剖析胰岛异种移植中的即时血液介导的炎症反应。
Dissecting the instant blood-mediated inflammatory reaction in islet xenotransplantation.
作者信息
Goto Masafumi, Tjernberg Jenny, Dufrane Denis, Elgue Graciela, Brandhorst Daniel, Ekdahl Kristina Nilsson, Brandhorst Heidi, Wennberg Lars, Kurokawa Yoshimochi, Satomi Susumu, Lambris John D, Gianello Pierre, Korsgren Olle, Nilsson Bo
机构信息
Tohoku University International Advanced Research and Education Organization, Tohoku University, Sendai, Japan.
出版信息
Xenotransplantation. 2008 Jul-Aug;15(4):225-34. doi: 10.1111/j.1399-3089.2008.00482.x.
BACKGROUND
A massive destruction of transplanted tissue occurs immediately following transplantation of pancreatic islets from pig to non-human primates. The detrimental instant blood-mediated inflammatory reaction (IBMIR), triggered by the porcine islets, is a likely explanation for this tissue loss. This reaction may also be responsible for mediating an adaptive immune response in the recipient that requires a heavy immunosuppressive regimen.
MATERIALS AND METHODS
Low molecular weight dextran sulfate (LMW-DS) and the complement inhibitor Compstatin were used in a combination of in vitro and in vivo studies designed to dissect the xenogeneic IBMIR in a non-human primate model of pancreatic islet transplantation. Adult porcine islets (10,000 IEQs/kg) were transplanted intraportally into three pairs of cynomolgus monkeys that had been treated with LMW-DS or heparin (control), and the effects on the IBMIR were characterized. Porcine islets were also incubated in human blood plasma in vitro to assess complement inhibition by LMW-DS and Compstatin.
RESULTS
Morphological scoring and immunohistochemical staining revealed that the severe islet destruction and macrophage, neutrophilic granulocyte, and T-cell infiltration observed in the control (heparin-treated) animals were abrogated in the LMW-DS-treated monkeys. Both coagulation and complement activation were significantly reduced in monkeys treated with LMW-DS, but IgM and complement fragments were still found on the islet surface. This residual complement activation could be inhibited by Compstatin in vitro.
CONCLUSIONS
The xenogeneic IBMIR in this non-human primate model is characterized by an immediate binding of antibodies that triggers deleterious complement activation and a subsequent clotting reaction that leads to further complement activation. The effectiveness of LMW-DS (in vivo and in vitro) and Compstatin (in vitro) in inhibiting this IBMIR provides the basis for a protocol that can be used to abrogate the IBMIR in pig-human clinical islet transplantation.
背景
猪胰岛移植到非人灵长类动物后,移植组织会立即发生大规模破坏。由猪胰岛引发的有害即时血液介导的炎症反应(IBMIR)可能是这种组织损失的原因。这种反应也可能介导受体中的适应性免疫反应,而这需要严格的免疫抑制方案。
材料与方法
低分子量硫酸葡聚糖(LMW-DS)和补体抑制剂Compstatin用于体外和体内研究的组合,旨在剖析胰岛移植非人灵长类动物模型中的异种IBMIR。将成年猪胰岛(10,000 IEQs/kg)经门静脉移植到三对用LMW-DS或肝素(对照)处理过的食蟹猴中,并对IBMIR的影响进行表征。猪胰岛也在人血浆中进行体外培养,以评估LMW-DS和Compstatin对补体的抑制作用。
结果
形态学评分和免疫组织化学染色显示,在LMW-DS处理的猴子中,对照(肝素处理)动物中观察到的严重胰岛破坏以及巨噬细胞、中性粒细胞和T细胞浸润消失。LMW-DS处理的猴子中凝血和补体激活均显著降低,但在胰岛表面仍发现IgM和补体片段。这种残余的补体激活在体外可被Compstatin抑制。
结论
该非人灵长类动物模型中的异种IBMIR的特征是抗体的立即结合引发有害的补体激活,随后的凝血反应导致进一步的补体激活。LMW-DS(体内和体外)和Compstatin(体外)抑制这种IBMIR的有效性为可用于消除猪-人临床胰岛移植中IBMIR的方案提供了基础。
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