Multiple-endpoint mutagenesis with Chinese hamster ovary (CHO) cells: evaluation with eight carcinogenic and non-carcinogenic compounds.

Molecular toxicology Pub Date : 1987-04-01
A W Hsie, J R San Sebastian, S W Perdue, R L Schenley, M D Waters
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Abstract

Previously, we have shown that Chinese hamster ovary (CHO) cells are useful for quantifying chemical-induced gene mutations. We have defined the conditions of a Multiplex CHO System which permits determination of mutagen-induced chromosome aberration, and sister chromatid exchange (SCE) in addition to cytotoxicity and gene mutation in the same treated culture. This allows us to extend the spectrum of quantitative mutagenesis to include clastogenic endpoints. In the present study, we used four carcinogenic/noncarcinogenic pairs to validate the relative utility and sensitivity of each endpoint, and to study the interrelationship of these four distinct biological effects. These compounds include the direct-acting carcinogens N-methyl-N'-nitro-N-nitrosoguanidine (MNNG), ICR 170 and their noncarcinogenic analogue N-methyl-N'-nitroguanidine (MNG) and ICR 170-OH, and the procarcinogens benzo[a]pyrene (B[a]P) and dimethylnitrosamine (DMN) and their noncarcinogenic analogues pyrene and dimethylamine (DMA) respectively. A rat liver homogenate preparation (S9) was used to assay for the biological activities of procarcinogens. Under our experimental conditions, we observed that carcinogens DMN, B[a]P, MNNG and ICR 170, but not their noncarcinogenic counterparts, showed all four biological effects. Our studies with these chemicals showed that cytotoxicity does not necessarily correlate with any of the genetic endpoints. On a molar basis, noncarcinogens, pyrene and ICR 170-OH show similar toxicity to carcinogens B[a]P and ICR 170, respectively. The other two non-carcinogenic analogues, DMA and MNG, exhibit minimal toxicity at concentrations 10-1,000 times higher than cytotoxic concentrations of the corresponding carcinogens, DMN and MNNG. In general, gene mutation and SCE are more sensitive than chromosome aberration assay. The gene mutation assay is more specific than SCE and chromosome aberration assays since none of the noncarcinogens exhibit a detectable response in the gene mutational assay. ICR 170 and MNNG are much more active than B[a]P and DMN as ranked on a molar basis. These results indicate that the Multiplex CHO System is capable of discriminating divergent structural classes of carcinogenic and noncarcinogenic compounds, such as the eight chemicals chosen for our study.

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中国仓鼠卵巢(CHO)细胞的多终点诱变:8种致癌和非致癌化合物的评价。
先前,我们已经证明中国仓鼠卵巢(CHO)细胞可用于定量化学诱导的基因突变。我们已经定义了多重CHO系统的条件,该系统可以测定诱变剂诱导的染色体畸变,姐妹染色单体交换(SCE)以及相同处理培养中的细胞毒性和基因突变。这使我们能够扩展定量诱变的范围,以包括致裂终点。在本研究中,我们使用四种致癌/非致癌对来验证每个终点的相对效用和敏感性,并研究这四种不同生物效应的相互关系。这些化合物包括直接作用致癌物n -甲基-n′-硝基-n -亚硝基胍(MNNG)、icr170及其非致癌物类似物n -甲基-n′-硝基胍(MNG)和icr170 - oh,以及致癌物苯并[a]芘(B[a]P)和二甲基亚硝胺(DMN)及其非致癌物类似物芘和二甲胺(DMA)。采用大鼠肝脏匀浆制剂(S9)测定致癌物原的生物活性。在我们的实验条件下,我们观察到致癌物DMN, B[a]P, MNNG和icr170,而不是它们的非致癌物,表现出这四种生物效应。我们对这些化学物质的研究表明,细胞毒性不一定与任何遗传终点相关。在摩尔基础上,非致癌物,芘和icr170 - oh分别表现出与致癌物B[a]P和icr170相似的毒性。另外两种非致癌类似物,DMA和MNG,在浓度比相应致癌物DMN和MNNG的细胞毒性浓度高10- 1000倍时表现出最小的毒性。总的来说,基因突变和SCE比染色体畸变检测更敏感。基因突变试验比SCE和染色体畸变试验更具有特异性,因为在基因突变试验中没有一种非致癌物表现出可检测的反应。icr170和MNNG在摩尔基础上比B[a]P和DMN更活跃。这些结果表明,多重CHO系统能够区分不同结构类别的致癌和非致癌化合物,例如我们研究中选择的八种化学物质。
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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