Frameshift mutagenesis by nitracrine analogues in wild-type, uvrB, polA and recA strains of Salmonella typhimurium, with and without plasmid pKM101

Lynnette R. Ferguson, Pamela M. Turner
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引用次数: 10

Abstract

The mutagenic potential of 9-[(3-dimethylaminopropyl)amino]-acridine and its 1-, 2-, 3- and 4-nitro derivatives was studied in several strains of Salmonella typhimurium carrying the frameshift marker hisC3076. The strains all carried deep rough (rfa) mutations, and were either wild-type with respect to DNA repair capacity or carried recA, uvrB, polA1 or polA3 (amber) mutations. Derivatives with and without plasmid pKM101 were also studied.

The des-nitro compound resembled 9 aminocridine and other simple intercalating compounds. Both toxicity and mutagenesis were apparently unaffected by the uvrB and recA mutations or by the presence of plasmid pKM101. However, mutagenicity was reduced by the polA1 mutation, and virtually eliminated by the polA3 mutation. The drug was substantially more toxic in the latter, slightly more toxic in the former, of these polA strains. Plasmid pKM101 enhanced mutagenesis and protected from toxicity in both polA1 and polA3 strains, although it did not restore either of these parameters to the level in the wild-type strain. The 2-nitro compound was generally similar to the des-nitro compound, except that it was considerably more toxic and apparently non-mutagenic in the recA-bearing strain. By contrast, mutagenicity of the 3- and 4-nitro compounds was enhanced by the uvrB mutation and by the presence of the plasmid. These compounds were highly toxic but non-mutagenic in the recA strain, and showed some increased toxicity in polA1 and polA3 strains.

The 1-nitro compound has been previously found to cross-link DNA. Unlike well-characterised cross-linkers such as mitomycin C it was highly mutagenic in the uvrB strain, and this mutagenesis was enhanced by plasmid pKM101, but eliminated by the recA mutation. At high doses, where the drug was completely toxic towards uvrB or recA-carrying strains, it became mutagenic in the DNA-repair-proficient strains. This ‘high-dose’ mutagenesis was enhanced by plasmid pKM101, but reduced by the polA1 mutation and almost eliminated by the polA3 mutation. Although there are several possible interpretations of these data, they are compatible with the suggestion that the lesion induced by high doses (but not by low doses) of nitracine is a cross-link, but that this is not the major mutagenic lesion.

硝酸类似物对野生型、uvrB型、polA型和recA型鼠伤寒沙门菌携带和不携带质粒pKM101的移码突变研究
研究了9-[(3-二甲氨基丙基)氨基]-吖啶及其1-、2-、3-和4-硝基衍生物对携带移码标记hisC3076的鼠伤寒沙门菌的致突变潜力。所有菌株都携带深粗糙(rfa)突变,在DNA修复能力方面为野生型或携带recA, uvrB, polA1或polA3(琥珀)突变。还研究了带和不带质粒pKM101的衍生物。该去硝基化合物类似于氨基吡啶和其他简单的插层化合物。毒性和诱变明显不受uvrB和recA突变或质粒pKM101存在的影响。然而,polA1突变降低了致突变性,而polA3突变几乎消除了致突变性。在这些polA -菌株中,药物对后者的毒性更大,对前者的毒性略大。质粒pKM101增强了polA1 -和polA3 -菌株的诱变能力,并保护其免受毒性作用,尽管它没有将这些参数恢复到野生型菌株的水平。2-硝基化合物大体上与去硝基化合物相似,除了它在含reca菌株中毒性更大,而且显然不具有诱变性。相比之下,3-和4-硝基化合物的诱变性由于uvrB突变和质粒的存在而增强。这些化合物对recA -菌株具有高毒性,但不具有诱变性,对polA1 -和polA3 -菌株的毒性有所增加。这种1-硝基化合物曾被发现能交联DNA。与具有良好特征的交联剂如丝裂霉素C不同,它在uvrB -菌株中具有高度诱变性,这种诱变性通过质粒pKM101增强,但被recA突变消除。在高剂量下,药物对携带uvrB -或reca的菌株完全有毒,它对dna修复熟练的菌株具有诱变性。这种“高剂量”诱变作用被质粒pKM101增强,但被polA1突变减弱,几乎被polA3突变消除。虽然对这些数据有几种可能的解释,但它们都一致认为,高剂量(而不是低剂量)硝基碱引起的损害是交联的,但这不是主要的致突变损害。
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