血液外渗和血液毒性驱动缺血性AKI中红细胞捕获引起的肾小管损伤。

IF 5.1 Q2 CELL BIOLOGY Function (Oxford, England) Pub Date : 2023-09-04 eCollection Date: 2023-01-01 DOI:10.1093/function/zqad050
Sarah R McLarnon, Chloe Johnson, Jingping Sun, Qingqing Wei, Gabor Csanyi, Phillip O'Herron, Brendan Marshall, Priya Giddens, Jennifer C Sullivan, Amanda Barrett, Paul M O'Connor
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摘要

红细胞(RBC)捕获在缺血性急性肾损伤(AKI)中很常见,表现为密集的RBC,积聚在肾髓质循环中并使其充血。在这项研究中,我们检验了“红细胞捕获直接促进肾小管损伤,而不依赖于延长缺血时间”的假设。比较无血肾的肾动脉夹闭、静脉夹闭和静脉夹闭之间的红细胞充血和肾小管损伤。血管闭塞15或45 min再灌注和不灌注。我们发现,肾动脉夹闭再灌注后,髓质毛细血管中的红细胞捕获迅速发生,这与充血血管中的血液外渗、肾小管对血液蛋白的摄取以及明显的肾小管损伤有关。为了确定这种损伤是由于血液毒性还是缺血时间延长,我们比较了未再灌注的肾静脉和动脉夹闭。静脉夹闭导致红细胞滞留,并在45分钟内造成明显的肾小管损伤 缺血分钟。相反,尽管缺血时间相同,但动脉阻断后无再灌注,红细胞捕获和肾小管损伤最小。证实了血液对肾小管损伤的作用,通过静脉夹闭,无血肾脏的损伤显著减少。我们的数据表明,红细胞捕获导致肾小管细胞快速外渗和吸收血液成分,导致毒性肾小管损伤。红细胞捕获后血液外渗引起的肾小管毒性似乎是缺血性AKI肾小管损伤的主要组成部分,这一点以前尚未得到认识。
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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Extravasation of Blood and Blood Toxicity Drives Tubular Injury from RBC Trapping in Ischemic AKI.

Red blood cell (RBC) trapping is common in ischemic acute kidney injury (AKI) and presents as densely packed RBCs that accumulate within and engorge the kidney medullary circulation. In this study, we tested the hypothesis that "RBC trapping directly promotes tubular injury independent of extending ischemia time." Studies were performed on rats. Red blood cell congestion and tubular injury were compared between renal arterial clamping, venous clamping, and venous clamping of blood-free kidneys. Vessels were occluded for either 15 or 45 min with and without reperfusion. We found that RBC trapping in the medullary capillaries occurred rapidly following reperfusion from renal arterial clamping and that this was associated with extravasation of blood from congested vessels, uptake of blood proteins by the tubules, and marked tubular injury. To determine if this injury was due to blood toxicity or an extension of ischemia time, we compared renal venous and arterial clamping without reperfusion. Venous clamping resulted in RBC trapping and marked tubular injury within 45 min of ischemia. Conversely, despite the same ischemia time, RBC trapping and tubular injury were minimal following arterial clamping without reperfusion. Confirming the role of blood toward tubular injury, injury was markedly reduced in blood-free kidneys with venous clamping. Our data demonstrate that RBC trapping results in the rapid extravasation and uptake of blood components by tubular cells, causing toxic tubular injury. Tubular toxicity from extravasation of blood following RBC trapping appears to be a major component of tubular injury in ischemic AKI, which has not previously been recognized.

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