饮食和 1,1,1-三氯-2,2-双(对氯苯基)乙烷(DDT)对微粒体羟化酶的影响以及对大鼠四氯化碳中毒敏感性的影响。
The effect of diet and 1,1,1-trichloro-2,2-bis-(p-chlorophenyl)ethane (DDT) on microsomal hydroxylating enzymes and on sensitivity of rats to carbon tetrachloride poisoning.
机构信息
Toxicology Research Unit, Medical Research Council Laboratories, Woodmansterne Road, Carshalton, Surrey, and Department of Pathology, Royal Free Hospital, London, W.C. 1.
出版信息
Biochem J. 1966 Aug;100(2):564-71. doi: 10.1042/bj1000564.
Abstract
- Protein-depleted rats are resistant to the lethal effects of carbon tetrachloride. The LD(50) is 6.4ml./kg. in stock rats and 14.7ml./kg. in rats fed on protein-free diets. 2. Protein-depleted rats are resistant to carbon tetrachloride in its effect on the liver as judged by histology, accumulation of liver water, and plasma enzyme and bilirubin measurement. 3. The protection is present after feeding rats on a no-protein diet for 4 days. It is present after feeding rats on a 3%-casein diet, and partly found after feeding rats on a 6%-casein diet. 4. The activities of the microsomal enzymes that demethylate Pyramidon and hydroxylate benzopyrene in the liver fall by over 80% in rats fed on the no-protein diet for 4 days or more, or in rats fed on a 3%-casein diet. A 50% fall is found in rats fed on a 6%-casein diet. 5. A single dose of DDT or three doses of phenobarbitone cause increased microsomal enzyme activity in protein-depleted rats. 6. The animals are then sensitive to the lethal and liver-damaging effects of carbon tetrachloride. 7. DDT dosage also leads to increased sensitivity to carbon tetrachloride in rats fed on stock diets. 8. These findings support the hypothesis that carbon tetrachloride is metabolized by microsomal enzymes to form the true toxic compound.
摘要
缺乏蛋白质的大鼠对四氯化碳的致死作用有抵抗力。 stock 大鼠的 LD(50)为 6.4ml./kg.,而无蛋白饮食喂养的大鼠的 LD(50)为 14.7ml./kg.。
从组织学、肝含水量、血浆酶和胆红素测定来看,缺乏蛋白质的大鼠对四氯化碳在肝脏中的作用有抵抗力。
大鼠用无蛋白饮食喂养 4 天后即可获得保护。用 3%酪蛋白饮食喂养大鼠也可获得保护,而用 6%酪蛋白饮食喂养大鼠则部分获得保护。
用无蛋白饮食喂养大鼠 4 天以上或用 3%酪蛋白饮食喂养大鼠,大鼠肝内微粒体酶分解 Pyramidon 和羟化苯并芘的活性下降超过 80%,而用 6%酪蛋白饮食喂养大鼠则下降 50%。
单次给予滴滴涕或三次给予苯巴比妥均可使缺乏蛋白质的大鼠的微粒体酶活性增加。
动物对四氯化碳的致死和肝损伤作用变得敏感。
滴滴涕剂量也会导致用 stock 饮食喂养的大鼠对四氯化碳的敏感性增加。
这些发现支持了四氯化碳通过微粒体酶代谢形成真正有毒化合物的假说。
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