Lin Ming-Lee, Zhan Yifan, Nutt Stephen L, Brady Jason, Wojtasiak Magdalena, Brooks Andrew G, Lew Andrew M
Autoimmunity and Transplantation Division, The Walter and Eliza Hall Institute for Medical Research, Parkville, Vic., Australia.
Xenotransplantation. 2006 Nov;13(6):536-46. doi: 10.1111/j.1399-3089.2006.00348.x.
Natural killer (NK) cells have emerged as major players in anti-viral and anti-tumour immune responses. Like cytotoxic T lymphocytes (CTL), they express perforin and are potent secretors of gamma-interferon (IFN-gamma). However, there is conflicting evidence about their role in mediating rejection of xenogeneic tissue.
A pig-to-mouse peritoneal cell model of xenotransplantation was used to investigate the effect of NK deficiency on xenograft recovery and the possible mechanisms behind this NK-mediated graft rejection. gamma c(-/-)RAG(-/-) mice were used as a model of NK deficiency. Additionally, NK cells were depleted in RAG(-/-) mice using anti-asialo GM1. The contributions of IFN-gamma, perforin and NKT cells were studied using knock-out mice that were depleted in vivo of T cells. Mice were injected with 10(7) pig cells intraperitoneally and peritoneal fluid was assessed 5 days later for xenograft recovery and phenotypic analysis. The requirement for NK cells for xenograft rejection was also assessed using luciferase-transfected porcine cells in a renal subcapsular model of transplantation.
Pig cell recovery was enhanced in both gamma c(-/-)RAG(-/-) and NK-depleted RAG(-/-) mice when compared with RAG(-/-) control mice. IFN-gamma(-/-) mice depleted of T cells also demonstrated superior graft survival compared with their B6 counterparts. However, there were minimal graft survival differences between Pfp(-/-) and B6 control mice. Similarly, a deficiency in NKT cells did not improve pig xenograft recovery from the peritoneum of these mice.
Therefore, we conclude that NK cells, but not NKT cells, are important mediators of xenograft rejection in the peritoneal cavity, and that their role may be unmasked in the absence of T cells. The mechanism for this xenorejection appears to involve IFN-gamma but is perforin independent.
自然杀伤(NK)细胞已成为抗病毒和抗肿瘤免疫反应的主要参与者。与细胞毒性T淋巴细胞(CTL)一样,它们表达穿孔素,并且是γ干扰素(IFN-γ)的高效分泌者。然而,关于它们在介导异种组织排斥反应中的作用存在相互矛盾的证据。
采用猪到小鼠的异种移植腹膜细胞模型,研究NK细胞缺陷对异种移植物恢复的影响以及这种NK介导的移植物排斥反应背后的可能机制。γc(-/-)RAG(-/-)小鼠用作NK细胞缺陷模型。此外,使用抗唾液酸GM1在RAG(-/-)小鼠中清除NK细胞。使用体内T细胞耗竭的基因敲除小鼠研究IFN-γ、穿孔素和NKT细胞的作用。小鼠腹腔内注射10^7个猪细胞,5天后评估腹腔液中的异种移植物恢复情况并进行表型分析。还使用荧光素酶转染的猪细胞在肾被膜下移植模型中评估NK细胞对异种移植物排斥反应的需求。
与RAG(-/-)对照小鼠相比,γc(-/-)RAG(-/-)和NK细胞耗竭的RAG(-/-)小鼠中的猪细胞恢复均增强。T细胞耗竭的IFN-γ(-/-)小鼠与B6对照小鼠相比,也表现出更好的移植物存活。然而,Pfp(-/-)和B6对照小鼠之间的移植物存活差异极小。同样,NKT细胞缺陷并未改善这些小鼠腹膜中的猪异种移植物恢复情况。
因此,我们得出结论,NK细胞而非NKT细胞是腹腔内异种移植物排斥反应的重要介质,并且它们的作用可能在没有T细胞的情况下显现出来。这种异种排斥反应的机制似乎涉及IFN-γ,但与穿孔素无关。
