Protective effects of kefir against zearalenone toxicity mediated by oxidative stress in cultured HCT-116 cells.

Kefir is a fermented milk with numerous health favors counting restorative properties of bacterial flora, reduction of the symptoms of lactose intolerance, immune system stimulation, cholesterol reduction, as well as anti-mutagenic and anti-tumor properties. Zearalenone (ZEN) is a mycotoxin produced by some Fusarium species. ZEN often occurs as a contaminant in cereal grains and animal feeds. Human exposure occurs by ingestion of mycotoxin-contaminated products and can cause serious health problems. This study aimed to assess the preventive effect of kefir against ZEN toxicity in cultured HCT-116 colorectal carcinoma cells; by the evaluation of cell viability, oxidative stress status and the initiation of apoptotic cell death pathway. Our results demonstrated that ZEN inhibits cell proliferation which was accompanied by an increase in the generation of free radicals as measured by fluorescent 2,7-dichlorofluorescein (DCF) and Malondialdehyde (MDA). As an adaptive response to this redox status, we showed an induction of heat shock protein expression (Hsp 70) and an activation of antioxidant enzymes; catalase and Superoxide Dismutase (SOD). Moreover, a loss of mitochondrial membrane potential (Δѱm) was observed. The co-treatment as well as the pre-treatment by kefir showed a reduction of ZEN induced damages for all tested markers. However, the pre-treatment seems to be the most efficient, it prevented almost all ZEN hazards. Consequently, oxidative damage appears to be a key determinant of ZEN induced toxicity in cultured HCT-116 cells. In conclusion, we showed that kefir may better exert its virtue on preventive mode rather than on curative one. By this way, kefir as a beverage with highly antioxidant properties could be relevant particularly with the emergent demand for natural products which may counteract the detrimental effects of oxidative stress and therefore prevent multiple human diseases.

Proanthocyanidins Protect Epithelial Cells from Zearalenone-Induced Apoptosis via Inhibition of Endoplasmic Reticulum Stress-Induced Apoptosis Pathways in Mouse Small Intestines.

This study evaluated the protective effect of proanthocyanidins (PCs) on reducing apoptosis in the mouse intestinal epithelial cell model MODE-K exposed to zearalenone (ZEA) through inhibition of the endoplasmic reticulum stress (ERS)-induced apoptosis pathway. Our results showed that PCs could reduce the rate of apoptosis in MODE-K cells exposed to ZEA (p < 0.01). PCs significantly increased the ZEA-induced antioxidant protective effects on the enzymes superoxide dismutase (SOD) and glutathione peroxidase (GSH-Px) and on the content of GSH. PCs also significantly decreased the ZEA-induced increase in the content of malondialdehyde (MDA). The analysis indicated that ZEA increased both mRNA and protein expression levels of C/EBP homologous protein (CHOP), GRP78, c-Jun N-terminal kinase (JNK), and cysteinyl aspartate specific proteinase 12 (caspase-12) (p < 0.05), which are related to the ERS-induced apoptosis pathway. ZEA decreased levels of the pro-apoptotic related protein Bcl-2 (p < 0.05) and increased the anti-apoptotic related protein Bax (p < 0.05). Co-treatment with PCs was also shown to significantly reverse the expression levels of these proteins in MODE-K cells. The results demonstrated that PCs could protect MODE-K cells from oxidative stress and apoptosis induced by ZEA. The underlying mechanism may be that PCs can alleviate apoptosis in mouse intestinal epithelial cells by inhibition of the ERS-induced apoptosis pathway.

Efficacy of feed additives to reduce the effect of naturally occurring mycotoxins fed to turkey hen poults reared to 6 weeks of age.

Corn with naturally occurring aflatoxin (AF), wheat with naturally occurring doxynivalenol (DON), and barley with naturally occurring zearalenone (ZEA) were used to make rations for feeding turkey hen poults to 6 weeks of age. Control rations with equal amounts of corn, wheat, and barley were also fed. The control rations did contain some DON while both sets of rations contained ZEA. Within each grain source, there were 4 treatments: the control ration plus 3 rations each with a different feed additive which were evaluated for the potential to lessen potential mycotoxin effects on bird performance and physiology. The additives were Biomin BioFix (2 lb/ton), Kemin Kallsil (4 lb/ton), and Nutriad UNIKE (3 lb/ton). The mycotoxin rations reduced poult body weight (2.31 vs. 2.08 ± 0.02 kg) and increased (worsened) poult feed conversion (1.47 vs. 1.51 ± 0.01) at 6 wk. Feeding the poults the mycotoxin feed also resulted in organ and physiological changes typical of feeding dietary aflatoxin although a combined effect of AF, DON, and ZEA which cannot be dismissed. The feed additives resulted in improved feed conversion to 6 wk in both grain treatment groups. The observed physiological effect of feeding the additives was to reduce relative gizzard weight for both groups and to lessen the increase in relative kidney weight for the birds fed the mycotoxin feed. In conclusion, the feed additives used in this study did alleviate the effect of dietary mycotoxins to some degree, especially with respect to feed conversion. Further studies of longer duration are warranted.

High-level expression of a ZEN-detoxifying gene by codon optimization and biobrick in Pichia pastoris.

The mycotoxin zearalenone (ZEN) can be degraded by a lactone hydrolase ZHD, which was derived from Gliocladium roseum. Here, based on the native ZHD encoding gene zhd101, a codon optimized zhd gene was synthesized, which was used for high expression of ZHD in Pichia pastoris GS115. Meanwhile, to further improve the expression of recombinant ZHD, the plasmids containing 1 to 4 copies of the zhd expression cassette were constructed, respectively, using the biobrick method. The protein expression in the recombinant P. pastoris X3c, which was transformed with the plasmid containing 3 copies of zhd expression cassette, was the highest. In addition, the enzymatic activity of ZHD against ZEN was defined for the first time based on a standard curve of peak area vs ZEN concentration. The ZEN degradation activity of ZHD from shake flask fermentation was calculated as 22.5U/mL with the specific activity of 4976.5U/mg. Furthermore, the high-density fermentation of P. pastoris X3c strain was also performed in 5L fermenter. The maximum enzyme activity of the supernatant was 150.1U/mL, which were 6.7-fold higher than that of the shake flask fermentation.

Prevention of deoxynivalenol- and zearalenone-associated oxidative stress does not restore MA-10 Leydig cell functions.

The worldwide contamination of grains designated to human and animal feeding with Fusarium mycotoxins is a significant problem. Among Fusarium mycotoxins, deoxynivalenol (DON) and zearalenone (ZEA) are the most prevalent mycotoxins found in cereals. Co-occurrence of DON and ZEA is also very frequent and indicates that these mycotoxins might be involved in a wide range of synergistic or additive interactions. Both mycotoxins have been linked to various male reproduction problems including downregulation of steroidogenesis. In this study, the impact of DON and ZEA alone or in combination on the viability and steroid production of Leydig cell line MA-10 was determined. The ability of vitamin E, sesamin and their combination to prevent oxidative stress and restore progesterone secretion in DON- and ZEA-exposed cells was also determined. Results showed that MA-10 cells were more sensitive to the effect of DON compared to ZEA. DON and ZEA also significantly reduced MA-10 progesterone secretion after forskolin activation but no significant interactions between DON and ZEA were detected. Preventive treatment with the combination of vitamin E and sesamin significantly reduced ROS production and increased cell survival after exposition to DON and ZEA. However this treatment failed to restore normal progesterone secretion. In conclusion, both DON and ZEA are deleterious to steroidogenesis in Leydig cells. Prevention of oxidative stress caused by DON and ZEA was effective to restore cell viability but failed to restore other functions of Leydig cells suggesting that ROS production is not the main cause of steroidogenic failure in DON and ZEA treated MA-10 cells.

Alleviation of zearalenone toxicity by modified halloysite nanotubes in the immune response of swine.

Zearalenone (ZEN) has caused significant economic effects on swine production in China. There is growing concern that exposure to ZEN during pregnancy affects the health of the offspring due to changes in the development of the immune system. To assess the risks associated with maternal ZEN exposure, several immunological parameters were assessed in pregnant sows and their offspring. The main aim of the study was to determine if modified hallosite nanotubes (MHNTs) can be used to protect pigs against the adverse effects of ZEN. Eighteen pregnant sows (second parity Yorkshire sows) were randomly divided into three treatment groups: (1) basal diet (control group); (2) contaminated grain (instead of 50% mouldy corn); and (3) contaminated grain (instead of 50% mouldy corn) + 1% MHNTs. The pregnant sows were fed the different treated diets from days 35 to 70 of gestation. Dietary ZEN exposure decreased the organ coefficient and the mRNA expression levels of IFN-γ, TNF-α, and IL-10, and increased ZEN residues and IL-4 mRNA expression in the spleen of pregnant sows and neonatal piglets. Decreases in the serum IgA and IgG levels were observed in the pregnant sows. Maternal ZEN exposure decreased the organ coefficient and the mRNA expression levels of IFN-γ and IL-10, and increased IL-4 mRNA expression in the spleen of weaning piglets. Exposure to ZEN during pregnancy decreased the level of serum IgG in the weaning piglets. Maternal exposure to ZEN induced histopathological damage and oxidative stress in the spleens of pregnant sows and their piglets. The addition of MHNTs to ZEN-contaminated diets can mitigate the negative effects induced by ZEN in the swine.

Effect of phytoestrogens on basal and GnRH-induced gonadotropin secretion.

Plant-derived estrogens (phytoestrogens, PEs), like endogenous estrogens, affect a diverse array of tissues, including the bone, uterus, mammary gland, and components of the neural and cardiovascular systems. We hypothesized that PEs act directly at pituitary loci to attenuate basal FSH secretion and increase gonadotrope sensitivity to GnRH. To examine the effect of PEs on basal secretion and total production of FSH, ovine pituitary cells were incubated with PEs for 48 h. Conditioned media and cell extract were collected and assayed for FSH. Estradiol (E2) and some PEs significantly decreased basal secretion of FSH. The most potent PEs in this regard were coumestrol (CM), zearalenone (ZR), and genistein (GN). The specificity of PE-induced suppression of basal FSH was indicated by the absence of suppression in cells coincubated with PEs and an estrogen receptor (ER) blocker (ICI 182 780; ICI). Secretion of LH during stimulation by a GnRH agonist (GnRH-A) was used as a measure of gonadotrope responsiveness. Incubation of cells for 12 h with E2, CM, ZR, GN, or daidzein (DZ) enhanced the magnitude and sensitivity of LH secretion during subsequent exposure to graded levels of a GnRH-A. The E2- and PE-dependent augmentation of gonadotrope responsiveness was nearly fully blocked during coincubation with ICI. Collectively, these data demonstrate that selected PEs (CM, ZR, and GN), like E2, decrease basal secretion of FSH, reduce total FSH production, and enhance GnRH-A-induced LH secretion in a manner that is dependent on the ER.

Comparison of the sequestering properties of yeast cell wall extract and hydrated sodium calcium aluminosilicate in three in vitro models accounting for the animal physiological bioavailability of zearalenone.

The sequestration/inactivation of the oestrogenic mycotoxin zearalenone (ZEA) by two adsorbents--yeast cell wall extract (YCW) and hydrated sodium calcium aluminosilicate (HSCAS)--was studied in three laboratory models: (1) an in vitro model was adapted from referenced methods to test for the sequestrant sorption capabilities under buffer conditions at two pH values using liquid chromatography coupled to a fluorescence detector for toxin quantification; (2) a second in vitro model was used to evaluate the sequestrant sorption stability according to pH variations and using ³H-labelled ZEA at low toxin concentration; and (3) an original, ex vivo Ussing chamber model was developed to further understand the transfer of ZEA through intestinal tissue and the impact of each sequestrant on the mycotoxin bioavailability of ³H-labelled ZEA. YCW was a more efficient ZEA adsorbent than HSCAS in all three models, except under very acidic conditions (pH 2.5 or 3.0). The Ussing chamber model offered a novel, ex vivo, alternative method for understanding the effect of sequestrant on the bioavailability of ZEA. The results showed that compared with HSCAS, YCW was more efficient in sequestering ZEA and that it reduced the accumulation of ZEA in the intestinal tissue by 40% (p < 0.001).

Hydrothermal treatment of naturally contaminated maize in the presence of sodium metabisulfite, methylamine and calcium hydroxide; effects on the concentration of zearalenone and deoxynivalenol.

Fusarium toxin-contaminated ground maize was hydrothermally treated in the presence of different combinations of chemicals in order to simultaneously reduce zearalenone (ZEA) and deoxynivalenol (DON) concentrations. Treatments were carried out in a laboratory conditioner at 80 °C and 17 % moisture. Six different treatments were performed, consisting of 3 doses of methylamine (MMA; 2.5, 5 and 10 g/kg maize) at a constant dose of 5 g sodium metabisulfite (SBS)/kg, either with or without the addition of 20 g calcium hydroxide (Ca(OH)2)/kg. The used maize was contaminated with approximately 45.99 mg DON/kg and 3.46 mg ZEA/kg. Without the addition of Ca(OH)2, DON reductions reached approximately 82% after 1-min treatment and the toxin disappeared nearly completely after 10 min when 2.5 or 5 g MMA were applied. ZEA concentrations were only marginally affected. In the presence of Ca(OH)2, reductions in DON concentrations were lower, but were enhanced by increasing doses of MMA. ZEA concentrations were reduced by 72, 85 and 95% within the first 5 min of the treatment at MMA dosages of 2.5, 5 and 10 g/kg maize, respectively. The application of SBS in combination with a strong alkaline during hydrothermal treatment seems to be a promising approach to simultaneously decontaminate even high amounts of DON and ZEA in ground maize and may contribute to reduce the toxin load of diets.

Secretory expression and characterization of a novel peroxiredoxin for zearalenone detoxification in Saccharomyces cerevisiae.

Zearalenone (ZEN) is a Fusarium mycotoxin, which is considered to be an oestrogenic endocrine disruptor found to cause severe morphological and functional disorders of reproductive organs in livestock. Increasing attention has been paid to the development of an effective strategy for ZEN decontamination. ZEN is oxidized into smaller estrogenic metabolites by a novel peroxiredoxin (Prx) isolated from Acinetobacter sp. SM04. The Prx coding gene was cloned in a secretory vector pYES2-alpha (pYα) with an alpha (α) signal peptide gene inserted into the multiple cloning site of pYES2. The recombinant Prx was secreted from Saccharomyces cerevisiae INVSc1 after inducing with 2% (w/v) galactose for 72 h, and was found to be nearly 20 kDa through 12% SDS-PAGE. The expressed amount of recombinant Prx was 0.24 mg/mL in the extracellular supernatant. Recombinant Prx showed a gradient increase at the beginning of ZEN degradation. The final ZEN degradation amount was 0.43 µg by one unit recombinant Prx after 12 h. Furthermore, the temperature, H(2)O(2) concentration, and pH for highest peroxidase activity of recombinant Prx were 80°C, 20 mM and 9.0, respectively. When compared with other peroxidases, the thermal stability and alkali resistance of recombinant Prx were much better. The results suggest that recombinant Prx is successfully expressed in S. cerevisiae.

Efficacy of a mycotoxin binder against dietary fumonisin, deoxynivalenol, and zearalenone in rats.

It was hypothesized that a mycotoxin binder, Grainsure E, would inhibit adverse effects of a mixture of fumonisin B1, deoxynivalenol, and zearalenone in rats. For 14 and 28 days, 8-10 Sprague-Dawley rats were fed control diet, Grainsure E (0.5%), toxins (7 µg fumonisin B1/g, 8 µg of deoxynivalenol/g and 0.2 µg of zearalenone/g), toxins (12 µg of fumonisin B1/g, 9 µg of deoxynivalenol/g, and 0.2 µg of zearalenone/g + Grainsure E), or pair-fed to control for food intake of toxin-fed rats. After 28 days, decreased body weight gain was prevented by Grainsure E in toxin-fed female rats, indicating partial protection against deoxynivalenol and fumonisin B1. Two effects of fumonisin B1 were partly prevented by Grainsure E in toxin-fed rats, increased plasma alanine transaminase (ALT) and urinary sphinganine/sphingosine, but sphinganine/sphingosine increase was not prevented in females at the latter time point. Grainsure E prevented some effects of fumonisin B1 and deoxynivalenol in rats.

Cleavage of zearalenone by Trichosporon mycotoxinivorans to a novel nonestrogenic metabolite.

Zearalenone (ZON) is a potent estrogenic mycotoxin produced by several Fusarium species most frequently on maize and therefore can be found in food and animal feed. Since animal production performance is negatively affected by the presence of ZON, its detoxification in contaminated plant material or by-products of bioethanol production would be advantageous. Microbial biotransformation into nontoxic metabolites is one promising approach. In this study the main transformation product of ZON formed by the yeast Trichosporon mycotoxinivorans was identified and characterized by liquid chromatography-tandem mass spectrometry (LC-MS/MS) and LC-diode array detector (DAD) analysis. The metabolite, named ZOM-1, was purified, and its molecular formula, C(18)H(24)O(7), was established by time of flight MS (TOF MS) from the ions observed at m/z 351.1445 [M-H](-) and at m/z 375.1416 [M+Na](+). Employing nuclear magnetic resonance (NMR) spectroscopy, the novel ZON metabolite was finally identified as (5S)-5-({2,4-dihydroxy-6-[(1E)-5-hydroxypent-1-en-1-yl]benzoyl}oxy)hexanoic acid. The structure of ZOM-1 is characterized by an opening of the macrocyclic ring of ZON at the ketone group at C6'. ZOM-1 did not show estrogenic activity in a sensitive yeast bioassay, even at a concentration 1,000-fold higher than that of ZON and did not interact with the human estrogen receptor in an in vitro competitive binding assay.

Cactus (Opuntia ficus-indica) cladodes prevent oxidative damage induced by the mycotoxin zearalenone in Balb/C mice.

Zearalenone (ZEN) is one of the most widely distributed fusarial mycotoxins which is encountered at high incidence in many foodstuffs. ZEN was associated with different reproductive disorders in animals. Several in vivo studies have shown that ZEN is hepatotoxic, haematotoxic and causes several alterations of immunological parameters. Furthermore, evidence of its cytotoxicity and genotoxicity has recently emerged from several reports. The aim of the current study was (i) to find out whether oxidative stress could be relevant for ZEN induced toxicity in vivo using Balb/c mice and (ii) to evaluate the safety and efficacy of cactus cladodes Opuntia ficus to prevent the deleterious effects of ZEN. To this end, the effect of a single dose of ZEN (40 mg/kg b.w.) alone and with extract of cactus cladodes (25, 50 and 100 mg/kg b.w.) on the induction of oxidative stress was monitored in kidney and liver by measuring the MDA level, the protein carbonyls generation, the catalase activity and the expression of the heat shock proteins (Hsp). Our results clearly showed that ZEN induced significant alterations in all tested oxidative stress markers. Oxidative damage seems to be a key determinant of ZEN induced toxicity in both liver and kidney of Balb/c mice. The combined treatment of ZEN with the lowest tested dose of cactus extracts (25 mg/kg b.w.) showed a total reduction of ZEN induced oxidative damage for all tested markers. It could be concluded that cactus cladodes extract was effective in the protection against ZEN hazards. This could be relevant, particularly with the emergent demand for natural products which may counteract the detrimental effects of oxidative stress and therefore prevent multiple human diseases.

[Preparation of immunoaffinity column of zearalenone].

OBJECTIVE: To prepare immunoaffinity column of zearalenone. METHODS: The zearalenone immunoaffinity column (IAC) was prepared by coupling CNBr-activated Sepharose 4 Fast Flow (4FF) with the anti-zearalenone monoclonal antibody which was purified by caprylic acid-ammonium sulfate method. The coupling reaction was identified by UV-absorbance measurements, and the IAC prepared was evaluated by indirect-competition ELISA and HPLC. RESULTS: The column capacity was determined to be 0.40 microg when using 0.5 ml of CNBr activated Sepharose 4FF and 350 microg of purified anti-zearalenone monoclonal antibody. The mean true recoveries were in the range 76.33% - 90.10% and RSD was 6.68% - 10.93% at levels of 60 microg/kg - 300 microg/kg. 30 samples of wheat and maize were detected by the anti-ZEN IAC produced by the laboratory, 17 samples were observed to be contaminated in a comparable range from 31.33 microg/kg - 377.84 microg/kg. Detection limit based on a signal-to-noise ratio 3:1 was 10. 00 microg/kg for ZEN in wheat and maize. CONCLUSION: IAC, a simple separating method which is used in ZEN extraction from cereals, is able to purify and condense ZEN in one step. The cost of detection can be lowered down because the IAC developed is hopefully to substitute the imported IAC.

Preventive role of phyllosilicate clay on the Immunological and Biochemical toxicity of zearalenone in Balb/c mice.

Zearalenone (ZEN), a mycotoxin produced by several Fusarium spp., is most commonly found as a contaminant in stored grain and has chronic estrogenic effects on mammals. ZEN and its metabolites have anabolic activities and induced severe stress on liver, kidney and immune system. The aims of the current study were twofold: (1) to investigate the changes in serum biochemical, immunological parameters and histological picture of spleen in ZEN-treated Balb/c mice and (2) to evaluate the safety and efficacy of HSCAS to ameliorate the deleterious effects of ZEN. The results indicated that a single dose of ZEN (40 mg/kg bw) significantly reduced total cholesterol, HDL, LDL, triglycerides, total protein, albumin, total count of WBCs, immunoglobulin profile (Ig A and Ig G) and T-cells subtypes (CD3+, CD4+, CD8+ and CD56+). Whereas, it significantly increased uric acid and urea and induced degenerative changes in the spleen tissues. Mice treated with HSCAS alone (400 mg/kg bw) were comparable to the control regarding all the tested parameters. While HSCAS at levels 600 and 800 mg/kg bw caused changes in some tested biochemical parameters. The combined treatment of ZEN and the lowest tested dose of HSCAS (400 mg/kg bw) showed a significant improvement of the immunological, biochemical and histological parameters. It could be concluded that HSCAS was effective in the protection against the hazards of ZEN at a dose as low as 400 mg/kg bw. These results supported our hypothesis that HSCAS tightly-bind and immobilized ZEN resulted in reduction of toxin bioavailability in animal's gastrointestinal tract.

Efficient decontamination of zearalenone, the mycotoxin of cereal pathogen, by transgenic yeasts through the expression of a synthetic lactonohydrolase gene.

Zearalenone (ZEN), an estrogenic mycotoxin produced by several Fusarium species, is converted to a non-estrogenic product by a detoxifying enzyme of Clonostachys rosea. Previously, we investigated whether recombinant Saccharomyces cerevisiae carrying this detoxification gene, zhd101, can remove 2 microg ml(-1) of ZEN in a liquid culture. Although the transgenic yeasts eliminated most of the ZEN, they also converted a significant amount to a poor substrate, beta-zearalenol, which remained in the medium. In this study, we synthesized a codon-optimized zhd101 gene and investigated whether the transgenic yeast strain can overcome the problem of insufficient detoxification of ZEN. Importantly, within 48 h of incubation at 28 degrees C or 8 h of incubation at 37 degrees C, the transgenic yeasts completely eliminated 2 microg ml(-1) of ZEN in the medium without accumulating even a trace amount of beta-zearalenol. The result suggests that incomplete ZEN detoxification attributed to the action of an endogenous yeast beta-reductase can be overcome by simply increasing the expression of the detoxifying gene.

The effect of fungal competition on colonization of maize grain by Fusarium moniliforme, F. proliferatum and F. graminearum and on fumonisin B1 and zearalenone formation.

The effect of water activity (0.98, 0.95, 0.93) and temperature (15, 25 degrees C) on fungal growth and toxin production from interactions between isolates of Fusarium moniliforme and F. proliferatum producing fumonisin, and an isolate of F. graminearum producing zearalenone, incubated at the same time on irradiated maize grains were determined in vitro. Populations (CFUs) of F. moniliforme and F. proliferatum were reduced to a greater or lesser extent by the presence of F. graminearum under all conditions tested, while that the presence of F. moniliforme or F. proliferatum had a minor inhibitory effect on fungal populations of F. graminearum. Fumonisin B, production by F. proliferatum was inhibited under all conditions tested, while fumonisin B1 production by F. moniliforme was inhibited at 15 degrees C and enhanced at 25 degrees C in the presence of F. graminearum. The level of zearalenone was not significantly modified in the presence of F. moniliforme and F. proliferatum under the conditions tested.

Induction of a SOS repair system in lysogenic bacteria by zearalenone and its prevention by vitamin E.

Zearalenone (Zen) is an oestrogenic mycotoxin produced by several Fusarium species in cereals. It induces modifications of haematological parameters in rats with cytotoxicity and inhibition of macromolecular synthesis (nucleic acids and protein). Zen and its metabolites have oestrogenic and anabolic activities and interact with human oestrogen receptors. Zen and its metabolites showed a positive DNA damaging effect in recombination tests with Bacillus subtilis. It induces sister chromatid exchange and chromosomal aberration in CHO cells. Zen was found to be capable of inducing DNA-adduct formation in mouse liver. The genotoxicity of Zen was questionable until the last decade when increasing data tended to show this toxin to be genotoxic in vivo. However the mechanism of its genotoxicity and mutagenicity has not been completely clarified. The present investigations were designed to show whether Zen induces an SOS-DNA repair response in lysogenic bacteria which have an integrated lambda-bacteriophage in their genome. Zen was found to be genotoxic in the bacterial systems from a concentration of 1.50 mM and it was also bactericidal (IC50 = 1.45 mM). In addition vitamin E (6.0-12.0 mM) added 1 h prior to the toxin proved to prevent both the genotoxic and bactericidal effects of Zen. This vitamin could be active both as an antioxidant and as a radical scavenger. The specificity of this prevention is probably due to the similarity of structure between vitamin E and Zen.

Fungicide inhibition of aflatoxins, diacetoxyscirpenol and zearalenone production.

The effect of fungicides on the production of aflatoxin by Aspergillus flavus IMI 89717, diacetoxyscirpenol and zearalenone by Fusarium graminearum was studied. In a yeast extract-sucrose medium, dicloran, iprodione and vinclozolin fungicides significantly inhibited mycelial growth of A. flavus at 250 ppm and significantly decreased aflatoxin production at 100, 250 and 500 ppm, respectively. In potato-dextrose broth, these fungicides diminished the mycelial growth of F. graminearum and production of diacetoxyscirpenol and zearalenone at 100 ppm. Sensitivity of toxigenic mycelia to fungicides increased approximately five-fold in a yeast extract-starch medium with an appreciable reduction in sugar uptake and alpha-amylase activity.