General toxicity and genotoxicity of altertoxin I: A novel 28-day multiendpoint assessment in male Sprague–Dawley rats

The mycotoxin altertoxin I (ATX-I) is one of secondary metabolites produced by Alternaria fungi and is frequently detected as food and feed contaminants. Little is known about the genotoxicity of the ATX-I. In order to evaluate potential genotoxicity and general toxicity of ATX-I, the novel 28-day multiendpoint (Pig-a assay + micronucleus [MN] test + comet assay) genotoxicity platform was applied. Male Sprague–Dawley (SD) rats were randomized to five groups (six rats per group), that is, a positive control group (N-ethyl-N-nitrosourea [ENU], 40 mg/kg.bw/d), two solvent control groups (PBS and corn oil), and two ATX-I-treated groups (low-dose group [1.10 μg/kg.bw/d] and high-dose group [5.51 μg/kg.bw/d]). Treatments were administered by oral gavage to male SD rats for 28 consecutive days. Histopathological damages in the liver, kidney, and spleen were observed, but without significant changes in hematological and serum biochemical parameters. Genotoxic endpoints indicated that ATX-I could cause DNA damage. To summarize, in a relatively low-dose range, ATX-I may not have direct genotoxicity in vivo but could induce liver, kidney, and spleen damage.     

In vivo and in vitro exposures for the evaluation of the genotoxic effects of lead on the Neotropical freshwater fish Prochilodus lineatus

In the present study, in vivo and in vitro exposures were used to assess the genotoxicity of lead (Pb) to the freshwater fish Prochilodus lineatus. The comet assay using blood, liver and gill cells, and the occurrence of micronuclei (MN) and other erythrocytic nuclear abnormalities (ENA) were used to assess the genotoxic potential of lead in vivo. Metallothionein content (MT) was measured in fish liver in order to evaluate the protection of fish against Pb toxicity. Fish erythrocytes were exposed to Pb in vitro (1, 3 and 6 h) and the number of viable cells, DNA integrity, using the comet assay, and lysosomal membrane stability, measured by the neutral red retention assay (NRRA) were analyzed. The results of the comet assay after in vivo toxicity tests (6, 24 and 96 h) showed that Pb was genotoxic for all the three tissues analyzed after 96 h exposure. A significant increase in liver MT content was observed after 6 and 24 h of Pb exposure. MN frequency did not increase after Pb exposures, but the frequency of the other ENA, such as kidney-shaped nuclei, segmented nuclei and lobed nuclei, showed a significant increase after 24 and 96 h, indicating that ENA is a better biomarker for Pb exposure than MN alone after short-term exposures. The results of the comet assay performed with erythrocytes in vitro exposed to lead confirmed its genotoxic effect and showed that DNA damage increased with increasing exposure time. Moreover, the NRRA clearly indicated that Pb induces a destabilization of the lysosomal membrane. These results demonstrate the potential genotoxicity and cytotoxicity of lead after acute exposures.     

Investigation of the genotoxicity of quinocetone,carbadox and olaquindox in vitro using Vero cells

Quinoxaline-1,4-dioxides derivatives have been widely used as animal growth promoter. This study was conducted to investigate the cytotoxicity and genotoxicity of quinoxaline-1,4-dioxides derivatives, namely carbadox, olaquindox and quinocetone, in Vero cells. The cell viability results from MTT assay demonstrated the severe inhibitory effects by these chemicals in both dose and time dependent manner. Among these chemicals quinocetone exhibited the highest cytotoxicity followed by olaquindox and carbadox. DNA damage analyses using alkalic comet assay revealed pronounced increase of DNA fragmentation in all three compound treated cells. In contrast, DNA damage was significantly decreased after incubation with S9 mix. These findings suggest that the intermediate metabolites of these compounds exerted lower genotoxicity than their parent drugs. We further described chromosomal damage induced by these drugs employing cytokinesis-block micronucleus assay (MN assays). The micronucleus frequency was significantly higher in these drugs treated cells than that of controls and the nuclear division index was also markedly reduced with increasing drug concentration applied. Similar to the observation in comet assay, incorporation of S9 mix in the MN assays was able to markedly alleviate the chromosome damage. In conclusion, our results strengthened previous reports on the cytotoxicity and genotoxicity of carbadox, olaquindox and quinocetone.     

Assessment of cytotoxicity,genotoxicity and 7-ethoxyresorufin-<Emphasis Type="Italic">O</Emphasis>-deethylase (EROD) induction in sediment extracts from New Zealand urban estuaries

Sediments represent a major sink for contaminants resulting from industrial and agricultural activities — especially lipophilic substances. This study exclusively used in vitro methodologies to characterize specific toxicity effects of contaminants in sediment extracts from two urban New Zealand estuaries. Sediment extracts were prepared and tested for a range of biological endpoints. The micronucleus and comet assays in V79 cells were used to assess genotoxicity. Induction of 7-ethoxyresorufin-O-deethylase in piscine RTL-W1 cells was determined to estimate dioxin-like toxicity. Cytotoxic potentials were analyzed by neutral red uptake and MTT reduction. There was evidence of strong dioxin-like toxicity and moderate cytotoxicity. Genotoxicity was distinct in the micronucleus assay, but low in the comet assay. The results indicate the presence of chemicals in the sediments with the potential to pose a risk through multiple mechanisms of toxicity, the identities and amounts of which will be disclosed in a parallel study alongside with in vivo toxicity data.     

Evaluation of the genotoxicity of environmental contaminants in sediments to rainbow trout hepatocytes

Rainbow trout hepatocytes were used as an in vitro bioassay to assess the genotoxic potential of single chemicals and marine sediment extracts. Freshly prepared trout hepatocytes were exposed to either benzo[a]pyrene, N-methyl-N′-nitro-N-nitrosoguanidine, β-naphtoflavone, or organic extracts of marine sediments for 24 h at 15°C. Genotoxicity was assayed using the nick translation assay, which makes use of a nonradioactive nucleotide (biotin-dUTP), and the DNA alkaline precipitation assay followed by fluorometric detection of DNA strands. Exposure to benzo[a]pyrene or methyl-N′-nitro-N-nitrosoguanidine, known indirect-and direct-acting genotoxins respectively, produced genotoxicity to rainbow trout hepatocytes with both assays. β-Naphtoflavone displayed genotoxic activity in trout hepatocytes. Sediment extracts and reference sediment extracts displayed high toxicity and genotoxicity to trout hepatocytes. Chemical analyses showed that these sediments contained significant amounts of organochlorine pesticides, polychlorinated biphenyls, and polycyclic aromatic hydrocarbons. Cell toxicity was correlated with total levels of organochlorine pesticides and polychlorinated biphenyls but not total levels of polycyclic aromatic hydrocarbons. No positive correlation was found with the nick translation assay between total levels of chemicals and genotoxicity in marine sediments. Genotoxicity obtained with the alkaline precipitation assay was correlated with levels of the organochlorine pesticide DDT. However, more tests would be required to further substantiate possible links with other specific chemicals. © by John Wiley & Sons, Inc.     

Evaluation of cytotoxicity,genotoxicity and teratogenicity of marine sediments from Qingdao coastal areas using in vitro fish cell assay,comet assay and zebrafish embryo test

Marine sediments are often a final sink for numerous anthropogenic contaminants and may impose serious effects on benthic organisms and ecosystem. An in vitro cell assay using a cell line derived from flounder gill (FG) cells, an in vitro comet assay in FG cells, and an in vitro zebrafish embryo assay were used to evaluate the in vitro cytotoxicity (measured by MTT reduction), genotoxicity and teratogenicity of crude sediment extracts of Li Cang (LC), Zhan Qiao (ZQ) and Olympic Sailing Center (OSC) from Qingdao coastal area. Sediments from the three sites displayed different cytotoxicity, genotoxicity and teratogenicity potencies; however, all three assays yielded similar LOECs (lowest observed effect concentration) for each site, suggesting that the assays were equally sensitive to and suitable for initial screening of the LOECs of marine sediments. The cytotoxicity, genotoxicity and teratogenicity for these three sampling sites were in the same order of LC > ZQ > OSC, indicating different degrees of contamination. Interestingly, trials with the three sediment extracts at the doses inducing a similar cytotoxicity as evaluated with MTT reduction did not produce similar genotoxicity and teratogenicity, with the genotoxic and teratogenic activities of LC and ZQ extracts being markedly higher than those of OSC sediments. These findings indicate that cytotoxicity does not form a fully equivalent toxicity index with that of genotoxicity and teratogenicity. Therefore, in order to assess the true toxic potential of marine sediments, all three assays should be performed. Analysis of 16 EPA (US Environmental Protection Agency) priority PAHs in these three sediment samples showed a clear correlation between PAH concentrations and sediment toxicities, with a higher PAH content corresponding to higher toxicity although PAHs are surely not the only cause.     

Fresh water fish,Channa punctatus,as a model for pendimethalin genotoxicity testing: A new approach toward aquatic environmental contaminants

Pendimethalin (PND) is one of the common herbicides used worldwide. Fresh water fish, Channa punctatus, was exposed to PND in aquaria wherein its LC50 value was recorded to be 3.6 mg/L. Three sublethal (SL) concentrations, namely, 0.9, 1.8, and 2.7 mg/L were selected for the evaluation of genotoxicity and oxidative stress generated in the fish. In vivo comet assay was carried out in the blood, liver, and gill cells after exposing the fish to aforesaid SL concentrations of PND for 24, 48, 72, and 96 h. The results of the comet assay demonstrated the genotoxicity of PND in all the three tissues. Induction of oxidative stress in the gill cells was affirmed by the increased lipid peroxidation (LPO) and decreased levels of reduced glutathione, superoxide dismutase, and catalase. Frequencies of erythrocytic nuclear abnormalities (ENA) and micronuclei (MN) were also used to assess the genotoxic potential of PND on C. punctatus. MN frequency did not show any enhancement after PND exposure, but the frequency of ENA such as kidney‐shaped nuclei, segmented nuclei and lobed nuclei, showed a significant increase after 24–96 h. Thus, ENA seems to be a better biomarker than MN for PND induced genotoxicity. © 2015 Wiley Periodicals, Inc. Environ Toxicol 31: 1520–1529, 2016.     

Microalga Euglena as a bioindicator for testing genotoxic potentials of organic pollutants in Taihu Lake,China

The microalga Euglena was selected as a bioindicator for determining genotoxicity potencies of organic pollutants in Meiliang Bay of Taihu Lake, Jiangsu, China among seasons in 2008. Several methods, including the comet assay to determine breaks in DNA and quantification of antioxidant enzymes were applied to characterize genotoxic effects of organic extracts of water from Taihu Lake on the flagellated, microalga Euglena gracilis. Contents of photosynthetic pigments, including Chl a, Chl b and carotenoid pigments were inversely proportion to concentrations of organic extracts to which E. gracilis was exposed. Organic extracts of Taihu Lake water also affected activities of superoxide dismutase (SOD) and peroxidase (POD) of E. gracilis. There were no statistically significant differences in SOD activities among seasons except in June but significant differences in POD activities were observed among all seasons. The metrics of DNA fragmentation in the alkaline unwinding assay (Comet assay), olive tail moment (OTM) and tail moment (TM), used as measurement endpoints during the genotoxicity assay were both greater when E. gracilis was exposed to organic of water collected from Taihu Lake among four seasons. It is indicated that the comet assay was useful for determining effects of constituents of organic extracts of water on E. gracilis and this assay was effective as an early warning to organic pollutants.     

Evaluation of multi-organ DNA damage by comet assay from 28 days repeated dose oral toxicity test in mice: A practical approach for test integration in regulatory toxicity testing

The use of comet assay is not new in the evaluation of genotoxic potential of different agents; however, its broad use in product safety for regulatory testing is a relatively new approach. The present study was aimed to integrate genotoxicity tests (micronucleus and comet assay) in 28 days repeated dose oral toxicity of methotrexate (MTX) in mice. MTX was administered at the dose of 0.5, 1 and 2 mg/kg per oral repeatedly for 28 days in mice. The endpoints of evaluation for routine toxicity testing included body weight, organ weight, food intake, water intake, hematology and histology, while for the genotoxicity testing micronucleus and comet assay were used. There were no significant changes in food intake, water intake and organ weight; however, the body weight significantly decreased at the highest dose of MTX treatment as compared to control group. Histological data revealed the morphological alterations in the liver and lung cells at the highest dose of MTX treatment. Micronucleus assay results indicated that the highest dose of MTX led to significant increase in MNERTs/1000ERTs (P < 0.001) as compared to control group. Further, percentage of reticulocytes (% RETs) was significantly decreased at the highest dose of MTX as compared to control group. Comet assay results indicate significant DNA damage in different organs induced by MTX as compared to control group. The results of the present study successfully demonstrates the integration of genotoxicity tests using comet and micronucleus assay in 28 days repeated dose oral toxicity test. Integration of genotoxicity test with routine toxicity test would reduce the cost of additional animals, test item and provide further information at an early stage of product development.     

微核试验和彗星试验检测雄黄的遗传毒性

目的用短期给药(小鼠骨髓细胞微核试验和彗星试验)和长期给药(利用生殖毒性Ⅰ段试验的大鼠做微核试验和彗星试验)检测雄黄的遗传毒性,探讨利用长期毒性试验或生殖毒性Ⅰ段试验用动物进行遗传毒性检测的可行性。方法小鼠ig给予雄黄0.25,0.5和1.0 g·kg-1,每天1次,2 d后,取骨髓细胞做微核试验和彗星试验;利用生殖毒性Ⅰ段大鼠ig给予0.125,0.25和0.55 g·kg-1,雄性连续给药42 d以上,交配成功后处死;雌性连续ig给药19 d以上,妊娠第15天,取骨髓细胞做微核试验和彗星试验,取血做外周血淋巴细胞微核试验。结果与阴性对照组比较,小鼠雄黄0.25,0.5和1.0 g·kg-1组微核试验微核率分别为3.0‰,4.40‰,7.01‰(P<0.05,P<0.01)和彗星试验拖尾率分别为6.3%,9.7%和11.3%(P<0.05,P<0.01)。与阴性对照组比较,生殖毒性Ⅰ段试验大鼠ig给予雄黄,雄黄0.55 g·kg-1组雄性大鼠的骨髓微核和外周血淋巴细胞微核率分别为2.83‰和6.67‰(P<0.05),雌性大鼠0.25和0.55 g·kg-1的骨髓微核和外周血淋巴细胞微核率分别为1.5‰,2.25‰以及2.58‰和4.40‰(P<0.05,P<0.01);雄黄使雄性和雌性大鼠彗星拖尾率明显升高(P<0.05)。结论利用生殖毒性Ⅰ段试验多次给药后取材做微核试验和彗星试验方法可行;外周血微核试验简便易行;在所观察的剂量下雄黄具有遗传毒性。     

Application of the micronucleus and comet assays to mussel Dreissena polymorpha haemocytes for genotoxicity monitoring of freshwater environments

Assessment of DNA damage is of primary concern when determining the pollution-related stress in living organisms. To monitor genotoxicity of the freshwater environments we used micronucleus (MN) and comet assay on Dreissena polymorpha haemocytes. Caged mussels, collected from the river Drava, were transplanted to four monitoring sites of different pollution intensity in the river Sava. Exposition lasted for a month. The baseline level of MN frequencies in the haemocytes of mussels from reference site (river Drava) was 0.5 per thousand. No increase in MN frequency was found in mussels from the medium-polluted site (Zagreb) in the river Sava while other, more polluted sites showed higher MN frequencies ranging from 2.7 per thousand (Lukavec) and 3.1 per thousand (Oborovo) to 5.2 per thousand (Sisak). Results from comet assay showed concordance with MN assay in indicating intensity of DNA damage. The use of haemocytes from caged, non-indigenous mussels in MN and comet assay proved to be a sensitive tool for the freshwater genotoxicity monitoring.     

Genotoxicity assessment of propyl thiosulfinate oxide,an organosulfur compound from Allium extract,intended to food active packaging

Essential oils from onion (Allium cepa L.), garlic (Allium sativum L.), and their main components, such as propyl thiosulfinate oxide (PTSO) are being intended for active packaging with the purpose of maintaining and extending food product quality and shelf life. The present work aims to assess for the first time the potential mutagenicity/genotoxicity of PTSO (0–50 µM) using the following battery of genotoxicity tests: (1) the bacterial reverse-mutation assay in Salmonella typhimurium (Ames test, OECD 471); (2) the micronucleus test (OECD 487) (MN) and (3) the mouse lymphoma thymidine-kinase assay (OECD 476) (MLA) on L5178YTk^+/−, cells; and (4) the comet assay (with and without Endo III and FPG enzymes) on Caco-2 cells. The results revealed that PTSO was not mutagenic in the Ames test, however it was mutagenic in the MLA assay after 24 h of treatment (2.5–20 µM). The parent compound did not induce MN on mammalian cells; however, its metabolites (in the presence S9) produced positive results (from 15 µM). Data from the comet assay indicated that PTSO did not induce DNA breaks or oxidative DNA damage. Further in vivo genotoxicity tests are needed to confirm its safety before it is used as active additive in food packaging.     

Genotoxicity of mesoporous silica nanoparticles in human embryonic kidney 293 cells

Mesoporous silica nanoparticles (MSNs) have been widely evaluated for their potential use as carriers for cancer diagnosis and therapy. Understanding the toxicity of MSNs is crucial to their biomedical applications. Although several groups have reported the cytotoxicity of MSNs, the genotoxicity (inducing genetic aberrations) of MSNs in normal human cells has not been extensively investigated. Gene amplification and mutation may initiate and promote carcinogenesis, and changes in mRNA expression can affect normal human physical functions. In this study, human embryonic kidney 293 (HEK293) cells were treated overnight with MSNs at a concentration of 120 µg/mL. The cells were assayed with fluorescent in situ hybridization to check for chromosome changes and gene amplification. Mutations in the epidermal growth factor receptor 1 (EGFR1) and KRAS genes were checked with DNA sequencing. The effects of MSNs on mRNA expression were investigated with an Agilent human mRNA microarray. No chromosomal alterations or gene mutations in EGFR or KRAS were observed in the control HEK293 cells or HEK293 cells exposed to MSNs. The microarray analysis showed that MSNs significantly altered gene expression. The expression of 579 genes was upregulated and that of 1263 genes was downregulated in HEK293 cells treated with MSNs compared with the control HEK293 cells. Our findings suggest that exposure to MSNs is genotoxic to normal human cells, leading to changes in the expression of some genes. This genotoxicity may cause cellular dysfunction and certain benign diseases. We have not shown that MSN exposure induces serious genotoxicity involving carcinogenesis. Copyright © 2015 John Wiley & Sons, Ltd.     

Cytotoxicity, genotoxicity and antimutagenicity of hexane extracts of Agaricus blazei determined in vitro by the comet assay and CHO/HGPRT gene mutation assay.

Agaricus blazei Murrill ss. Heinem, known as the sun mushroom or himematsutake, is a basidiomycete native to Brazil, which is popular for its medicinal properties. The aim of this study was to test hexane extracts (one fraction and its four sub-fractions) of A. blazei for bioactivity in cultured mammalian cells (CHO-K1). The comet assay, the colony forming assay (CFA) and CHO/HGPRT gene mutation assay were used respectively to determine genotoxicity, cytotoxicity and antimutagenicity of these extracts at different concentrations. The cells were incubated in culture medium and treated for 3h according to the standard protocol for each assay. The DNA damage-inducing agent ethylmethane sulfonate (EMS) was utilized as the positive control and also in combination with extracts to test for a protective effect. Statistical analysis of the data was performed using analysis of variance (ANOVA) and Tukey's test. A relationship between cytotoxicity and genotoxicity could be established and two extracts EH6B and EH6D showed a protective tendency, while the others did not, with the primary extract EH6 causing the most substantial damage to genetic material. These findings warrant more in-depth studies of the active principles of this mushroom.     

Organic pollutants and ambient severity for the drinking water source of western Taihu Lake

Measurement of the organic compounds found in western Taihu Lake and evaluation of the ambient severity (AS) of the water using multimedia environmental goals (MEG) was conducted. The comet assay and the antioxidant enzyme approach were used to test the potential toxicity of water samples on the microalgae Euglena gracilis. Total concentrations of 25 organic pollutants in samples from two sites were 6.700 and 14.655 μg/l, respectively, with a calculated total ambient severity (TAS) of less than 1 and therefore minimal risk to human and ecological health. Organic extracts from the samples at these two sites was found to induce dose-dependent DNA damage on microalgae cells. DNA damage together with changes in superoxide dismutase (SOD) and peroxidase (POD) activities indicated that the potential pollutant toxicity was far higher at one of the two sites than at the other site. The comet assay combined with the activities of antioxidant enzymes may be of value as a biomarker for presence of organic pollutants in drinking water sources.     

Genetic toxicology and preliminary in vivo studies of nitric oxide donor tocopherol analogs as potential new class of antiatherogenic agents

Nitric oxide donor tocopherol analogs were found to be incorporated in low-density lipoprotein to release nitric oxide into the hydrophobic core of the lipoprotein, thus inhibiting lipid oxidation processes associated with atheroma plaque formation. Previously, we studied their cytotoxicity against human and murine macrophages as first selection for in vivo studies. Herein, we examined both the in vitro mutagenic and DNA-damage effects of selected compounds to further evaluate drug potential. While the compounds of interest were nongenotoxics in both experimental tests (Ames and alkaline comet), one of the potential blood metabolites exhibited genotoxicity (alkaline comet test), and the furazan derivative was mutagenic (Ames test). Two selected (nitrooxy and furoxan) compounds were studied in long- and short-term in vivo treatment, and in these conditions, animal toxicity was not evidenced, suggesting the possibility of these compounds as potential antiatherogenic drugs.     

Carbamate insecticide methomyl confers cytotoxicity through DNA damage induction

Carbamate insecticide methomyl could induce genotoxic effects, including micronuclei, chromosome aberrations and sister-chromatid exchanges. However, methomyl induction of cytotoxicity through DNA damage is largely unknown. Here we identify cytotoxicity and potential genotoxicity of methomyl in vitro. We have employed alkaline comet assay, γH2AX foci formation and DNA ladder assay to detected DNA damage and apoptosis of Drosophila S2, HeLa and HEK293 cells. The alkaline comet assay was used to evaluate total DNA single strand breaks (SSBs) in the target cells exposed in vitro to sublethal concentrations of methomyl. As expected, methomyl induced significant concentration-dependent increases in DNA damage of target cells compared with the negative control, as measured by increases in tail length (μm), tail DNA (percentage of the comet tail) and tail moment (arbitrary units). In agreement with the comet assay data, the percentage of γH2AX positive reaction in HeLa cells also revealed methomyl caused DNA double strand breaks (DSBs) in a time-dependent manner. Moreover, methomyl induced a significant increase of apoptosis in Drosophila S2, HeLa and HEK293 cells in a concentration- and time-dependent manner, as determined by Urea PAGE DNA fragmentation analysis. In conclusion, methomyl is a strongly genotoxic agent that induces cell DNA damage and apoptosis in vitro at these sublethal concentrations.     

Evaluation of teratogenicity and genotoxicity induced by kramecyne (KACY)

Kramecyne (KACY), a polymer isolated from Krameria cytisoides Cav, has anti-inflammatory, anti-nociceptive, anti-arthritic and anti-ulcerogenic properties. As a part of standard preclinical safety tests, the present study sought to determine potential developmental toxicity (in female rats) and genotoxicity (in male mice) of KACY. Pregnant female rats were divided into six groups: the negative control (vehicle), the positive control (250?mg/kg of acetylsalicylic acid (ASA)), and four experimental groups (50, 250, 500 and 1000?mg/kg of KACY). To evaluate genotoxicity by in vivo micronuclei (MN) and sister chromatid exchange (SCE) tests, male mice were divided into five groups: the negative control (vehicle), the positive control (1.5 and 2.5?mg/kg of doxorubicin for MN and SCE, respectively), and three experimental groups (50, 500 and 1000?mg/kg of KACY). All treatments were administered by oral gavage. A slight maternal toxicity was evidenced by lower weight gain for rats receiving 500 and 1000?mg/kg of KACY, but no fetal malformations were found. However, there were less live fetuses/litter and greater post-implantation loss/litter at these two doses. Manifestations of developmental toxicity were limited to a higher rate of skeletal alterations. The MN tests did not evidence genotoxicity or cytotoxicity. KACY caused a slightly but significantly increased frequency of SCE. Although KACY-treated rats had skeletal alterations, these apparently were not caused by a mechanism of genotoxicity. Furthermore, the same administration in adult male mice did not produce genotoxicity. Hence, KACY herein proved to be safe for rats during the period of organogenesis.     

Comparison of cytotoxicity and genotoxicity induced by the extracts of methanol and gasoline engine exhausts.

Gasoline engine exhaust has been considered a major source of air pollution in China, and methanol is considered as a potential substitute for gasoline fuel. In this study, the genotoxicity and cytotoxicity of organic extracts of condensate, particulate matters (PM) and semivolatile organic compounds (SVOC) of gasoline and absolute methanol engine exhaust were examined by using MTT assay, micronucleus assay, comet assay and Ames test. The results have showed that gasoline engine exhaust exhibited stronger cytotoxicity to human lung carcinoma cell lines (A549 cell) than methanol engine exhaust. Furthermore, gasoline engine exhaust increased micronucleus formation, induced DNA damage in A549 cells and increased TA98 revertants in the presence of metabolic activating enzymes in a concentration-dependent manner. In contrast, methanol engine exhaust failed to exhibit these adverse effects. The results suggest methanol may be used as a cleaner fuel for automobile.     

Toxicological profile of cereulide, the Bacillus cereus emetic toxin, in functional assays with human, animal and bacterial cells.

Some strains of the endospore-forming bacterium Bacillus cereus produce a heat-stable ionophoric peptide, cereulide, of high human toxicity. We assessed cell toxicity of cereulide by measuring the toxicities of crude extracts of cereulide producing and non-producing strains of B. cereus, and of pure cereulide, using cells of human, animal and bacterial origins. Hepatic cell lines and boar sperm, with cytotoxicity and sperm motility, respectively, as the end points, were inhibited by 1 nM of cereulide present as B. cereus extract. RNA synthesis and cell proliferation in HepG2 cells was inhibited by 2 nM of cereulide. These toxic effects were explainable by the action of cereulide as a high-affinity mobile K+ carrier. Exposure to cereulide containing extracts of B. cereus caused neither activation of CYP1A1 nor genotoxicity (comet assay, micronucleus test) at concentrations below those that were cytotoxic (0.6 nM cereulide). Salmonella typhimurium reverse mutation (Ames) test was negative. Exposure of Vibrio fischeri to extracts of B. cereus caused stimulated luminescence up to 600%, independent on the presence of cereulide, but purified cereulide inhibited the luminescence with an IC(50% (30 min)) of 170 nM. Thus the luminescence-stimulating B. cereus substance(s) masked the toxicity of cereulide in B. cereus extracts to V. fischeri.