals sensitized 1 week before grafting. Rejected heart grafts from similar sensitization groups showed identical antibody depositions; only IgM depositions were massive. Complement depositions were found in all groups. These results indicate that IgG, but not IgM, mediates HAR in hepatic xenografting. Such a predominance of IgG over IgM does not exist for heart grafts.     

Acute vascular rejection is associated with systemic complement activation in a pig-to-primate kidney xenograft model

The introduction of h-DAF transgenic porcine organs into pre-clinical pig-to-primate discordant xenotransplantation has led to complete and reliable abrogation of hyperacute xenograft rejection (HAR). Despite additional heavy immunosuppression however, most xenografts are still lost due to acute vascular rejection (AVR), with current treatment protocols being of only limited value. In a life-supporting model of pig-to-primate kidney transplantation, unmodified (n=8) or h-DAF-transgenic (n=9) porcine kidneys were transplanted into cynomolgus monkeys under cyclophosphamide (CyP), cyclosporine and low-dose steroid immunosuppression. Longest recipient survival was 11 days in the control group and 68 days in the h-DAF transgenic group. Stable initial graft function with recipient survival >4 days was generated in eight animals (two controls and six transgenics). In these animals, plasma complement levels were analyzed during ongoing AVR. Compared with baseline levels, a two-fold increase in C3a levels and a four-fold increase in sC5b-9 levels were measured. In parallel to systemic complement activation, increased deposition of C3 and C5b-9 along with massive staining for recipient IgM immunoglobulins was detected in the xenografts on immunohistochemistry. We conclude that acute vascular xenograft rejection of porcine kidneys in cynomolgus monkeys is associated with classical pathway complement activation following binding of induced recipient anti-porcine antibodies. This complement activation can be observed despite membrane bound expression of human complement regulators in the porcine xenografts. Therefore, additional short-term fluid phase complement inhibition seems necessary for the future development of protocols designed for treatment of AVR in the pig-to-primate combination.     

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

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

蛇毒因子、全身照射、胸腺修饰预处理受者对异种小动物心脏移植的作用

目的　利用眼镜蛇蛇毒因子 (CVF)、全身照射 (WBI)、异基因胸腺修饰等途径预处理受者 ,探讨这些处理对非协调性异种心脏移植物存活期及免疫排斥反应的影响。方法　供者为三色豚鼠 ,受者为SD大鼠 ,随机配对分成空白组 (O组 ) ;单用CVF的对照组 (A组 ) ;CVF +全身照射组 (B组 ) ;CVF +全身照射 +胸腺注射组 (C组 )。各组分别行大鼠腹腔内异位异种心脏移植术。观察各组供心存活时间及排斥后的光镜及电镜表现。结果　 (1)存活时间 :B组、C组和A组均较O组明显延长 (P <0 .0 1) ;B组和C组又较A组明显延长 (P <0 .0 5 ) ;但C组与B组比较 ,差异无显著性 (P >0 .0 5 )。 (2 )病理表现 :O组呈超急性排斥反应 ,另三组均呈延迟性异种排斥改变。结论　在本模型中 ,使用CVF可克服超急性排斥反应 ,联用全身照射可进一步延长供心存活时间 ;但在此基础上加用异基因胸腺修饰对延长供心存活时间无显著意义。     

中华眼镜蛇蛇毒因子在豚鼠—大鼠异种心脏移植中的作用

目的 应用中眼镜蛇蛇毒因子（CVF）消耗补体,观察豚鼠心脏在移植入Wistar大鼠腹腔内后对超急性排斥反应的变化。方法 按0．2μg/g体重CVF大鼠腹腔内分两次间隔6小时注射,18小时后进行心脏移植。脾切除及腹腔内注射环磷酰胺（Cy）均在移植前一天进行。设计分为四组：A组为对照组,不用任何药物;B组仅用CVF;C组应用CVF＋Cy＋脾切除;D组Cy＋脾切除。Cy的用量为60mg/kg体重腹腔内注射。检测各组受体的供心存活时间,并在供心停跳后取出行光镜、电镜检查。结果 A、B、C、D各组供心存活时间分别为15－3120分钟。供心存活时间的统计学分析：A组与B、C两组比较P值＜0．01,A组与D组比较,B组与C组比较P值＞0．05,B组与D组比较,C组与D组比较P值＜0．01。光镜、电镜结果提示：B、C组与A、D组有明显不同。结论 CVF能明显抑制补体活性,减轻或延缓超急性排斥反应的发生,使供体器官存活时间延长。CVF具有异种器官移植的基础研究和临床开发意义。     

Prolongation of discordant renal xenograft survival by depletion of complement. Comparative effects of systemically administered cobra venom factor and soluble complement receptor type 1 in a guinea-pig to rat model

Abstract There is an increasing body of evidence to suggest that inhibition of complement activation may be a valuable approach to avert hyperacute rejection. In our study, the guinea-pig to rat discordant kidney xenograft model was adapted for the investigation of renal transplant function and an attempt was made to delay the hyperacute rejection using systemically administered cobra venom factor (CVF) and soluble complement receptor type 1 (sCR1). The saline-treated control recipients experienced a rapid transplant rejection with a xenograft survival averaging 10.5 ± 2.1 min. Administration of a single 60 U/kg i. v. bolus of CVF significantly prolonged renal graft survival to 20.4 ± 2.5 h, and by a single bolus of sCR1 (50 mg/kg) a prolongation of graft survival to 18.8 ± 2.3 h was achieved. The grafts functioned only over periods of 2.5 ± 0.3 and 2.3 ± 0.2 h, respectively. No complications of sCR 1 were noted. We concluded that complement inhibition by sCR 1 may be an important component in the therapeutic approach aiming at the prevention of hyperacute rejection in human organ transplantation.     

Influence of cold ischemia time, pretransplant anti-porcine antibodies, and donor/recipient size matching on hyperacute graft rejection after discordant porcine to cynomolgus kidney transplantation

Organs transplanted between phylogenetically disparate species, such as from the pig into the primate, are subject to hyperacute rejection (HAR). This form of xenograft rejection is mediated by preformed natural antibodies and is believed to occur invariably in discordant xenografts thus leading to rapid destruction and complete thrombosis of the graft. Recent data, however, have shown that in the porcine to cynomolgus monkey setting, HAR is not inevitably seen after porcine kidney transplantation. The influence of preoperative antiporcine antibody levels in the recipient, cold ischemia time, and donor organ weight on the onset of HAR was investigated by using unmodified large white pigs (aged 3-12 weeks) as organ donors and adult cynomolgus monkeys (aged 1.5-3.5 years) as recipients. Porcine kidney xenotransplantation was performed in either a non-life-supporting model (n=7) or in a life-supporting model (n=8). In both models, no correlation was found between cold ischemia time and HAR. When preoperative anti-porcine antibody levels were investigated, a significant increase in incidence of HAR was observed in animals with elevated anti-porcine IgM (P<0.05) but not IgG levels (P=NS). Interestingly, although 5 of 12 grafts with an organ weight of less than 50 g underwent HAR, none of three grafts with a donor organ weight of more than 70 g showed signs of HAR. In addition, all three larger grafts showed intraoperative and postoperative urine production, although only in 1 (48 g) of the 12 grafts weighing less than 50 g primary graft function was observed. In one animal, a second porcine kidney (23 g) was successfully transplanted (without HAR) immediately after HAR and subsequent removal of a first porcine kidney (20 g). These results indicate that in the porcine to cynomolgus monkey setting anti-porcine IgM rather than IgG anti-porcine antibody levels seem to be of predominant importance for the induction of HAR. By increasing the donor organ size and weight the frequency of the onset of HAR can be at least reduced. This is most likely due to immunoabsorption of the recipients preformed antibodies in the porcine kidney without lethal damage for the graft.     

Evidence that deoxyspergualin prevents sensitization and first-set cardiac xenograft rejection in rats by suppression of antibody formation

This study provides evidence of antibodies playing an important role in hamster-to-rat cardiac xenograft rejection and discusses the use of 15-deoxyspergualin (DSG) to suppress this first-set rejection, as well as hyperacute rejection induced by sensitization. The effect of recipient splenectomy (Spx) as an adjuvant to DSG to control first set xenograft rejection was also examined. When hyperimmune serum was taken from control recipients at rejection time and injected i.v. into new recipients of cardiac xenografts, hyperacute graft rejection resulted. Survival depended on the amount of serum injected and ranged from 14.7 +/- 2.5 min with 3 ml of serum to 233.3 +/- 61.1 min with 0.5 ml. Experiments on first-set xenograft rejection revealed that a dose of 2.5 mg/kg/day DSG could prolong xenograft survival from 3.4 +/- 0.5 days in untreated controls to 9.5 +/- 2.6 days (P less than 0.01). A dose of 5 mg/kg/day DSG, though it increased graft survival to 16.4 +/- 5.9 days, proved to be toxic to the recipients. Spx alone prolonged xenograft survival to 5.2 +/- 0.4 days, and, when combined with 2.5 mg/kg/day DSG administration, prolonged graft survival to 22.1 +/- 5.5 days (P less than 0.01 vs. DSG alone). The appearance of cytotoxic antibodies was delayed, and titers decreased from 1:256 in untreated controls to 1:16-1:64 both in the group that underwent Spx only and in the group that received 2.5 mg/kg/day DSG. Combined treatment suppressed antibody response for more than two weeks. Experiments on hyperacute rejection induced by sensitization revealed that 1 ml of hamster whole blood transfused into prospective heart recipients 1 week before grafting resulted in graft loss in 18.2 +/- 6.1 min. Pretransplant transfusion and concomitant daily administration of 5 mg/kg/day DSG until one day after grafting not only prevented hyperacute rejection but prolonged graft survival to 7.0 +/- 0.7 days. This survival was significantly longer than with DSG alone (4.2 +/- 0.8 days, P less than 0.01). We concluded that the marked suppression of antibody formation by DSG plays a major role in preventing first-set xenograft rejection and hyperacute rejection induced by sensitization.     

Experimental multivisceral xenotransplantation

Abstract: Background: Organ shortage impairs the proposition of multivisceral transplantation to treat multiple organ failure. Interspecies (xeno) transplantation is a valid solution for organ shortage; however, suitable models of this advance are lacking. We describe an effective model of multivisceral xenotransplantation to study hyperacute rejection. Methods: Under general anesthesia, we in block recovered the distal esophagus, stomach, small bowel, colon, liver, pancreas, spleen, and kidneys from donors and implanted heterotopically in the lower abdomen of recipients. Animals were divided into four groups: I—canine donor, swine recipient (n = 6); II – swine donor, canine recipient (n = 5); III—canine donor, canine recipient (n = 4); and IV—swine donor, swine recipient (n = 5). Groups I and II comprised experimental (xenotransplantation) and III and IV control groups (allotransplantation). During the experiment, we appraised recipient evolution and graft modification by sequential biopsy up to 3 h. At this time, we killed animals for autopsy (experimental end point). Results: We accomplished all experiments successfully. Every grafts attained customary appearance and convenient urine output immediately after unclamp. Around 15 min after reperfusion, xenografts achieved signs of progressive hyperacute rejection and absence of urine output. At the end of experiments we observed moderate to severe hyperacute rejection at small bowel, colon, mesenteric lymph node, liver, spleen, pancreas, and kidney, while stomach and esophagus achieved mild lesions. In contrast, allograft achieved normal or minimum ischemia/reperfusion injury and constant urine output. Conclusion: The present procedure assembles a simple and effective model to study multivisceral xenotransplantation and may ultimately spread researches toward hyperacute rejection.     

A primate model for discordant pig to primate kidney xenotransplantation without hyperacute graft rejection.

Organs transplanted between phylogenetically disparate species, such as from the pig into the primate, are subject to intragraft deposition of preformed recipient immunoglobulin M (IgM) antibodies with subsequent complement activation finally leading to complete and rapid destruction of the xenograft (hyperacute graft rejection, HAR). Current therapeutic strategies for abrogation of HAR include pretransplant antibody absorption by specific or nonspecific extracorporeal column perfusion, ex vivo donor organ perfusion, the administration of substances interfering with complement activation, or even the genetic alteration of the donor. Here, in the pig to cynomolgus monkey species combination, we are describing an experimental model for abrogation of HAR by using large, relative to the recipient weight, oversized donor kidneys as xenotransplants. Porcine kidney xenotransplantation (n = 15) was performed using large white pigs of different weights and ages as organ donors and cynomolgus monkeys as recipients. In grafts with an organ weight below 50 g (20 to 48 g, median 25 g), primary nonfunction (PNF) of the porcine kidney was observed in 11 out of 12 cases and complete HAR in 5 out of 12 experiments. In contrast, none of three grafts with a donor organ weight >70 g showed signs of HAR or PNF. In one animal, a second porcine kidney from the same donor (23 g) was successfully transplanted immediately after HAR and subsequent removal of a first porcine kidney (20 g). By using appropriate immunohistochemistry stainings of reperfusion biopsies, profound deposition of recipient natural antibodies in both small and large xenografts was shown, with only scarce deposition of C3 and C5b-9 in the latter, indicating only incomplete intragraft activation of the complement cascade in these organs. Intraoperative cardiac output (CO) measurements performed in 7 experiments demonstrated a 20 to 50% decrease in CO following reperfusion in 6 out of 7 grafts irrespective of the donor organ weight. The intraoperative decrease in CO was not associated with perioperative morbidity or mortality. The use of oversized doner kidneys can enable the study of a variety of immunologic and physiologic sequela beyond HAR associated with life-supporting discordant primate kidney transplantation.     

Hyperacute rejection in the guinea pig-to-rat model without formation of the membrane attack complex

The guinea pig (GP)-to-rat transplantation model has been widely used to study hyperacute rejection (HAR) of xenografts. In this model heart graft survival beyond 8 days has never been reported. In contrast, survival times of kidney and heart grafts up to 62 days have been reported in the discordant pig-to-primate model. It is not clear why it is so much more difficult to obtain long-term graft survival in the GP-to-rat model as compared to the pig-to-primate model. We hypothesized that mechanisms other than activation of complement may be involved in the rejection of guinea pig grafts by rat recipients. Therefore, we have studied in detail the rejection of GP aortic grafts by rat recipients, either PVG/c+ (complement competent, group 1), or PVG/c- (complement C6 deficient, group 2). PVG/c- rats are not able to form the membrane attack complex (MAC) of complement. Forty-four GP-to-rat aortic transplantations were performed successfully. Recipient rats were sacrificed at various intervals after transplantation (4, 24 and 48 h, and 7 and 28 days, three to six animals per time point per group). Twenty-four hours after transplantation the number of cells in the media was significantly decreased from 11.1 +/- 0.9 cells/mm2 to 3.1 +/- 2.8 cells/mm2 in group 1, whereas the number of medial cells in group 2 remained the same. The number of medial cells was significantly decreased in both groups at 48 h post-transplantation (group 1: 1.8 +/- 2.2 cells/mm2; group 2: 5.5 +/- 3.0 cells/mm2). At that time no infiltrating cells were apparent in the grafts of either two groups. Seven days after transplantation, the number of medial cells remained low in group 1 (1.8 +/- 2.9 cells/mm2) but was increased in group 2 (10.7 +/- 2.6 cells/mm2) as a consequence of infiltrating immune cells. These infiltrating cells consisted mainly of macrophages, but also T cells and NK cells. At 28 days after transplantation the grafts in both groups were completely reorganized and no distinction could be made between media and adventitia. These results show that rejection of GP grafts by rat recipients can occur in the absence of both MAC of complement and immune competent cells. This MAC and immune cells independent type of rejection has not been described before and may explain the difficulty in obtaining long-term graft survival in the GP-to-rat xenotransplantation model.     

Immunoglobulin G profile in hyperacute rejection after multivisceral xenotransplantation

Galvao FHF, Soler W, Pompeu E, Waisberg DR, Mello ES, Costa ACL, Teodoro W, Velosa AP, Capelozzi VL, Antonangelo L, Catanozi S, Martins A, Malbouisson LMS, Cruz RJ, Figueira ER, Filho JAR, Chaib E, D′Albuquerque LAC. Immunoglobulin G profile in hyperacute rejection after multivisceral xenotransplantation. Xenotransplantation 2012; 19: 298–304. © 2012 John Wiley & Sons A/S. Abstract: Introduction: Xenotransplantation is a potential solution for the high mortality of patients on the waiting list for multivisceral transplantation; nevertheless, hyperacute rejection (HAR) hampers this practice and motivates innovative research. In this report, we describe a model of multivisceral xenotransplantation in which we observed immunoglobulin G (IgG) involvement in HAR. Methods: We recovered en bloc multivisceral grafts (distal esophagus, stomach, small intestine, colon, liver, pancreas, and kidneys) from rabbits (n = 20) and implanted them in the swine (n = 15) or rabbits (n = 5, control). Three hours after graft reperfusion, we collected samples from all graft organs for histological study and to assess IgG fixation by immunofluorescence. Histopathologic findings were graded according to previously described methods. Results: No histopathological features of rejection were seen in the rabbit allografts. In the swine‐to‐rabbit grafts, features of HAR were moderate in the liver and severe in esophagus, stomach, intestines, spleen, pancreas, and kidney. Xenograft vessels were the central target of HAR. The main lesions included edema, hemorrhage, thrombosis, myosites, fibrinoid degeneration, and necrosis. IgG deposition was intense on cell membranes, mainly in the vascular endothelium. Conclusions: Rabbit‐to‐swine multivisceral xenotransplants undergo moderate HAR in the liver and severe HAR in the other organs. Moderate HAR in the liver suggests a degree of resistance to the humoral immune response in this organ. Strong IgG fixation in cell membranes, including vascular endothelium, confirms HAR characterized by a primary humoral immune response. This model allows appraisal of HAR in multiple organs and investigation of the liver’s relative resistance to this immune response.     

The effect of soluble complement receptor type 1 on hyperacute allograft rejection.

A major obstacle to successful organ transplantation in sensitized recipients is antibody-mediated hyperacute rejection. We hypothesized that human recombinant soluble complement receptor type 1 (sCR1), which inhibits activation of the complement cascade at multiple stages, would delay this process. Using a well-established model of hyperacute rejection, 21 Lewis rats each received three successive ACI rat skin grafts which resulted in high serum titers of ACI-specific antibodies. These hypersensitized Lewis rats then received heterotopic ACI cardiac allografts. Immediately prior to allograft reperfusion, sCR1 at 3 mg/kg (n = 11) or an equivalent volume of phosphate-buffered saline (PBS) (n = 10) was administered intravenously. Five minutes following allograft reperfusion, hemolytic complement activity was reduced by 63 +/- 2% (SEM) in the sCR1 group vs 25 +/- 3% in the PBS group (P less than 0.0001, Wilcoxon rank sum test (WRST)). Graft survival in the sCR1 group was prolonged to 32.0 +/- 4.47 hr vs 3.25 +/- 0.81 hr in the PBS group (P less than 0.0001, WRST). Serial histologic examination of allografts showed that sCR1 therapy prevented the early development of luminal platelet thrombi in the allograft coronary vessels. This study demonstrates that a single 3 mg/kg dose of sCR1 significantly prolongs ACI cardiac allograft survival in the hypersensitized Lewis rat recipient. Complement inactivation, mediated by sCR1, may prove useful for transplantation in sensitized recipients.     

Inhibition of platelet GPIIbIa in an ex vivo model of hyperacute xenograft rejection does not prolong cardiac survival time

Abstract: Discordant cardiac xenografts are rapidly rejected in a process characterized by platelet activation with microvascular thrombosis, termed hyperacute rejection (HAR). The fibrinogen receptor GPIIbIIIa is crucial for the formation of platelet aggregates and potentiates platelet adhesion to subendothelial matrix. We have studied the effects of a specific GPIIbIIIa antagonist (GPI 562) in an ex vivo working heart model using discordant porcine hearts perfused with fresh, heparinized human blood. Stable plasma GPI 562 inhibitory levels were confirmed by inhibition of human platelet aggregation in vitro. Biopsies from the left ventricle of rejected hearts were analyzed by immunopathology. Control porcine hearts ( n =8) underwent HAR and ceased functioning at around 60 min. Hearts perfused with human blood containing GPI 562 at 0.5 μM ( n =5) appeared to show an initial increase in coronary blood flow relative to controls, but neither this difference nor survival times of the hearts reached significance. Mean cardiac output values were 7.3 ml/g (SEM 2.5) in the experimental group and 5 ml/g (SEM 0.6) in the control group following 5 min of working mode and were comparable at other timepoints. Platelet counts in the perfusate were maintained in the presence of GPI 562, unlike the reduction of over 50% in control samples. Immunohistochemistry suggested decreased platelet vascular plugging as determined by P-selectin staining in the GPI 562 group, with associated reduction in neutrophil adherence and fibrin deposition. The use of GPI 562 in this ex vivo model conferred no marked benefits with respect to cardiac function and explant survival despite some positive differences on histological comparison. Further studies of this agent, in association with modalities of complement inhibition, are warranted in other models of discordant xenograft rejection.     

A Primate Model for Discordant Pig to Primate Kidney Xenotransplantation Without Hyperacute Graft Rejection

Organs transplanted between phylogenetically disparate species, such as from the pig into the primate, are subject to intragraft deposition of preformed recipient immunoglobulin M (IgM) antibodies with subsequent complement activation finally leading to complete and rapid destruction of the xenograft (hyperacute graft rejection, HAR). Current therapeutic strategies for abrogation of HAR include pretransplant antibody absorption by specific or nonspecific extracorporeal column perfusion, ex vivo donor organ perfusion, the administration of substances interfering with complement activation, or even the genetic alteration of the donor. Here, in the pig to cynomolgus monkey species combination, we are describing an experimental model for abrogation of HAR by using large, relative to the recipient weight, oversized donor kidneys as xenotransplants. Porcine kidney xenotransplantation (n = 15) was performed using large white pigs of different weights and ages as organ donors and cynomolgus monkeys as recipients. In grafts with an organ weight below 50 g (20 to 48 g, median 25 g), primary nonfunction (PNF) of the porcine kidney was observed in 11 out of 12 cases and complete HAR in 5 out of 12 experiments. In contrast, none of three grafts with a donor organ weight &gt;70 g showed signs of HAR or PNF. In one animal, a second porcine kidney from the same donor (23 g) was successfully transplanted immediately after HAR and subsequent removal of a first porcine kidney (20 g). By using appropriate immunohistochemistry stainings of reperfusion biopsies, profound deposition of recipient natural antibodies in both small and large xenografts was shown, with only scarce deposition of C3 and C5b-9 in the latter, indicating only incomplete intragraft activation of the complement cascade in these organs. Intraoperative cardiac output (CO) measurements performed in 7 experiments demonstrated a 20 to 50% decrease in CO following reperfusion in 6 out of 7 grafts irrespective of the donor organ weight. The intraoperative decrease in CO was not associated with perioperative morbidity or mortality. The use of oversized doner kidneys can enable the study of a variety of immunologic and physiologic sequela beyond HAR associated with life-supporting discordant primate kidney transplantation.     

Immunodepletion in xenotransplantation

Xenograft transplantation is perhaps the most immunologically difficult problem in transplantation today. An overwhelming hyperacute rejection reaction (HAR) occurs within minutes of organ implantation. Preformed antibodies are thought to initiate this process. We used a pig-to-dog renal xenograft transplant model and investigated methods of decreasing the severity of hyperacute rejection. Female pigs weighing 15-20 kg were used as donors. Recipients were mongrel dogs weighing 15-25 kg. Experimental dogs were all given a number of treatments of IgG depletion using an antibody removal system (Dupont-Excorim). This machine immunoadsorbs plasma against a column containing immobilized staphylococcal protein A, which is known to bind the IgG Fc receptor. An 84% reduction in the IgG levels and a 71% reduction in IgM levels was achieved. Postoperative assessment was made of urine output, time to onset of HAR, and histopathological examination of the rejected kidneys. Although cross-matches between donor lymphocytes and recipient sera remained strongly positive in the treated dogs, there was a two- to fourfold reduction in the titers. The time to onset of HAR was prolonged in the experimental group, and the urine output was increased slightly. The histopathologic changes in the experimental group generally showed signs of HAR, but of less intensity than in the nonimmunodepleted control group.