Safley Susan A, Kapp Linda M, Tucker-Burden Carol, Hering Bernhard, Kapp Judith A, Weber Collin J
Gottlich Laboratory for Diabetes and Islet Transplant Research, Department of Surgery, Emory University School of Medicine, 5105 Woodruff Memorial Building, 101 Woodruff Circle, Atlanta, GA 30322, USA.
Transplantation. 2005 Feb 27;79(4):409-18. doi: 10.1097/01.tp.0000150021.06027.dc.
Transplantation of human islets has been successful clinically. Since human islets are scarce, we are studying microencapsulated porcine islet xenografts in nonobese diabetic (NOD) mice. We have evaluated the cellular immune response in NOD mice with and without dual costimulatory blockade.
Alginate-poly-L-lysine-encapsulated adult porcine islets were transplanted i.p. in untreated diabetic NODs and NODs treated with CTLA4-Ig to block CD28/B7 and with anti-CD154 mAb to inhibit CD40/CD40-ligand interactions. Groups of mice were sacrificed on subsequent days; microcapsules were evaluated by histology; peritoneal cells were analyzed by FACS; and peritoneal cytokines were quantified by ELISA. Controls included immunoincompetent NOD-Scids and diabetic NODs given sham surgery or empty microcapsules.
Within 20 days, encapsulated porcine islets induced accumulation of large numbers of macrophages, eosinophils, and significant numbers of CD4 and CD8 T cells at the graft site, and all grafts were rejected. During rejection, IFNgamma, IL-12 and IL-5 were significantly elevated over sham-operated controls, whereas IL-2, TNFalpha, IL-4, IL-6, IL-10, IL-1beta and TGFbeta were unchanged. Treatment with CTLA4-Ig and anti-CD154 prevented graft destruction in all animals during the 26 days of the experiment, dramatically inhibited recruitment of host inflammatory cells, and inhibited peritoneal IFNgamma and IL-5 concentrations while delaying IL-12 production.
When two different pathways of T cell costimulation were blocked, T cell-dependent inflammatory responses were inhibited, and survival of encapsulated islet xenografts was significantly prolonged. These findings suggest synergy between encapsulation of donor islets and simultaneous blockade of two host costimulatory pathways in prolonging xenoislet transplant survival.
人胰岛移植在临床上已获成功。由于人胰岛稀缺,我们正在研究非肥胖糖尿病(NOD)小鼠体内微囊化猪胰岛异种移植物。我们评估了有无双重共刺激阻断情况下NOD小鼠的细胞免疫反应。
将藻酸盐-聚-L-赖氨酸包封的成年猪胰岛经腹腔移植到未经治疗的糖尿病NOD小鼠以及用CTLA4-Ig阻断CD28/B7并用抗CD154单克隆抗体抑制CD40/CD40配体相互作用的NOD小鼠体内。在随后几天处死小鼠组;通过组织学评估微囊;通过流式细胞术分析腹腔细胞;通过酶联免疫吸附测定法定量腹腔细胞因子。对照组包括免疫无活性的NOD-Scid小鼠以及接受假手术或空微囊的糖尿病NOD小鼠。
在20天内,包封的猪胰岛在移植部位诱导大量巨噬细胞、嗜酸性粒细胞以及大量CD4和CD8 T细胞积聚,所有移植物均被排斥。在排斥过程中,与假手术对照组相比,干扰素γ、白细胞介素-12和白细胞介素-5显著升高,而白细胞介素-2、肿瘤坏死因子α、白细胞介素-4、白细胞介素-6、白细胞介素-10、白细胞介素-1β和转化生长因子β未发生变化。在实验的26天期间,用CTLA4-Ig和抗CD154治疗可防止所有动物的移植物破坏,显著抑制宿主炎性细胞的募集,并抑制腹腔干扰素γ和白细胞介素-5浓度,同时延迟白细胞介素-12的产生。
当两条不同的T细胞共刺激途径被阻断时,T细胞依赖性炎症反应受到抑制,包封的胰岛异种移植物存活时间显著延长。这些发现表明,在延长异种胰岛移植存活时间方面,供体胰岛包封与同时阻断两条宿主共刺激途径之间存在协同作用。
