中国医药科学
中國醫藥科學
중국의약과학
CHINA MEDICINE AND PHARMACY
2014年
3期
34-36
,共3页
氯化镉%猪肾近曲小管上皮细胞%氧化应激
氯化鎘%豬腎近麯小管上皮細胞%氧化應激
록화력%저신근곡소관상피세포%양화응격
Cadmium chloride%LLC-PK1%Oxidative stress
目的:探讨镉诱导猪肾近曲小管上皮细胞(LLC-PK1)毒性及氧化应激在其中的作用。方法用不同浓度的氯化镉刺激细胞9h和25μmol/L的氯化镉刺激细胞不同时间,采用Formazan 分析细胞存活率反映镉对细胞的损伤程度;以还原型谷胱甘肽(GSH)为靶点,影响GSH浓度的两个试剂BSO和NAC,观察镉诱导细胞损伤中氧化应激的作用。结果随着氯化镉染毒时间延长,细胞存活率下降,同样,随着剂量的增加,细胞的存活率逐渐也下降。同时BSO加重镉诱导的细胞损伤,NAC完全抑制镉诱导的细胞损伤。结论氯化镉对LLC- PK1细胞具有明显的毒性,细胞损伤是通过氧化应激介导,且与细胞内的谷胱甘肽的水平有着密切关系。
目的:探討鎘誘導豬腎近麯小管上皮細胞(LLC-PK1)毒性及氧化應激在其中的作用。方法用不同濃度的氯化鎘刺激細胞9h和25μmol/L的氯化鎘刺激細胞不同時間,採用Formazan 分析細胞存活率反映鎘對細胞的損傷程度;以還原型穀胱甘肽(GSH)為靶點,影響GSH濃度的兩箇試劑BSO和NAC,觀察鎘誘導細胞損傷中氧化應激的作用。結果隨著氯化鎘染毒時間延長,細胞存活率下降,同樣,隨著劑量的增加,細胞的存活率逐漸也下降。同時BSO加重鎘誘導的細胞損傷,NAC完全抑製鎘誘導的細胞損傷。結論氯化鎘對LLC- PK1細胞具有明顯的毒性,細胞損傷是通過氧化應激介導,且與細胞內的穀胱甘肽的水平有著密切關繫。
목적:탐토력유도저신근곡소관상피세포(LLC-PK1)독성급양화응격재기중적작용。방법용불동농도적록화력자격세포9h화25μmol/L적록화력자격세포불동시간,채용Formazan 분석세포존활솔반영력대세포적손상정도;이환원형곡광감태(GSH)위파점,영향GSH농도적량개시제BSO화NAC,관찰력유도세포손상중양화응격적작용。결과수착록화력염독시간연장,세포존활솔하강,동양,수착제량적증가,세포적존활솔축점야하강。동시BSO가중력유도적세포손상,NAC완전억제력유도적세포손상。결론록화력대LLC- PK1세포구유명현적독성,세포손상시통과양화응격개도,차여세포내적곡광감태적수평유착밀절관계。
Objective To investigate the possible mechanisms of cadmium chloride-induced LLC-PK1 cell toxicity and the role of oxidative stress during the progress. Methods LLC-PK1 cells were treated with different concentrations of cadmium chloride for 9h,and different times at the same dose of cadmium chloride (25μmol/L), respectively.Formazan was used to analyze the cells viability.GSH was taken as a target,and the role of oxidative stress in the progress of cadmium chloride-induced cell injury was assessed by BSO and NAC. Results With the increasing of treatment time and cadmium concentration,Cadmium-induced cell toxicity became more serious and the viability of cells decreased.The cell susceptibility to cadmium chloride could be substantially altered by glutathione (GSH)-modulating agents.Depletion of GSH with BSO increased, whereas supply of cells with NAC decreased subsequent cell injury. Conclusion Cadmium chloride induced cell injury through oxidative stress,which was closely associated with the expression level of intracellular GSH.
