快速还是缓慢脑死亡？对同种异体移植猪模型中肾脏移植物损伤的影响。

Rapid or Slow Time to Brain Death? Impact on Kidney Graft Injuries in an Allotransplantation Porcine Model.

机构信息

CHU Poitiers, Coordination des prélèvements d'organe et de tissus, F-86000 Poitiers, France.

CHU Poitiers, Département d'anesthésie-réanimation, F-86000 Poitiers, France.

出版信息

Int J Mol Sci. 2019 Jul 26;20(15):3671. doi: 10.3390/ijms20153671.

DOI:10.3390/ijms20153671

PMID:31357488

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6696377/

Abstract

The use of donors deceased after brain death (DBD) with extended criteria in response to the shortage of grafts leads to the removal of more fragile kidneys. These grafts are at greater risk of not being grafted or delayed function. A better knowledge of the pathophysiology of DBDs would improve this situation. There is a difference between the results from animal models of DBD and the clinical data potentially explained by the kinetics of brain death induction. We compared the effect of the induction rate of brain death on the recovery of post-transplant renal function in a pig model of DBD followed by allografts in nephrectomized pigs. Resumption of early function post-transplant was better in the rapidly generated brain death group (RgBD) and graft fibrosis at three months less important. Two groups had identical oxidative stress intensity but a greater response to this oxidative stress by SIRT1, PGC1-α and NRF2 in the RgBD group. Modulation of mechanistic target of rapamycin (mTOR) stimulation by NRF2 would also regulate the survival/apoptosis balance of renal cells. For the first time we have shown that an allostatic response to oxidative stress can explain the impact of the rapidity of brain death induction on the quality of kidney transplants.

摘要

在供体短缺的情况下，使用脑死亡（DBD）后具有扩展标准的捐献者会导致更脆弱的肾脏被移除。这些移植物存在无法移植或延迟功能的风险更大。更好地了解 DBD 的病理生理学将改善这种情况。DBD 动物模型的结果与脑死亡诱导动力学可能解释的临床数据之间存在差异。我们比较了 DBD 猪模型中脑死亡诱导率对移植后肾功能恢复的影响，然后对行肾切除术的猪进行同种异体移植。快速生成脑死亡组（RgBD）的移植后早期功能恢复更好，三个月时移植物纤维化程度较轻。两组的氧化应激强度相同，但 RgBD 组的 SIRT1、PGC1-α 和 NRF2 对这种氧化应激的反应更大。NRF2 对雷帕霉素机制靶蛋白（mTOR）刺激的调节也会调节肾细胞的存活/凋亡平衡。我们首次表明，对氧化应激的适应反应可以解释脑死亡诱导速度对肾脏移植物质量的影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4b4a/6696377/3dd672caca1c/ijms-20-03671-g001.jpg

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快速还是缓慢脑死亡？对同种异体移植猪模型中肾脏移植物损伤的影响。

Rapid or Slow Time to Brain Death? Impact on Kidney Graft Injuries in an Allotransplantation Porcine Model.

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