Mandel H G, Judah D J, Neal G E
MRC Toxicology Unit, Carshalton, Surrey, UK.
Carcinogenesis. 1992 Oct;13(10):1853-7. doi: 10.1093/carcin/13.10.1853.
The hepatocarcinogenic responses of rats to aflatoxin B1 (AFB1) are believed to depend on microsomal activation of the toxin, followed by macromolecular binding. Dietary protein insufficiency is reported to reduce the level of microsomal metabolism, and therefore would be expected to reduce the AFB1-induced carcinogenicity. Indeed, diminished hepatocarcinogenicity in low-protein diet fed weanling rats that had received AFB1 has been reported. In the present study, carcinogenicity and other toxic effects of AFB1 (0.5 p.p.m.) fed to weanling male Fischer F344 rats on a low-protein diet (5%) or normal-protein (20%) diet for up to 8 weeks were examined. In our study, in contrast with the previous report, all animals that had survived some initial toxicity were found to have developed hepatic tumors or hyperplastic gamma-glutamyltransferase-positive foci a year later. The low-protein diet also produced sub-acute toxicity after AFB1 exposure in the weanling rats, leading to severe histological changes, and the death of about half the animals after 3-4 weeks of exposure. Animals fed an AFB1-containing normal-protein diet also exhibited AFB1-induced hepatocarcinogenicity, but not the sub-acute toxicity. The levels of hepatic enzymes involved in AFB1 metabolism were examined in animals fed the low- or normal-protein diets in the absence of AFB1. The low-protein diet, fed to 3 week weanlings for the subsequent 5 weeks, decreased hepatic cytochrome P450 levels, as well as the in vitro capacity of microsomal fractions to form AFB1-8,9-dihydrodiol, an index of AFB1-8,9-epoxide formation. Rats on a normal-protein diet did not show these changes. This discrepancy between the observed increase in sub-acute toxicity and decrease in microsomal activities in the low-protein fed animals implies that the toxic effects observed in these rats were not directly related to metabolic activation of the toxin. In contrast to the diminished microsomal in vitro AFB1 activation, however, in vivo AFB1-DNA adduct formation ability in rats receiving the low-protein diet in the absence of AFB1 was found to become elevated more rapidly during the 5 week experimental feeding period, compared with animals receiving the normal-protein diet. This was accompanied by a more rapid fall in the levels of AFB1-glutathione S-transferase isozyme activity in the low-protein fed animals. The results of this study on weanling rats support the importance of AFB1-GSH in protecting against the carcinogenic responses to AFB1, and probably also the sub-acute toxicity of the latter.(ABSTRACT TRUNCATED AT 400 WORDS)
大鼠对黄曲霉毒素B1(AFB1)的肝癌致癌反应被认为取决于该毒素的微粒体激活,随后是大分子结合。据报道,膳食蛋白质不足会降低微粒体代谢水平,因此预计会降低AFB1诱导的致癌性。事实上,已有报道称,给断奶大鼠喂食低蛋白饮食并给予AFB1后,其肝癌致癌性会降低。在本研究中,检测了给断奶雄性Fischer F344大鼠喂食低蛋白饮食(5%)或正常蛋白饮食(20%)长达8周,AFB1(0.5 ppm)的致癌性和其他毒性作用。在我们的研究中,与之前的报道相反,所有在经历了一些初始毒性后存活下来的动物在一年后都被发现发生了肝肿瘤或增生性γ-谷氨酰转移酶阳性病灶。低蛋白饮食在断奶大鼠接触AFB1后也产生了亚急性毒性,导致严重的组织学变化,约一半的动物在接触3 - 4周后死亡。喂食含AFB1正常蛋白饮食的动物也表现出AFB1诱导的肝癌致癌性,但没有亚急性毒性。在未接触AFB1的情况下,检测了喂食低蛋白或正常蛋白饮食的动物中参与AFB1代谢的肝酶水平。给3周龄断奶大鼠喂食5周的低蛋白饮食会降低肝细胞色素P450水平,以及微粒体部分形成AFB1 - 8,9 - 二氢二醇(AFB1 - 8,9 - 环氧化物形成的指标)的体外能力。喂食正常蛋白饮食的大鼠没有出现这些变化。在喂食低蛋白的动物中观察到的亚急性毒性增加和微粒体活性降低之间的这种差异表明,在这些大鼠中观察到的毒性作用与毒素的代谢激活没有直接关系。然而,与微粒体体外AFB1激活减少相反,在未接触AFB1的情况下,喂食低蛋白饮食的大鼠体内AFB1 - DNA加合物形成能力在5周的实验喂养期内比喂食正常蛋白饮食的动物升高得更快。这伴随着喂食低蛋白的动物中AFB1 - 谷胱甘肽S - 转移酶同工酶活性水平更快下降。这项针对断奶大鼠的研究结果支持了AFB1 - GSH在预防对AFB1的致癌反应以及可能预防后者的亚急性毒性方面的重要性。(摘要截断于400字)
