棉花烟雾吸入诱导的大鼠肺损伤模型中的氧化应激
OXIDATIVE STRESS IN A RAT MODEL OF COTTON SMOKE INHALATION-INDUCED PULMONARY INJURY.
作者信息
Han Zhi-Hai, Jiang Yi, Duan Yun-You, Wang Xiao-Yang, Huang Yan, Fang Ting-Zheng
机构信息
Pulmonary and Critical Care Medicine of PLA Navy General Hospital, Clinical Medical College of Navy, Second Military Medical University, Beijing 10048, China.
Political Department Clinic of Shenyang Military Area Command, Shenyang 110032, China.
出版信息
Afr J Tradit Complement Altern Med. 2016 Aug 12;13(5):132-138. doi: 10.21010/ajtcam.v13i5.17. eCollection 2016.
BACKGROUND
Smoke inhalation injury refers to airway and lung parenchyma injury and general chemical damage caused by inhaling toxic gases and substances. The aim of this study was to explore the oxidative stress mechanism of cotton smoke inhalation-induced pulmonary injury in a rat model.
MATERIALS AND METHODS
Eighteen male Sprague-Dawley rats were randomly divided into control group, 6 h group, and 24 h group (six rats in each group), which duplicated previous rat cotton smoke-inhalation injury models. Rats in 6 h and 24 h groups were euthanised at 6 h and 24 h after smoke inhalation, respectively. ELISA method was used to detect indicators in the rats' lung tissue. Quantitative iNOS mRNA and γ-GCS mRNA measurements were performed using a fluorescence PCR method.
RESULTS
The concentrations of MDA, NO, iNOS, γ-GCS, iNOS mRNA, and the relative expression of γ-GCS mRNA in the rats' lung tissues in 6 h and 24 h groups were higher than control group ( < 0.05), and the concentration of NO and relative expressions of iNOS mRNA and γ-GCS mRNA in 24 h group were significantly higher than 6 h group ( < 0.05). The concentrations of GSH in 24 h and 6 h groups were significantly lower than control group ( < 0.05), and that in 24 h group was even significantly lower than 6 h group ( < 0.05).
CONCLUSION
In rats with cotton smoke inhalation-induced pulmonary injury, the increased iNOS mRNA transcription can cause increase of iNOS synthesis and promotion of NO synthesis. The increased γ-GCS mRNA transcription can cause increase of γ-GCS synthesis and but decrease of GSH concentration. The activation of the antioxidant system is insufficient to combat oxidative stress damage. So the oxidant/antioxidant system is imbalanced, leading to gradual aggravation of lung injury.
背景
烟雾吸入性损伤是指吸入有毒气体和物质所导致的气道和肺实质损伤以及全身性化学损伤。本研究旨在探讨大鼠棉花烟雾吸入性肺损伤模型中氧化应激机制。
材料与方法
将18只雄性Sprague-Dawley大鼠随机分为对照组、6小时组和24小时组(每组6只),复制先前的大鼠棉花烟雾吸入性损伤模型。6小时组和24小时组的大鼠分别在烟雾吸入后6小时和24小时处死。采用ELISA法检测大鼠肺组织中的指标。使用荧光PCR法进行iNOS mRNA和γ-GCS mRNA定量测定。
结果
6小时组和24小时组大鼠肺组织中MDA、NO、iNOS、γ-GCS、iNOS mRNA的浓度以及γ-GCS mRNA的相对表达均高于对照组(P<0.05),且24小时组中NO的浓度以及iNOS mRNA和γ-GCS mRNA的相对表达均显著高于6小时组(P<0.05)。24小时组和6小时组中GSH的浓度均显著低于对照组(P<0.05),且24小时组中GSH的浓度甚至显著低于6小时组(P<0.05)。
结论
在大鼠棉花烟雾吸入性肺损伤中,iNOS mRNA转录增加可导致iNOS合成增加并促进NO合成。γ-GCS mRNA转录增加可导致γ-GCS合成增加,但GSH浓度降低。抗氧化系统的激活不足以对抗氧化应激损伤。因此,氧化/抗氧化系统失衡,导致肺损伤逐渐加重。
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