Wieder K J, Hancock W W, Schmidbauer G, Corpier C L, Wieder I, Kobzik L, Strom T B, Kupiec-Weglinski J W
Harvard Medical School, Department of Medicine, Beth Israel Hospital, Boston, MA 02215.
J Immunol. 1993 Jul 15;151(2):1158-66.
Rapamycin (RPM) treatment prevents accelerated rejection of cardiac allografts in sensitized rats. The prominent feature of this brisk 24-h rejection, which includes a panoply of both cellular and humoral host immune responses, is a massive infiltration of rejecting grafts with neutrophils. In this study we tested the hypothesis that RPM-mediated therapeutic effects on accelerated rejection may be linked to decreased expression of protein encoded by gro/melanoma-growth stimulatory activity gene (KC) and macrophage inflammatory protein-2 (MIP-2) genes, the operational rat homologues of the human intercrine-alpha cytokines with proinflammatory IL-8-like neutrophil activation/chemotactic properties. The induction of these genes was then correlated with mRNA profiles encoding for Th1-selective IFN-gamma and CTL-specific granzyme B proteins. Northern blot analysis of RNA from cardiac allografts of sensitized untreated recipients, revealed maximal levels of KC and MIP-2 mRNA at 3 to 6 h after transplantation. In contrast, IFN-gamma mRNA, which was at most very weakly expressed at 3 h, peaked between 6 to 12 h. As with IFN-gamma, granzyme B transcripts were undetectable at 3 h, but peaked around the time of actual graft rejection at 24 h. RPM therapy abrogated accelerated rejection and prolonged cardiac allograft survival to ca. 46 days. This effect was associated with markedly reduced expression of KC and MIP-2 mRNA in the first 24 h as well as at 7 and 34 days after transplantation. Moreover, RPM completely blocked intragraft appearance of granzyme B and IFN-gamma mRNA in long term cardiac allografts. Immunohistologic analysis has revealed that accelerated rejection was associated with extensive neutrophil infiltration, which peaked at 18 to 24 h. At this time, leukocytes and endothelium were intensely stained for IL-8 and IFN-gamma antibodies. In contrast, the allografts from RPM-treated hosts showed essentially no neutrophil infiltration and minor, focal staining for IL-8 and IFN-gamma. This study demonstrates an association between the early expression of genes for proinflammatory IL-8-dependent neutrophil chemotactic activity, and later expression of genes associated with activation/effector activity of CTL and NK cells. It also documents a novel effect of RPM in vivo, which results in the suppression of intragraft IL-8-like and CTL-dependent mRNA/protein production and diminished neutrophil infiltration; these may contribute to the striking efficacy of RPM therapy in sensitized graft recipients.
雷帕霉素(RPM)治疗可预防致敏大鼠心脏同种异体移植的加速排斥反应。这种迅速的24小时排斥反应的显著特征包括一系列细胞和体液宿主免疫反应,其突出表现是排斥移植器官中有大量中性粒细胞浸润。在本研究中,我们检验了这样一个假设:RPM对加速排斥反应的治疗作用可能与gro/黑素瘤生长刺激活性基因(KC)和巨噬细胞炎性蛋白-2(MIP-2)基因编码的蛋白质表达降低有关,这两个基因是具有促炎白细胞介素-8样中性粒细胞激活/趋化特性的人类白细胞介素-α细胞因子的大鼠同源物。然后将这些基因的诱导与编码Th1选择性干扰素-γ和CTL特异性颗粒酶B蛋白的mRNA谱相关联。对未治疗的致敏受体心脏同种异体移植组织的RNA进行Northern印迹分析,发现在移植后3至6小时KC和MIP-2 mRNA水平最高。相比之下,干扰素-γ mRNA在3小时时表达极弱,在6至12小时达到峰值。与干扰素-γ一样,颗粒酶B转录本在3小时时无法检测到,但在实际移植排斥发生的24小时左右达到峰值。RPM治疗消除了加速排斥反应,使心脏同种异体移植的存活期延长至约46天。这种作用与移植后最初24小时以及7天和34天时KC和MIP-2 mRNA表达的显著降低有关。此外,RPM完全阻断了长期心脏同种异体移植中移植器官内颗粒酶B和干扰素-γ mRNA的出现。免疫组织学分析显示,加速排斥反应与广泛的中性粒细胞浸润有关,在18至24小时达到峰值。此时,白细胞和内皮细胞被白细胞介素-8和干扰素-γ抗体强烈染色。相比之下,接受RPM治疗的宿主的同种异体移植组织基本没有中性粒细胞浸润,白细胞介素-8和干扰素-γ的染色轻微且呈局灶性。本研究证明了促炎白细胞介素-8依赖性中性粒细胞趋化活性基因的早期表达与CTL和NK细胞激活/效应活性相关基因的后期表达之间的关联。它还记录了RPM在体内的一种新作用,即抑制移植器官内白细胞介素-8样和CTL依赖性mRNA/蛋白质的产生以及减少中性粒细胞浸润;这些可能有助于RPM治疗对致敏移植受体的显著疗效。
