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| Title: | 乙醛與鎘(II),鉛(II),鉻(VI)等金屬離子 對中國倉鼠肺臟細胞複合毒性之探討
Synergistic Effect between Acetaldehyde and Metal Ions in the Cytotoxicity and Genotoxicity of V79 Cells in Vitro. |
| Authors: | 郭銘宏
Kuo, Ming-Hom |
| Contributors: | 中山醫學大學:醫學研究所;陳文貴 |
| Keywords: | 中國倉鼠肺臟細胞;乙醛;氯化鎘;氯化鉛;重鉻酸鉀;複合毒性
V79 cells;acetaldehyde;Cd(II);Pb(II);Cr(VI);synergistic effect |
| Date: | 1997 |
| Issue Date: | 2010-03-17T07:29:46Z (UTC)
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| Abstract: | 由於台灣地區地狹人稠,對於環境衝擊耐受之程度較低。因此, 本土環
境污染不但會破壞生態平衡,更極易對人體健康形成危害。由於人類環境
周遭往往不僅只有暴露一種環境毒物,有時會有兩種或兩種以上的環境污
染物。為了瞭解這些環境毒物彼此之間對於生物的影響,是否具有交互作
用,進而影響細胞的存活或造成細胞基因突變。關於這些環境毒物彼此之
間的交互作用,在目前文獻中的研究較少。 故本實驗以V79細胞(中國倉
鼠肺臟細胞)為研究對象, 探討乙醛和重金屬化合物對於細胞毒性及基因
毒性之複合效應。 以下列三種型式來探討; 高劑量的短期暴露4小時(乙
醛 2.5-20.0mM; 氯化鎘12.5 - 2 0 0μ M; 氯化 鉛: 0.25-2.00mM; 重
鉻酸鉀: 4- 32μ M )和低劑量長時間暴露72小時(乙醛250 - 1000μ
M ;氯化鎘: 1.25 - 10.00μ M ; 氯化鉛: 12.5- 100.0μ M ;
重鉻酸鉀: 3.2-0.4μ M ) 及持續性暴露乙醛及此三種重金屬化合物對
於V79細胞產生之效應。 除了研究這兩種毒物單一暴露及兩者複合暴露對
於細胞存活率及細胞對Alamar blue代謝活性的影響, 另外對於hprt (
hypoxanthine phosphoribosyl transferase)基因突變的效應進行研究。
由結果顯示可知細胞存活率及細胞代謝活性, 均隨著毒物劑量的增加而
下降(p<0.05),而hprt基因突變率亦隨之上升(p<0.05).在相同細胞毒性
濃度時,複合暴露此兩種毒物,除了細胞存活率及細胞代謝活性比單一相
同細胞毒性濃度的毒物下降外, hprt基因突變率更顯著上升。則當此兩
類毒物共同暴露時,對V79細胞之細胞毒性及基因毒性均有顯著之加成性
。 最後隨著持續性低劑量的毒物暴露次數的增加, V79細胞對於毒物的
耐受性明顯增加(P<0.05) , 而且細胞突變數目亦顯著增加(P<0.05) 。
我們也討論到暴露於這些重金屬污染的作業廠工人, 若有酗酒的習慣或
同時暴露於含有乙醛的環境中, 則對於人體有加成性的傷害。
As a crowdly living place, Taiwan is highly populated and is
thus sensitivelyto environmental hazard. Therefore, the
emissions of the pollutant has not only disrupted the balance of
environment but also cause severse hazard to human being.
According to literature, most have studied on the toxicity of
singlechemical. However, considering the fact that human
exposure to multiple paths and varietal chemicals, the
biological combination or synergistic/antagonistic effect is
necessary to investigate. To understand the interaction between
biological system and cytotoxicity or genotoxicity, we have
forcused on thechemical mixtures in vitro test. By exposure V79
cell line in vitro to acetaldehyde, Cadmium Chloride, Lead
Chloride and Potassium Dichromate , a series of test has been
used to investigate these agents which act as synergistic /
independent or cumulative ofeach other in producing cytotoxicity
or genotoxicity. Three pattern of exposing interval has been
proceeded, high dosage in shot interval (4 hours,
Acetaldehyde12.5~20mM, Cadmium Chloride 2 0 0μM , Lead
Chloride 0.25-2.00mM, Potassium Dichromate 4-3.2μ M ) and long
interval at low dosage (72 hours , Acetaldehyde250 - 1000μ M
;Cadmium Chloride 1.25 - 10.00μ M , Lead Chloride 12.5-100.0μ
M ; Potassium Dichromate 0.4- 3.2μ M ). In order to see the
cumulativeeffect of toxic agent, third exposing pattern has been
proceeded by introducingthe agent from 1 to 3 times to the cell.
Each exposure has been left enough time to incubate and
rejustify the cell number. Our studies has shown that V79 cells
reduced its viability and metabolicactivity as the dose of
exposure increase. One of the claslogenic indicator hprtgene
(hypoxanthine phosphoribosyl transferase) mutation ratio
increase ,evenexposing dose the additive synthetic effect has
bound V79 cell exposure toacetaldehyde and these metals . As the
elevation continously exposure number, the enhancement of V79
cell tolerence has been observed , and the hprt gene mutation
ratio also increase.As the acetaldehyde is the major metabolic
inter-mediate of alcohol in human body, the dietary and
occupational intake of acet-aldehyde have mixed exposure to a
number of metalic compounds give rise to thecytotoxicity and
genotoxicity. |
| URI: | http://140.128.138.153:8080/handle/310902500/812 |
| Appears in Collections: | [醫學研究所] 博碩士論文
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| 學位論文-郭銘宏.pdf | 碩士論文 | 4865Kb | Adobe PDF | 593 | View/Open |
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