Genetically engineered pig kidney transplantation in a brain-dead human subject.

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
ACS Applied Electronic Materials Pub Date : 2021-11-01 Epub Date: 2021-11-20 DOI:10.1111/xen.12718
David K C Cooper
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Abstract

In September 2021, a kidney (with donor-specific thymic tissue) from an α1, 3-galactosyltransferase gene-knockout (GTKO) pig was transplanted into the groin (with anastomoses to the femoral vessels) of a brain-dead subject by a surgical team at New York University Langone Health (NYU). It was reported to function immediately, passing urine and excreting creatinine. The experiment was terminated after 54 h and, during this period, the kidney did not show macroscopic features of rejection. Does this experiment provide information not available to us previously and does it move the field forward to clinical trials? The information provided was very limited, but the following points are worthy of note. (i) Numerous in vivo studies in nonhuman primates have predicted that the pig kidney would function immediately. (ii) Numerous in vitro studies have predicted that a GTKO pig kidney would not be rejected within the first few days after transplantation into a human subject. (iii) GTKO kidneys are not optimal for clinical transplantation, and the transplantation of a triple-knockout (TKO) pig kidney would have been more relevant. (iv) There was no purpose in transplanting a "thymokidney" without pre-transplant conditioning therapy and follow-up for several months. (v) Because the native kidneys were retained, it is difficult to determine whether the function of the graft was sufficient to support life. (vi) The experiment was announced to the media rather than published in a peer-reviewed medical journal (although hopefully this will follow), suggesting that it was primarily carried out to gain attention to the great potential of xenotransplantation (and/or possibly to NYU). In this respect the experiment was successful. Because of the very limited period of time for which a brain-dead subject can be maintained in a metabolically and hemodynamically stable state, the value of experiments in such subjects will remain very limited. It is hoped that any future similar experiments will be planned to be more relevant to the clinical situation. Nevertheless, the report has stimulated public attention towards xenotransplantation which, unless there is an adverse response to what some might consider to be a bizarre experiment, should be of significant benefit to future progress.

将基因工程猪肾移植给一名脑死亡的人类受试者。
2021 年 9 月,纽约大学朗贡医疗中心(NYU)的一个外科小组将一个来自α1, 3-半乳糖基转移酶基因敲除(GTKO)猪的肾脏(连同捐献者特异性胸腺组织)移植到一名脑死亡受试者的腹股沟(与股血管吻合)。据报告,它立即开始工作,排出尿液和肌酐。实验在 54 小时后终止,在此期间,肾脏没有出现排斥反应的宏观特征。这项实验是否提供了我们以前无法获得的信息,是否推动了临床试验领域的发展?所提供的信息非常有限,但以下几点值得注意。(i) 大量在非人灵长类动物体内进行的研究预测,猪肾脏可以立即发挥作用。(ii) 大量体外研究预测,GTKO 猪肾在移植到人体后的头几天内不会发生排斥反应。(iii) GTKO 肾脏不是临床移植的最佳选择,移植三重基因敲除(TKO)的猪肾脏更有意义。(iv) 移植 "胸腺肾脏 "时,如果不进行移植前的调理治疗和几个月的随访,就没有任何意义。(v) 由于保留了原生肾脏,因此很难确定移植肾的功能是否足以维持生命。(vi) 该实验是向媒体公布的,而不是在同行评审的医学杂志上发表(但愿以后会有这 种报道),这表明进行该实验主要是为了引起人们对异种移植巨大潜力的关注(和/ 或可能是为了纽约大学)。在这方面,实验是成功的。由于脑死亡受试者能够保持新陈代谢和血液动力学稳定状态的时间非常有限,因此在这类受试者身上进行实验的价值仍然非常有限。希望今后的类似实验计划能更贴近临床情况。尽管如此,该报告还是引起了公众对异种移植的关注,除非有人对这种可能被认为是怪异的实验产生不良反应,否则它应该对未来的进展大有裨益。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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