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本文引用的文献

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Circulatory and renal effects following transfusion of human blood and its components to dogs.给狗输注人血及其成分后的循环和肾脏效应。
Circ Res. 1956 Jan;4(1):18-24. doi: 10.1161/01.res.4.1.18.
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Oxygen free radicals in ischemic acute renal failure in the rat.大鼠缺血性急性肾衰竭中的氧自由基
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Oxygen toxicity, oxygen radicals, transition metals and disease.氧中毒、氧自由基、过渡金属与疾病。
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Effects of mannitol on the postischemic kidney. Biochemical, functional, and morphologic assessments.甘露醇对缺血后肾脏的影响。生化、功能及形态学评估。
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Low molecular weight proteinuria exacerbates experimental ischemic renal injury.低分子量蛋白尿会加重实验性缺血性肾损伤。
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7
Hemoglobin- and myoglobin-induced acute renal failure in rats: role of iron in nephrotoxicity.血红蛋白和肌红蛋白诱导的大鼠急性肾衰竭:铁在肾毒性中的作用
Am J Physiol. 1988 Sep;255(3 Pt 2):F539-44. doi: 10.1152/ajprenal.1988.255.3.F539.
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9
Modulation of myoglobin-H2O2-mediated peroxidation reactions by sulfhydryl compounds.巯基化合物对肌红蛋白-H2O2介导的过氧化反应的调节作用。
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10
Role of iron in postischemic renal injury in the rat.铁在大鼠缺血后肾损伤中的作用。
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无机铁对体外缺氧近端肾小管细胞损伤的影响。

Inorganic iron effects on in vitro hypoxic proximal renal tubular cell injury.

作者信息

Zager R A, Schimpf B A, Bredl C R, Gmur D J

机构信息

Department of Medicine, University of Washington, Seattle 98195.

出版信息

J Clin Invest. 1993 Feb;91(2):702-8. doi: 10.1172/JCI116251.

DOI:10.1172/JCI116251
PMID:8432870
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC288012/
Abstract

Iron-dependent free radical reactions and renal ischemia are believed to be critical mediators of myohemoglobinuric acute renal failure. Thus, this study assessed whether catalytic iron exacerbates O2 deprivation-induced proximal tubular injury, thereby providing an insight into this form of renal failure. Isolated rat proximal tubular segments (PTS) were subjected to either hypoxia/reoxygenation (H/R: 27:15 min), "chemical anoxia" (antimycin A; 7.5 microM x 45 min), or continuous oxygenated incubation +/- ferrous (Fe2+) or ferric (Fe3+) iron addition. Cell injury (% lactic dehydrogenase [LDH] release), lipid peroxidation (malondialdehyde, [MDA]), and ATP depletion were assessed. Under oxygenated conditions, Fe2+ and Fe3+ each raised MDA (approximately 7-10x) and decreased ATP (approximately 25%). Fe2+, but not Fe3+, caused LDH release (31 +/- 2%). During hypoxia, Fe2+ and Fe3+ worsened ATP depletion; however, each decreased LDH release (approximately 31 to approximately 22%; P < 0.01). Fe(2+)-mediated protection was negated during reoxygenation because Fe2+ exerted its intrinsic cytotoxic effect (LDH release: Fe2+ alone, 31 +/- 2%; H/R 36 +/- 2%; H/R + Fe2+, 41 +/- 2%). However, Fe(3+)-mediated protection persisted throughout reoxygenation because it induced no direct cytotoxicity (H/R, 39 +/- 2%; H/R + Fe3+, 25 +/- 2%; P < 0.002). Fe3+ also decreased antimycin toxicity (41 +/- 4 vs. 25 +/- 3%; P < 0.001) despite inducing marked lipid peroxidation and without affecting ATP. These results indicate that catalytic iron can mitigate, rather than exacerbate, O2 deprivation/reoxygenation PTS injury.

摘要

铁依赖性自由基反应和肾缺血被认为是肌红蛋白尿性急性肾衰竭的关键介质。因此,本研究评估了催化铁是否会加重氧剥夺诱导的近端肾小管损伤,从而深入了解这种形式的肾衰竭。将分离的大鼠近端肾小管节段(PTS)进行缺氧/复氧(H/R:27:15分钟)、“化学性缺氧”(抗霉素A;7.5微摩尔/升×45分钟)或持续有氧孵育并添加亚铁(Fe2+)或铁(Fe3+)。评估细胞损伤(乳酸脱氢酶[LDH]释放百分比)、脂质过氧化(丙二醛,[MDA])和ATP消耗。在有氧条件下,Fe2+和Fe3+均使MDA升高(约7 - 10倍)并使ATP降低(约25%)。Fe2+而非Fe3+导致LDH释放(31±2%)。在缺氧期间,Fe2+和Fe3+使ATP消耗恶化;然而,二者均使LDH释放降低(约31%至约22%;P<0.01)。Fe(2+)介导的保护在复氧期间被抵消,因为Fe2+发挥了其内在的细胞毒性作用(LDH释放:单独Fe2+为31±2%;H/R为36±2%;H/R + Fe2+为41±                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                              &