Ikonen T S, Gummert J F, Hayase M, Honda Y, Hausen B, Christians U, Berry G J, Yock P G, Morris R E
Department of Cardiothoracic Surgery, Transplantation Immunology, Stanford University, CA 94305, USA.
Transplantation. 2000 Sep 27;70(6):969-75. doi: 10.1097/00007890-200009270-00015.
Current immunosuppressive protocols fail to prevent chronic rejection often manifested as graft vascular disease (GVD) in solid organ transplant recipients. Several new immunosuppressants including sirolimus, a dual function growth factor antagonist, have been discovered, but studies of drug efficacy have been hampered by the lack of a model of GVD in primates, as a prelude to clinical trials. As described earlier, we have developed a novel non-human primate model of GVD where progression of GVD is quantified by intravascular ultrasound (IVUS).
Twelve cynomolgus monkeys underwent aortic transplantation from blood group compatible but mixed lymphocyte reaction-mismatched donors. To allow the development of GVD in the allograft, no treatment was administered for the first 6 weeks. Six monkeys were treated orally with sirolimus from day 45 after transplantation to day 105.
Progression of GVD measured as change in intimal area from day 42 to 105 was halted in sirolimus-treated monkeys compared to untreated monkeys (P<0.001, general linear model). On day 105, the intimal area +/- SEM was 3.7+/-1.0 and 6.4+/-0.5 mm2, respectively (P<0.05, t test). The magnitude of allograft intimal area on day 105 correlated inversely with sirolimus trough levels (R2=0.67, P<0.05). Regression of the intimal area was seen in four of six sirolimus-treated monkeys, which was significantly different from the untreated monkeys (P<0.05).
Our results in the first non-human primate model of GVD showed that treatment with sirolimus not only halted the progression of preexisting GVD but also was associated with partial regression. Sirolimus trough blood levels were correlated with efficacy. Therefore, sirolimus has the potential to control clinical chronic allograft rejection.
目前的免疫抑制方案未能预防在实体器官移植受者中常表现为移植物血管疾病(GVD)的慢性排斥反应。已发现几种新型免疫抑制剂,包括西罗莫司,一种双功能生长因子拮抗剂,但由于缺乏灵长类动物GVD模型作为临床试验的前奏,药物疗效研究受到阻碍。如前所述,我们已开发出一种新型的非人类灵长类动物GVD模型,其中GVD的进展通过血管内超声(IVUS)进行量化。
12只食蟹猴接受了来自血型相容但混合淋巴细胞反应不匹配供体的主动脉移植。为使同种异体移植物发生GVD,在最初6周内未进行任何治疗。6只猴子在移植后第45天至第105天口服西罗莫司。
与未治疗的猴子相比,西罗莫司治疗的猴子中以第42天至105天内膜面积变化衡量的GVD进展停止(P<0.001,一般线性模型)。在第105天,内膜面积+/-SEM分别为3.7+/-1.0和6.4+/-0.5平方毫米(P<0.05,t检验)。第105天同种异体移植物内膜面积的大小与西罗莫司谷浓度呈负相关(R2=0.67,P<0.05)。在6只接受西罗莫司治疗的猴子中有4只出现内膜面积缩小,这与未治疗的猴子有显著差异(P<0.05)。
我们在首个非人类灵长类动物GVD模型中的结果表明,西罗莫司治疗不仅能阻止已存在的GVD进展,还与部分消退相关。西罗莫司谷血浓度与疗效相关。因此,西罗莫司有控制临床慢性同种异体移植物排斥反应的潜力。
