Effects of caloric restriction on rodent drug and carcinogen metabolizing enzymes: implications for mutagenesis and cancer

Mutation Research/DNAging Pub Date : 1993-12-01 DOI:10.1016/0921-8734(93)90021-T

Mikhail Manjgaladze , Shu Chen , Lynn T. Frame , John E. Seng , Peter H. Duffy , Ritchie J. Feuers , Ronald W. Hart , Julian E.A. Leakey

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引用次数: 56

Abstract

Caloric restriction in rodents results in increased longevity and a decreased rate of spontaneous and chemically induced neoplasia. The low rates of spontaneous neoplasia and other pathologies have made calorically restricted rodents attractive for use in chronic bioassays. However, caloric restriction also alters hepatic drug metabolizing enzyme (DME) expression and so may also alter the biotransformation rates of test chemicals. These alterations in DME expression may be divided into two types: (1) those that are the direct result of caloric restriction itself and are detectable from shortly after the restriction is initiated; (2) those which are the result of pathological conditions that are delayed by caloric restriction. These latter alterations do not usually become apparent until late in the life of the organism. In rats, the largest direct effect of caloric restriction on liver DMEs is an apparent de-differentiation of sex-specific enzyme expression. This includes a 40–70% decrease in cytochrome P450 2C11 (CYP2C11) expression in males and a 20–30% reduction of corticosterone sulfotransferase activity in females. Changes in DME activities that occur late in life in calorically restricted rats include a stimulation of CYP2E1-dependent 4-nitrophenol hydroxylase activity and a delay in the disappearance of male-specific enzyme activities in senescent males. It is probable that altered DME expression is associated with altered metabolic activation of chemical carcinogens. For example the relative expression of hepatic CYP2C11 in ad libitum-fed or calorically restricted rats of different ages is closely correlated with the amount of genetic damage in 2-acetylaminofluorene- or aflatoxin B₁-pretreated hepatocytes isolated from rats of the same age and caloric intake. This suggests that altered hepatic drug and carcinogen metabolism in calorically restricted rats can influence the carcinogenicity of test chemicals.

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热量限制对啮齿动物药物和致癌物代谢酶的影响:对突变和癌症的影响

限制啮齿类动物的热量摄入可以延长寿命，降低自发和化学诱导的肿瘤发生率。自发瘤变和其他病理的低率使得热量限制的啮齿动物在慢性生物测定中具有吸引力。然而，热量限制也会改变肝脏药物代谢酶(DME)的表达，因此也可能改变试验化学品的生物转化率。二甲醚表达的这些改变可分为两种类型:(1)那些是热量限制本身的直接结果，并且在限制开始后不久就可以检测到;(2)因限制热量摄入而延迟的病理结果。这些后一种变化通常直到生物体生命的后期才变得明显。在大鼠中，热量限制对肝脏DMEs的最大直接影响是性别特异性酶表达的明显去分化。这包括男性细胞色素P450 2C11 (CYP2C11)表达降低40-70%，女性皮质酮硫转移酶活性降低20-30%。在热量受限的大鼠中，DME活性的变化发生在生命后期，包括cyp2e1依赖性4-硝基酚羟化酶活性的刺激和衰老雄性特异性酶活性消失的延迟。DME表达的改变很可能与化学致癌物代谢激活的改变有关。例如，在自由喂养或热量限制的不同年龄大鼠中，肝脏CYP2C11的相对表达与从相同年龄和热量摄入的大鼠中分离的2-乙酰氨基荧光或黄曲霉毒素b1预处理的肝细胞的遗传损伤程度密切相关。这表明热量限制大鼠肝脏药物和致癌物代谢的改变可以影响试验化学品的致癌性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Mutation Research/DNAging

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