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Within-day and between-day repeatability of measurements with an electronic nose in patients with COPD.电子鼻在 COPD 患者中测量的日内和日间重复性。
J Breath Res. 2013 Mar;7(1):017103. doi: 10.1088/1752-7155/7/1/017103. Epub 2013 Feb 27.
2
The electronic nose in respiratory medicine.电子鼻在呼吸医学中的应用。
Respiration. 2013;85(1):72-84. doi: 10.1159/000340044. Epub 2012 Sep 25.
3
Update in acute lung injury and mechanical ventilation 2011.2011年急性肺损伤与机械通气的进展
Am J Respir Crit Care Med. 2012 Jul 1;186(1):17-23. doi: 10.1164/rccm.201203-0582UP.
4
Methods for the determination of plasma or tissue glutathione levels.血浆或组织谷胱甘肽水平的测定方法。
Methods Mol Biol. 2012;889:315-24. doi: 10.1007/978-1-61779-867-2_20.
5
Thioredoxin reductase inhibition elicits Nrf2-mediated responses in Clara cells: implications for oxidant-induced lung injury.硫氧还蛋白还原酶抑制可诱导 Clara 细胞中 Nrf2 介导的反应:对氧化应激诱导的肺损伤的影响。
Antioxid Redox Signal. 2012 Nov 15;17(10):1407-16. doi: 10.1089/ars.2011.4377. Epub 2012 Jun 25.
6
Lipopolysaccharide-induced cyclooxygenase-2 expression in mouse transformed Clara cells.脂多糖诱导小鼠转化的克拉拉细胞中环氧合酶-2的表达
Cell Physiol Biochem. 2012;29(1-2):213-22. doi: 10.1159/000337602. Epub 2012 Mar 1.
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Non-invasive biomarkers of lung inflammation in smoking subjects.吸烟人群肺部炎症的无创生物标志物。
Curr Med Chem. 2012;19(2):187-96. doi: 10.2174/092986712803414204.
8
Nuclear magnetic resonance-based metabolomics of exhaled breath condensate: methodological aspects.基于核磁共振的呼出气冷凝物代谢组学:方法学方面。
Eur Respir J. 2012 Feb;39(2):498-500. doi: 10.1183/09031936.00036411.
9
Hepatocyte DNA replication in growing liver requires either glutathione or a single allele of txnrd1.生长中的肝脏中的肝细胞 DNA 复制需要谷胱甘肽或 txnrd1 的单个等位基因。
Free Radic Biol Med. 2012 Feb 15;52(4):803-10. doi: 10.1016/j.freeradbiomed.2011.11.025. Epub 2011 Dec 8.
10
NMR spectroscopy metabolomic profiling of exhaled breath condensate in patients with stable and unstable cystic fibrosis.稳定和不稳定囊性纤维化患者呼出气冷凝物的 NMR 光谱代谢组学分析。
Thorax. 2012 Mar;67(3):222-8. doi: 10.1136/thoraxjnl-2011-200072. Epub 2011 Nov 21.

硫氧还蛋白还原酶-1 抑制剂金硫葡糖可减轻急性呼吸窘迫综合征小鼠模型的肺损伤并提高存活率。

The thioredoxin reductase-1 inhibitor aurothioglucose attenuates lung injury and improves survival in a murine model of acute respiratory distress syndrome.

机构信息

1 Center for Perinatal Research, The Research Institute at Nationwide Children's Hospital , Columbus, Ohio.

出版信息

Antioxid Redox Signal. 2014 Jun 10;20(17):2681-91. doi: 10.1089/ars.2013.5332. Epub 2014 Feb 6.

DOI:10.1089/ars.2013.5332
PMID:24295151
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4026403/
Abstract

AIMS

Inflammation and oxygen toxicity increase free radical production and contribute to the development of acute respiratory distress syndrome (ARDS), which is a significant cause of morbidity and mortality in intensive care patients. We have previously reported increased glutathione (GSH) levels in lung epithelial cells in vitro and attenuated adult murine hyperoxic lung injury in vivo after pharmacological thioredoxin reductase-1 (TrxR1) inhibition. Using a murine ARDS model, we tested the hypothesis that aurothioglucose (ATG) treatment increases pulmonary GSH levels, attenuates lung injury, and decreases mortality in a GSH-dependent manner.

RESULTS

Adult mice received a single intratracheal dose of 0.375 μg/g lipopolysaccharide (LPS) 12 h before a single intraperitoneal injection of 25 mg/kg ATG. Control mice received intratracheal and/or intraperitoneal saline. Mice were then exposed to room air or hyperoxia (>95% O2). Lung injury was assessed by bronchoalveolar lavage protein concentrations. Expression of glutamate-cysteine ligase modifier subunit (GCLM), GSH, cytokines, and chemokines was determined. Exposure to LPS/hyperoxia induced inflammation and lung injury. ATG treatment significantly attenuated lung injury, increased lung GCLM expression and GSH levels, and decreased mortality. GSH depletion completely prevented the protective effects of ATG in LPS/hyperoxia-exposed mice.

INNOVATION

ATG treatment significantly attenuates lung injury and enhances survival in a clinically relevant murine model of ARDS. The protective effects of ATG are GSH dependent.

CONCLUSION

Augmentation of GSH systems by TrxR1 inhibition could represent a promising therapeutic approach to attenuate oxidant-mediated lung injury and improve patient outcomes.

摘要

目的

炎症和氧毒性会增加自由基的产生,并导致急性呼吸窘迫综合征(ARDS)的发生,这是重症监护患者发病率和死亡率高的一个重要原因。我们之前的研究表明,在体外培养的肺上皮细胞中,硫氧还蛋白还原酶 1(TrxR1)的药理学抑制剂可增加谷胱甘肽(GSH)的水平,并减轻成年小鼠的高氧性肺损伤;在 ARDS 模型中,我们通过实验验证了这样一个假说,即金硫葡萄糖(ATG)治疗可通过增加肺 GSH 水平、减轻肺损伤和降低死亡率来发挥作用,而这种作用依赖于 GSH。

结果

成年小鼠在接受脂多糖(LPS)0.375μg/g 气管内滴注 12 小时后,给予 25mg/kg ATG 单次腹腔内注射。对照组小鼠接受气管内和/或腹腔内生理盐水注射。然后,将小鼠暴露于常氧或高氧(>95%O2)环境中。通过支气管肺泡灌洗蛋白浓度评估肺损伤。测定谷氨酸-半胱氨酸连接酶修饰亚基(GCLM)、GSH、细胞因子和趋化因子的表达。LPS/高氧暴露会引发炎症和肺损伤。ATG 治疗可显著减轻肺损伤,增加肺 GCLM 表达和 GSH 水平,并降低死亡率。GSH 耗竭完全阻止了 ATG 在 LPS/高氧暴露小鼠中的保护作用。

创新点

ATG 治疗可显著减轻 ARDS 临床相关的小鼠模型中的肺损伤,并提高生存率。ATG 的保护作用依赖于 GSH。

结论

通过抑制 TrxR1 增加 GSH 系统可能是一种有前途的治疗方法,可减轻氧化应激介导的肺损伤,改善患者的预后。