烟草科技
煙草科技
연초과기
TOBACCO SCIENCE & TECHNOLOGY
2015年
6期
52-56
,共5页
张世敏%李翔%谢复炜%谢剑平
張世敏%李翔%謝複煒%謝劍平
장세민%리상%사복위%사검평
卷烟烟气%总粒相物(TPM)%人肺腺癌细胞(A549)%谷胱甘肽(GSH)%细胞外超氧化物歧化酶(EC-SOD)%氧化应激
捲煙煙氣%總粒相物(TPM)%人肺腺癌細胞(A549)%穀胱甘肽(GSH)%細胞外超氧化物歧化酶(EC-SOD)%氧化應激
권연연기%총립상물(TPM)%인폐선암세포(A549)%곡광감태(GSH)%세포외초양화물기화매(EC-SOD)%양화응격
Cigarette smoke%Total particulate matter (TPM)%Human lung adenocarcinoma cell (A549)%Glutathione(GSH)%Extracellular superoxide dismutase(EC-SOD)%Oxidative stress
为研究卷烟烟气总粒相物(TPM)对人肺腺癌细胞(A549)的氧化损伤,捕集3R4F参比卷烟主流烟气的TPM,对A549细胞进行染毒,采用中性红细胞毒性法测试TPM与A549细胞存活率的剂量-效应关系,检测了细胞内谷胱甘肽(GSH)和细胞外超氧化物歧化酶(EC-SOD)两种氧化应激指标。结果表明:①TPM与A549细胞存活率之间存在良好的剂量-效应关系。②细胞发生氧化应激时,细胞内还原态谷胱甘肽和氧化态谷胱甘肽比值(GSH/GSSG)相对于阴性对照组有显著降低,且不随染毒时间的增加而变化;EC-SOD在染毒4 h后没有显著增加,但24 h后有显著增加。
為研究捲煙煙氣總粒相物(TPM)對人肺腺癌細胞(A549)的氧化損傷,捕集3R4F參比捲煙主流煙氣的TPM,對A549細胞進行染毒,採用中性紅細胞毒性法測試TPM與A549細胞存活率的劑量-效應關繫,檢測瞭細胞內穀胱甘肽(GSH)和細胞外超氧化物歧化酶(EC-SOD)兩種氧化應激指標。結果錶明:①TPM與A549細胞存活率之間存在良好的劑量-效應關繫。②細胞髮生氧化應激時,細胞內還原態穀胱甘肽和氧化態穀胱甘肽比值(GSH/GSSG)相對于陰性對照組有顯著降低,且不隨染毒時間的增加而變化;EC-SOD在染毒4 h後沒有顯著增加,但24 h後有顯著增加。
위연구권연연기총립상물(TPM)대인폐선암세포(A549)적양화손상,포집3R4F삼비권연주류연기적TPM,대A549세포진행염독,채용중성홍세포독성법측시TPM여A549세포존활솔적제량-효응관계,검측료세포내곡광감태(GSH)화세포외초양화물기화매(EC-SOD)량충양화응격지표。결과표명:①TPM여A549세포존활솔지간존재량호적제량-효응관계。②세포발생양화응격시,세포내환원태곡광감태화양화태곡광감태비치(GSH/GSSG)상대우음성대조조유현저강저,차불수염독시간적증가이변화;EC-SOD재염독4 h후몰유현저증가,단24 h후유현저증가。
In order to evaluate the oxidative stress of human lung adenocarcinoma cells (A549 cells) induced by total particulate matter (TPM) in cigarette smoke, A549 cells were exposed to the TPM of mainstream smoke of 3R4F reference cigarette. The dose-response relationship between TPM dose and the viability of A549 cells was tested by the neutral red assay, and two indicators of oxidative stress, intracellular glutathione (GSH) and extracellular superoxide dismutase (EC-SOD), were determined. The results indicated that: 1)A good dose-response relationship existed between TPM dose and the viability of A549 cells. 2) When oxidative stress occurred, the rate of reduced and oxidized state glutathiones (GSH/GSSG)in cells significantly decreased comparing with negative control, it did not change with the increase of exposure duration. EC-SOD did not increase significantly in 4 hours, while it increased significantly after 24-hour exposure. The experimental results provide a reference for the research of cells’oxidative stress induced by cigarette smoke.