Cis-trans isomerization of nitrofuran derivatives by xanthine oxidase

Enzymatic cis-trans isomerization of nitrofuran derivatives was 3-(5-Nitro-2-furyl)-2-(2-furyl)-demonstrated with milk xanthine oxidase. acrylamide (AF-2) and 3-(5-nitro-2-furyl)-2-(5-bromo-2-furyl)acrylamide (NFBFA) were mainly converted from the cis to the trans form by this enzyme supplemented with an electron donor. This enzymatic reaction was further characterized with respect to its cofactor requirements. Finally, a new cis-trans isomerization mechanism, which is based on transfer of a single electron by a nitroreductase such as xanthine oxidase to a nitrofuran derivative to give the anion free radical, was proposed.     

Reversion of the 8-azaguanine resistant phenotype of variant Chinese hamster cells treated with alkylating agents and 5-brono-2'-deoxyuridine.

From cultures of V79 Chinese hamster cells, 10 independent clones of 8-azaguanine resistant cells were isolated and subcultured. Cells from all ten clones were resistant to 1 mg/ml levels of 8-azaguanine (8-AzG), contained less than 3% of the wild type levels of the enzyme, hypoxanthine guanine phosphoribosyl transferase (HGPRT), and were unable to grow in HAT medium. The ten clones were classified according to the conditions under which they reverted to the wild type phenotype. Clones in classes I and II reverted spontaneously with frequencies of 40-10(-5) and about 3-10(-5) respectively, and the reversion frequency was independent of the density of cells of all but one of the clones in the culture medium used. Class II clones evinced increased reversion frequencies with ethyl methanesulfonate (EMS) and N-methyl-N'-nitro-N-nitrosoguanidine (MNNG), and to a lesser extent with 5-bromo-2'-deoxyuridine (budR), suggesting that these clones contained point mutations in a locus which controls HGPRT activity. The processes of reversion and toxicity appeared to be associated. Class III clones did not revert spontaneously or with BUdR and MNNG, but did revert with EMS. The reversion frequency of class I clones was not increased after treatment with EMS, MNNG or BUdR.     

Mutagenic activity of carcinogenic and noncarcinogenic nitrofurans and of urine of rats fed these compounds

The nitrofurans, 2-(2-furyl)-3-(5-nitro-2-furyl)acrylamide (AF-2), N-[4-(5-nitro-2-furyl)-2-thiazolyl]formamide (FANFT), nitrofurantoin, 5-nitro-2-furoic acid, 5-nitro-2-furamidoxime, 5-nitrofurfurylidene diacetate and the urine of rats fed these compounds, were assayed for mutagenic activity in Salmonella typhimurium strains TA100 and TA100FR1. All the nitrofurans were mutagenic in the order: AF-2 and FANFT > nitrofurantoin > 5-nitro-2-furamidoxime > 5-nitrofurfurylidene diacetate > 5-nitro-2-furoic acid. Strain TA100 was more sensitive than TA100FR1 to the mutagenic influence of these nitrofurans. Only the urine of rats fed AF-2, FANFT and nitrofurantoin had mutagenic activity. Again, TA100 was more sensitive than TA100FR1. The mutagenicity of the urine was not increased by treatment with β-glucuronidase. AF-2, 2-amino-4-(5-nitro-2-furyl)thiazole (deformylated product of FANFT) and nitrofurantoin were excreted in the urine of rats fed these compounds; whereas the other nitrofurans were not excreted.     

A mutational assay system for L5178Y mouse lymphoma cells, using hypoxanthine-guanine-phosphoribosyl-transferase (HGPRT) -deficiency as marker. The occurrence of a long expression time for mutations induced by X-rays and EMS.

The development of a system for the detection of somatic cell mutation to hypoxanthine-guanine-phosphoribosyl-transferase (HGPRT) (EC 2.4.2.8) deficiency in L5178Y mouse lymphoma cells is described. The selection of mutant cells was not influenced by the concentration of the selective agent 6-thioguanine (6-TG). In addition, all the mutants selected, spontaneous as well as induced ones, showed a complete loss of HGPRT activity. In reconstruction experiments, in which mutant cells were mixed with wild-type cells, the recovery of mutant cells was only markedly influenced when wild-type cells were seeded in a cell density ten times higher than the one, 5-10(4) cells/ml, used in subsequent induction experiments. X-irradiation and treatment with ethyl methanesulfonate (EMS) increased in the mutation rate above the spontaneous background. A clear-cut dose-dependent mutagenic effect after exposure to X-rays was measured. The rate of induced mutations at the HGPRT locus in lymphoma cells was 1-3-10(-7) per R, as determined after exposures of 200, 300, 400, 500 and 600 R. The time the cells needed to express their mutations was much longer than 48 h. Further study of this phenomenon showed that the optimal expression time for TGr-resistant mutants in L5178Y cells was 6 to 7 days. No indication for a dose-dependent effect on the optimal expression of the mutants was found.     

Isolation and identification of urinary metabolites of AF-2 (3-(5-nitro-2-furyl)-2-(2-furyl)acrylamide) in rabbits

After oral administration of AF-2 (3-(5-nitro-2-furyl)-2-(2-furyl)acrylamide) to rabbits, the two unique metabolites, M-I and M-II, were isolated from the urine. M-I, yellow needles of mp 117°, was identified as a new type metabolite of nitrofuran derivative, 2-(β-carboxypropionyl)-3-(5-methylthio-2-furyl) acrylamide by its mass, ir and nmr spectrometries. M-II, yellow solid, appears to be cis-trans isomer of M-I considering from its uv and mass spectral data, and the behavior on tlc.     

Further evidence for the genetic origin of mutations in mammalian somatic cells: the effects of ploidy level and selection stringency on dose-dependent chemical mutagenesis to purine analogue resistance in Chinese hamster ovary cells.

Whether resistance to purine analogues 8-azaguanine (AG) and 6-thioguanine (TG) in mammalian cells is due to gene mutation or to epigenetic changes was investigated by an ethyl methanesulfonate (EMS) dose-dependent induced “resistance” to these analogues in two near-diploid (2N) and one tetraploid (4N) Chinese hamster ovary (CHO) cells. EMS produced higher cell killing in 2N than in 4N cells. In the 2N cells, EMS-induced mutations to TG (1.7 μg/ml) resistance increased approximately as a linear function of the dose from 0–400 μg/ml. However, EMS was ineffective in inducing such mutation in the 4N cells. These observations are consistent with the notion that the induced TG resistance arose as a result of mutation at the gene or chromosome level. In each cell type, both the “observed” spontaneous and the EMS-induced frequency to purine analogue resistance decreased with increasing concentration of purine analogues. However, among the “resistant” clones a high proportion of those selected at 1.2 and 3.0 μg/ml of AG, a small portion selected at 7.5 μg/ml of AG, and virtually none at 1.7 and 6.0 μg/ml of TG are capable of growth in medium containing aminopterin (10 μM). This suggests that, under less stringent selective conditions, some resistant variants were being selected through mechanisms not yet defined.     

The action of AF 2 on cultured hamster and human cells under aerobic and hypoxic conditions

AF 2 (2-(2-furyl)-3-(5-nitro-furyl)acrylamide) was toxic to Chinese hamster V 79 cells and normal human fibroblasts in aerobic media. However, the toxicity of the drug was increased many times by hypoxia. Similarly, the frequency of AF 2-induced azaguanine- and ouabain-resistant mutants of V 79 cells was much higher in hypoxia than under aerobic conditions. Both hamster V 79 cells and human fibroblasts metabolized AF 2 and other nitrofurans rapidly only under hypoxic conditions. Human fibroblasts were more sensitive to AF 2 both under aerobic conditions and in hypoxia than were V 79 cells under similar conditions. The Chinese hamster cells consistently gave survival curves with marked shoulders while human cells did not. Aerobic cultures of fibroblasts derived from xeroderma pigmentosum (XP) patients were markedly sensitive to AF 2 while fibroblasts from two ataxia telangeictasia patients had normal sensitivity. Under hypoxic conditions the sensitivity of both types of cells was increased but the XP line remained 5--10-fold more sensitive than normal or ataxia cells. These results suggest that the DNA lesions produced by AF 2 may be regarded as similar to those produced by ultraviolet light, at least in terms of their repairability in human cells.     

Mutagenic effect of orally given AF-2 on embryonic cells in pregnant Syrian hamsters

Pregnant hamsters were given various doses of AF-2 by stomach tube; then the cells of their embryos were isolated and cultured in normal medium. Chromosome preparations were made within 24 h after the start of primary culture, and examined for chromosomal aberrations. Marked chromosomal abnormalities were observed in cells of embryos of animals treated with AF-2 at over 20 mg/kg. Samples of surviving cells were also cultured in normal medium for 48 h, and then selected in medium containing 8AG or 6TG. This treatment with AF-2 caused marked dose-dependent induction of 8AG- or 6TG-resistant mutations: mutant colonies were even obtained after a single treatment with 2 mg of AF-2 per kg. These results show that this is a sensitive and useful mammalian system for detecting environmental mutagens.     

Resistance of cultured human fibroblasts and other cells to purine and pyrimidine analogues in relation to mutagenesis detection

In vitro enumeration of diploid human cell variants that are resistant to purine analogues is a possible method of detecting mutagenesis. Their incidences can be increased by the known mutagens, X-rays and N-methyl-N′-nitro-N-nitrosoguanidine (MNNG). Usefulness of this method depends on the kinds of hereditary changes that confer analogue-resistance on somatic cells. If resistance usually results from changes in genetic material, in vitro studies could be useful indicators of mutagenic effects on somatic cells and germ cells in vivo. If epigenetic changes are primarily responsible for analogue-resistant variants, their enumeration might not provide information relevant to germinal mutations but would still be a useful way to detect induction of general kinds of stable phenotypic changes that could cause cancer. This article outlines hypothetical epigenetic and genetic causes of somatic cell variation and a prospective genetic analysis of human cell variants that are resistant to 8-azaguanine (AG) or 2,6-diaminopurine ( (DAP).Recent evidences and arguments favoring epigenetic origins of resistance to base-analogues are inconclusive. The often cited high rate of changes causing impermeability to BUdR in hamster cells is based on one improperly executed determination. Comparisons of rates of variation conferring BUdR-resistance on cultured haploid and diploid frog cells included diploid variants that did not behave as mutants and ignored major sources of error in estimating mutation rates. AG-resistance could result from recessive mutations in X-chromosomal genes but comparisons of rates of mutation in hamster cells of different ploidies did not provide information about the numbers of X-chromosomes in the variants. Reports that normal rodent HGPRT reappeared in hybrids of enzyme-deficient rodent cells and HGPRT-containing cells of other species or in the rodent cells alone in response to the conditions of cell hybridization did not include adequate controls for reversions in mutant genes of the rodent cells. Questions about the epigenetic and genetic origins of analogue-resistance are mostly unanswered. It remains possible that some kinds of abnormal epigenetic changes cause somatic disease. Specific methods for detecting their occurrence and responsiveness to environmental factors should be devised by focusing efforts on traits that are normally subject to epigenetic regulation. Derepression of genes on the inactive X-chromosome and of liver phenylalanine hydroxylase production are presented as possible examples of abnormal epigenetic changes that could be quantitatively studied by direct selection in vitro.     

Comparison of toxicity and mutagenicity of methylnitrosourea, methylnitronitrosoguanidine and ICR-191 among human lymphoblast lines

The toxic and mutagenic effects of the alkylating agents methylnitrosourea (MNU) and methylnitronitrosoguanidine (MNNG) and of the frameshift mutagen, ICR-191 were compared among 3 human diploid lymphoblast lines, MIT-2, WI-L2 and GM 130. The MIT-2 and WI-L2 lines were both sensitive to the toxic and mutagenic effects of all 3 agents tested. The WI-L2 line was more sensitive to the toxic effects of MNU and MNNG than the MIT-2 line, while it was somewhat less sensitive to the mutagenic effects of these alkylating agents. The GM 130 line was strikingly resistant to both the toxic and mutagenic effects of the alkylating agents. The order of sensitivity to the toxic effect of ICR-191 was MIT-2 > WI-L2 > GM 130, while the order of sensitivity to the mutagenic effects of this frameshift mutagen was GM 130 > MIT-2 > WI-L2. These results point to the importance of accounting possible variations in mutability among individuals when extrapolating from any single mutagenicity assay for human risk assessment.     

Azaguanine-resistant mutants induced by several mutagens in a neurospora heterokaryon.

This paper reports the development of a new system for the detection of forward mutations in a heterokaryon of Neurospora crassa. This system, designed to detect a wide variety of genetic alterations, is based upon the detection of 8-azaguanine-resistant mutants in an adenine-requiring heterokaryon carrying the aza-3 gene. Induction of mutations in the aza-3 gene was detected after treatment of conidia with ultraviolet light, X-rays, ethyl methanesulfonate (EMS), or the acridine mustard, ICR-170. The pattern of appearance of mutant colonies and various factors in mutant selection are discussed.     

Deacylation of carcinogenic 5-nitrofuran derivatives by mammalian tissues

The deacylations of N-[4-(5-nitro-2-furyl)-2-thiazolyl] fonnamide (FANFT), N-[4-(5-nitro-2-furyl)-2-thiazolyl] acetarnide (NFTA) and formic acid 2-[4-(5-nitro-2-furyl)-2-thiazolyl] hydrazide (FNT) by liver, kidney, small intestines and stomach of mouse, rat, hamster and guinea pig were investigated. FANFT was deformylated to 2-amino-4-(5-nitro-2-furyl)thiazole (ANFT). FANFT formamidase activity was higher in the liver and small intestines of mouse, hamster and guinea pig, and small intestines and stomach of rat. There was no detectable FANFT formamidase activity in the stomach of the mouse and hamster. Neither NFTA nor FNT was deacylated by the rodent tissue homogenates studied. It is suggested that (1)4 ANFT is a metabolite of FANFT but not NFTA; (2) 2-hydrazino-4-(5-nitro-2-furyl)thiazole (HNFT) may not be a metabolite of FNT; and (3) the induction of tumors by FANFT, NFTA and FNT may not be due to a common carcinogenic metabolite, although these chemicals demonstrate similar organ specificities in some of these rodents.     

毕赤酵母不对称合成阿托伐他汀中间体

阿托伐他汀可通过抑制HMG-CoA还原酶与底物的结合来抑制胆固醇的合成,而 (R)-3-羟基-5-邻苯二甲酰亚胺基戊酸乙酯是阿托伐他汀合成的重要中间体。通过对实验室保藏菌种进行筛选,得到一株巴氏毕赤酵母X-33可将5-邻苯二甲酰亚胺-3-氧代戊酸乙酯还原为 (R)-3-羟基-5-邻苯二甲酰亚胺基戊酸乙酯。在磷酸盐缓冲液体系中考察了初始底物浓度、反应时间、辅助底物、葡萄糖添加量、pH、温度等因素对产物收率和对映体选择性的影响,获得了较佳的反应条件。选择底物投料量为7 g/L时,当菌体浓度120 g/L,葡萄