Division of Transplantation, Department of Surgery, Medical University of Vienna, Vienna.
Department of Visceral, Transplant, and Thoracic Surgery, Center of Operative Medicine, Innsbruck Medical University, Innsbruck.
J Heart Lung Transplant. 2014 Apr;33(4):429-37. doi: 10.1016/j.healun.2013.11.004. Epub 2013 Nov 28.
The mixed chimerism approach induces donor-specific tolerance in both pre-clinical models and clinical pilot trials. However, chronic rejection of heart allografts and acute rejection of skin allografts were observed in some chimeric animals despite persistent hematopoietic chimerism and tolerance toward donor antigens in vitro. We tested whether additional cell therapy with regulatory T cells (Tregs) is able to induce full immunologic tolerance and prevent chronic rejection.
We recently developed a murine "Treg bone marrow (BM) transplantation (BMT) protocol" that is devoid of cytoreductive recipient pre-treatment. The protocol consists of a moderate dose of fully mismatched allogeneic donor BM under costimulation blockade, together with polyclonal recipient Tregs and rapamycin. Control groups received BMT under non-myeloablative irradiation and costimulation blockade without Treg therapy. Multilineage chimerism was followed by flow cytometry, and tolerance was assessed by donor-specific skin and heart allografts.
Durable multilineage chimerism and long-term donor skin and heart allograft survival were successfully achieved with both protocols. Notably, histologic examination of heart allografts at the end of follow-up revealed that chronic rejection is prevented only in chimeras induced with the Treg protocol.
In a mouse model of mixed chimerism, additional Treg treatment at the time of BMT prevents chronic rejection of heart allografts. As the Treg-chimerism protocol also obviates the need for cytoreductive recipient treatment it improves both efficacy and safety over previous non-myeloablative mixed chimerism regimens. These results may significantly impact the development of protocols for tolerance induction in cardiac transplantation.
嵌合体方法在临床前模型和临床试验中诱导供体特异性耐受。然而,尽管在体外对供体抗原具有持续的造血嵌合体和耐受性,但在一些嵌合体动物中观察到心脏同种异体移植物的慢性排斥和皮肤同种异体移植物的急性排斥。我们测试了用调节性 T 细胞(Treg)进行额外的细胞治疗是否能够诱导完全免疫耐受并预防慢性排斥。
我们最近开发了一种“Treg 骨髓(BM)移植(BMT)方案”,该方案不包括受者预处理的细胞减少。该方案包括在共刺激阻断下接受中等剂量的完全错配同种异体供体 BM,同时接受多克隆受者 Treg 和雷帕霉素。对照组在非清髓照射和共刺激阻断下接受 BMT,而不进行 Treg 治疗。通过流式细胞术检测多谱系嵌合体,通过供体特异性皮肤和心脏同种异体移植物评估耐受性。
两种方案均成功实现了持久的多谱系嵌合体和长期供体皮肤和心脏同种异体移植物存活。值得注意的是,在随访结束时对心脏同种异体移植物进行的组织学检查表明,只有在使用 Treg 方案诱导的嵌合体中才可以预防慢性排斥。
在混合嵌合体小鼠模型中,BMT 时额外的 Treg 治疗可预防心脏同种异体移植物的慢性排斥。由于 Treg-嵌合体方案还避免了对受者进行细胞减少性治疗,因此与以前的非清髓性混合嵌合体方案相比,它提高了疗效和安全性。这些结果可能会对心脏移植中诱导耐受方案的发展产生重大影响。
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