Resistance of Sclerotinia minor Isolates to Cyclic Imides in Lettuce Field Soils of Roussillon, France

Lettuce drop caused by Sclerotinia minor Jagger is the most common disease affecting lettuce crops during the fall and winter in Roussillon. Spraying of cyclic imide fungicides (iprodione, vinclozolin, and less commonly procymidone) generally provides satisfactory protection. However, since about 1985, the mean field efficacy of iprodione and vinclozolin has significantly decreased, whereas that of procymidone is currently not in question. The appearance of fungicide-resistant isolates of S.minor could explain the reduced efficacy of these fungicides. We thus looked for iprodione and procymidone-resistant isolates of S.minor in these problem fields. The investigations were earned on for over 3 years. Most of the isolates showed fungicide sensitivity (iprodione IC 50 = 0.17 mg 1⁻¹), about one quarter showed average resistance (iprodione IC 50 = 0.59 mg 1⁻¹) and a few were found to be highly resistant. Resistant isolates were also obtained in vitro when using high fungicide concentrations. Moreover, isolates resistant to iprodione were found to be resistant to procymidone. The most highly resistant isolates produced fewer and larger-sized sclerotia than the sensitive isolates, they were also more quickly inhibited by high osmotic pressures. Field variability was quite low: 73 of 74 isolates obtained from one field were found to be sensitive, with only one showing mild resistance. There did not seem to be any correlation between the observed decrease in the field efficacy of iprodione and the presence of resistant isolates.     

Selection of strains of Epicoccum purpurascens for tolerance to fungicides and improved biocontrol of Sclerotinia sclerotiorum

A wild-type isolate of Epicoccum purpurascens was exposed to shortwave ultraviolet light. One of the resulting cultures (M-20-A) was grown on media amended with the fungicides iprodione or vinclozolin and fungicide-tolerant strains were obtained. Several comparisons were made between new strains and the wild type. Sporulation was improved compared with the wild type. Strains varied in their tolerance to iprodione and vinclozolin but were not tolerant to the fungicide benomyl. Strains R4000, 16-B, and 7-A inhibited Sclerotinia sclerotiorum in vitro more than either the wild type or M-20-A, and exhibited improved control of white mold of bean in the greenhouse compared with M-20-A. Key words: biological control, fungicide resistance, white mold, iprodione, vinclozolin.     

In vitro studies on the effects of fungicides on beneficial fungi of peach twig mycoflora

In vitro studies were carried out to investigate a possible integrated use of chemical and biological means to control the peach twig blight pathogen,Monilinia laxa. Three fungal antagonists ofM. laxa (Penicillium purpurogenum, Penicillium frequentans andEpicoccum nigrum) and six fungicides (vinclozolin, iprodione, thiram, captan, benomyl and thiophanate-methyl) were used in the study. Sensitivity of the fungal isolates to the fungicides was determined in vitro by calculating ED50 values. Benomyl and thiophanate-methyl were the most fungitoxic compounds and captan was the least fungitoxic.M. laxa andP. purpurogenum were the most sensitive to all chemicals tested, whileE. nigrum andP. frequentans presented bigger differences in their sensitivity to chemicals compared toM. laxa. E. nigrum was consistently less sensitive to benomyl (ED50=2.26 ppm), thiophanate-methyl (ED50=9.61 ppm) and vinclozolin (ED50=3.89 ppm) than the other fungi.P. frequentans was less sensitive to captan, vinclozolin, iprodione, thiophanate-methyl and thiram thanM. laxa (8, 7, 5, 4 and 2 times respectively). These results suggest thatE. nigrum andP. frequentans could be successfully used in an integrated control programme that combines biological and chemical methods.     

Determination and validation of a simple high-performance liquid chromatographic method for simultaneous assay of iprodione and vinclozolin in human urine

A method based on solid-phase extraction (SPE) and high-performance liquid chromatography (HPLC) was developed for the simultaneous determination of 3-(3,5-diclorophenyl)-5-ethenyl-5-methyl-2,4-oxazolidinedione (vinclozolin) and 3-(3,5-diclorophenyl)-N-(1-methylethyl)-2,4-dioxo-1-imidazolidinecarboxamide (iprodione) in human urine. Urine samples containing vinclozolin and iprodione were collected by solid phase extraction using C(18) cartridges. The chromatographic separation was achieved on a Spherisorb ODS2 (250 mm x 4.6 mm, 5 microm) column with an isocratic mobile phase of acetonitrile-water (60:40, v/v). Detection was UV absorbance at 220 nm. The calibration graphs were linear from 30 to 1000 ng/mL for the two fungicides. Intra- and inter-day R.S.D. did not exceed 2.9%. The quantitation limit was 50 ng/mL for vinclozolin and 30 ng/mL for iprodione, respectively.     

Control of Botrytis cinerea on glasshouse tomato by high volume sprays

The new fungicides iprodione, vinclozolin and prochloraz, and also a mixture containing carbendazim and maneb, were compared with the established protectant fungicides dichlofluanid and chlorothalonil for effectiveness against grey mould ( Botrytis cinerea ) in an unheated tomato crop. Iprodione and vinclozolin gave the best control of lesions on leaves and stems but dichlofluanid was the most effective in controlling ghost-spotting of fruit. The carbendazim/maneb mixture was effective against a carbendazim-sensitive isolate but not against an insensitive isolate of B. cinerea . When applied 1 or 2 days after inoculation, all five protectant fungicides controlled the insensitive isolate better than the sensitive isolate.     

Control of smoulder (Botrytis narcissicold) in narcissus with fungicides

Smoulder, caused by Botrytis narcissicola, is the most widespread foliar disease of narcissus (Narcissus cultivars) in the UK and causes significant losses in bulb and flower yield. A range of current and novel fungicide treatments was examined to determine if control of the disease could be improved and to measure the effect of treatments on bulb yield. In assays on pot-grown plants, carbendazim+flusilazole, epoxiconazole, iprodione + thiophanate-methyl, tebuconazole and vinclozolin reduced lesion size by more than 90%, compared with untreated plants, when applied 1 day before inoculation with the fungus; vinclozolin and tebuconazole were also effective when applied 2 days after inoculation. In field experiments in Cambridgeshire and Lincolnshire, significant reductions were observed in secondary smoulder symptoms (leaf lesions and stem rot) following fungicide sprays. Spray programmes of the novel fungicides azoxystrobin, cyprodinil, kresoxim-methyl, tebuconazole and pyrimethanil were as effective, or more so, than the standard treatments (chlorothalonil, vinclozolin) used by growers. Mixtures of carbendazim + tebuconazole and azoxystrobin + tebuconazole also gave effective control of smoulder. Programmes of four to six sprays, using two or three fungicides with different modes of action, applied alternately, reduced smoulder by 35–69% and increased bulb yields by 7–59%. Although treatment around and after flowering resulted in the greatest control of secondary smoulder, treatment before flowering was required for the highest bulb yields. The choice of fungicides for use in spray programmes to provide effective and reliable control of smoulder, and the possibility of control using fewer sprays, are discussed.     

Glutathione-dependent cytotoxicity of the chloroacetanilide herbicides alachlor, metolachlor, and propachlor in rat and human hepatoma-derived cultured cells

Alachlor, metolachlor, and propachlor are widely used chloroacetanilide herbicides. Their cytotoxicity in rat (Fa32) and human (Hep G2) hepatoma-derived cells was investigated, in connection with their influence on the endogenous glutathione (GSH) content, on the xenobiotic-metabolizing phase I enzymes 7-ethoxyresorufin O-deethylase (EROD) and 7-pentoxyresorufin O-depentylase (PROD), and phase II glutathione transferase (GST). The cytotoxicity was measured by the neutral red uptake inhibition assay. The following toxicity range was observed in both cell lines : propachlor>alachlor>metolachlor. When the endogenous GSH content was reduced by pretreatment of the cells with L-buthionine (S,R)-sulfoximine, the cytotoxicity of the herbicides increased strongly in both cell lines. EROD and PROD activities were dose-dependently increased to different degrees in Fa32, as was EROD in Hep G2, but no PROD activity was observed in these cells. The GSH content was not altered after 1 h treatment, and was approximately doubled after 24 h. GST activity was increased in Fa32 cells but not in Hep G2. A comparable cytotoxicity was observed for the investigated chloroacetanilides in both the rat and the human cell lines. Different interactions with xenobiotic-metabolizing phase I and II enzymes were observed, and GSH showed a protective effect against the acetanilides in both cell lines.     

Fungicide inhibition of aflatoxins,diacetoxyscirpenol and zearalenone production

The effect of fungicides on the production of aflatoxin byAspergillus flavus IMI 89717, diacetoxyscirpenol and zearalenone byFusarium graminearum was studied. In a yeast extract - sucrose medium, dicloran, iprodione and vinclozolin fungicides significantly inhibited mycelial growth ofA. 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 ofF. 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 andα-amylase activity.     

Effets de Traitements Fongicides aux Imides Cycliques sur les Populations de Sclerotinia minor dans le Sol

About the effects of cyclic imides fungicidal treatments on soil populations of Sclerotinia minor When S minor selerotia were incubated in natural soils, they were gradually attacked by a varied antagonistic flora. This phenomenon was seriously slackened when cyclic imides (iprodione of vinclozolin) at 25 or 50 mg.l^-1 were incorporated into the soil, in laboratory trials or in normal conditions of cultivation. These fungicides (which are currently used to control S. minor) seemed to protect selerotia by preventing the development of antagonistic fungi. Selerotial germination was inhibited by vinclozolin but, if the duration of contact was less than 5 weeks, the phenomenon was fully reversible, even in the presence of very high concentrations (500 mg.l^-1). When an inoculum of Trichoderma sp. was added to natural soils, selerotia were rapidly damaged. An even faster decrease of S. minor populations resulted from the incorporation of cyclic imides into these Trichoderma-enriched soils. These organisms are not very susceptible to such fungicides. It is suggested that a joint utilization of these biological auxiliaries and of cyclic imides should be a way to avoid the appearance of a biological unbalance due to an exclusive use of fungicides.     

Plant sterol 14 alpha-demethylase affinity for azole fungicides

Azole fungicides were thought to have much greater affinity for the fungal cytochrome P450 enzyme, sterol 14 alpha-demthylase (CYP51) than the plant orthologue. Using purified CYP51 from the plant Sorghum bicolor L Moenech, a direct comparison of the sensitivity to the fungicides triadimenol and tebuconazole has been carried out. S. bicolor CYP51 was purified to homogenity as determined by SDS--PAGE and specific heme content. Addition of the azole fungicides triadimenol and tebuconazole induced type II spectral changes, with saturation occurring at equimolar azole/P450 concentrations. Inhibition of reconstituted activities revealed only a threefold insensitivity of the plant CYP51 compared to a fungal CYP51, from the phytopathogen Ustilago maydis, as judged by IC(50) values. The implications for fungicide mode of action and application are discussed.     

Influence of acetaminophen and trichloroethylene on liver cytochrome P450-dependent monooxygenase system

The aim of the study was to evaluate the effect of acetaminophen (APAP) and/or trichloroethylene (TRI) on the liver cytochrome P450-dependent monooxygenase system, CYP2E1 and CYP1A2 (two important P450 isoforms), and liver glutathione (GSH) content in rats. Rats were given three different doses of APAP (250, 500 and 1000 mg/kg b...) and then the above-mentioned parameters were measured for 48 h. The lowest APAP dose produced small changes in the cytochrome P450 content of liver. At 500 mg/kg APAP increased the cytochrome P450 content to 230% of the control. The inductive effect was seen at 1000 mg/kg dose but at 24 h and later. NADPH-cytochrome P450 reductase activity was the highest after the lowest dose of APAP, while after the highest dose it was equal to the control value. TRI increased both the cytochrome P450 content and the NADPH-cytochrome P450 reductase activity. When TRI was combined with APAP, both these parameters increased in the first hours of observation, but they returned to the control values at 24 h. When APAP was given at 250 mg/kg, GSH levels decreased to 55% of the control at 8 h and returned to the control values at 24 h. The higher doses of APAP decreased GSH levels more than the lowest dose, but after 24 h GSH levels did not differ from those of the control. When TRI was given at 250 mg/kg, the GSH levels decreased to 68% of the control at 2 h and then they increased gradually and tended to exceed the control values at 48 h. The effect of TRI combined with APAP on the level of GSH was virtually the same as that of APAP alone given at 500 mg/kg.     

Role of selenium against lead toxicity in male rats

Male albino rats were intramuscularly administered a single dose of lead acetate (100 μmol/kg b.wt). Another group of rats were injected with sodium selenite (10 μmol/kg b.wt) before lead intoxication. After 3 and 24 hours, lead treatment resulted in significant increases in acid and alkaline phosphatases, GOT and GPT, total proteins, and cholesterol in serum. The total triglycerides in serum was decreased after 24 hours of intoxication. Lead treatment also produced significant elevation of lipid peroxidation in liver and kidney. The antioxidant capacity of hepatic and renal cells in terms of the activities of superoxide dismutase, glutathione reductase, and glutathione content was diminished. It appears from these results that lead may exert its toxic effect via peroxidative damage to renal and hepatic cell membranes after 24 hours. Selenium administration prior to lead injection produced pronounced prophylactic action against lead effects, and it is observed that selenium enhances the endogenous antioxidant capacity of the cells by increasing the activities of the superoxide dismutase and glutathione reductase and the glutathione content. As a result, the lipid peroxidation was decreased in both liver and kidney. © 1998 John Wiley & Sons, Inc. J Biochem Mol Toxicol 12: 345–349, 1998     

Activation of rat liver microsomal glutathione S-transferase by reduced oxygen species

The effect of enzymatically generated reduced oxygen metabolites on the activity of hepatic microsomal glutathione S-transferase activity was studied to explore possible physiological regulatory mechanisms of the enzyme. Noradrenaline and the microsomal cytochrome P-450-dependent monooxygenase system were used to generate reduced oxygen species. When noradrenaline (greater than 0.1 mM) was incubated with rat liver microsomes in phosphate buffer (pH 7.4), an increase in microsomal glutathione S-transferase activity was observed, and this activation was potentiated in the presence of a NADPH-generating system; the glutathione S-transferase activity was increased to 180% of the control with 1 mM noradrenaline and to 400% with both noradrenaline and NADPH. Superoxide dismutase and catalase inhibited partially the noradrenaline-dependent activation of the enzyme. In the presence of dithiothreitol and glutathione, the activation of the glutathione S-transferase by noradrenaline, with or without NADPH, was not observed. In addition, the activation of glutathione S-transferase activity by noradrenaline and glutathione disulfide was not additive when both compounds were incubated together. These results indicate that the microsomal glutathione S-transferase is activated by reduced oxygen species, such as superoxide anion and hydrogen peroxide. Thus, metabolic processes that generate high concentrations of reduced oxygen species may activate the microsomal glutathione S-transferase, presumably by the oxidation of the sulfhydryl group of the enzyme, and this increased catalytic activity may help protect cells from oxidant-induced damage.     

Retrorsine,but not monocrotaline,is a mechanism-based inactivator of P450 3A4

Retrorsine (RTS) and monocrotaline (MCT) cause severe toxicities via P450-mediated metabolic activation. The screening of mechanism-based inhibitors showed RTS inactivated 3A4 in the presence of NADPH. Unlike RTS, MCT failed to inhibit P450 3A4 and other enzymes tested. Further studies showed the loss of P450 3A4 activity occurred in a time- and concentration-dependent way, which was not recovered after dialysis. Dextromethorphan, a P450 3A4 substrate, protected the enzyme from the inactivation. Exogenous nucleophile glutathione (GSH) and reactive oxygen species scavengers catalase and superoxide dismutase did not protect P450 3A4 from the inactivation. GSH trapping experiments showed both P450 3A4 and 2C19 converted RTS and MCT to the corresponding electrophilic metabolites which could be trapped by GSH to form 7-GSH-DHP conjugate. We conclude that RTS and MCT are metabolically activated by P450 3A4 and 2C19, and that RTS, but not MCT, is a mechanism-based inactivator of P450 3A4.     

Chemical toxicity testing in vitro using cytochrome P450-expressing cell lines, such as human CYP1B1

This protocol describes how to use cytochrome P450-dependent monooxygenase (CYP)-expressing cell lines in toxicity testing of chemicals in vitro. Selected cells amenable to permanently grow in culture are genetically manipulated to stably express single CYP enzymes originating from any species of interest. This expression can be characterized by, for example, determining CYP mRNA content, CYP protein level (western blotting or in situ immunofluorescence) and CYP-mediated enzyme activity (substrate conversion assays). These cells can be used to determine substrate specificities and species differences, e.g., in the bioactivation of drugs. Once constructed, CYP-expressing cells can serve as a straightforward and reliable tool in toxicity testing and the corresponding assays could be adapted for high-throughput analysis. Using these cells, enzyme assays can be performed in a matter of hours. This protocol is exemplified with V79 fibroblasts from Chinese hamster (Cricetulus griseus), modified to express human cytochrome P450 1B1 (CYP1B1). These cells are characterized for their CYP1B1-linked properties by in situ immunofluorescence and their activity in the 7-ethoxyresorufin-O-deethylase enzyme assay. This is followed by an assay showing metabolic activation of the polycyclic aromatic hydrocarbon dibenzo[a,l]pyrene by CYP1B1, along with the toxicological endpoints of cytotoxicity and micronucleus formation.     

Therapeutic effect of curcumin on acrylamide‐induced apoptosis mediated by MAPK signaling pathway in Leydig cells

The aim of this study was to investigate the possible therapeutic effects of curcumin (CUR), against acrylamide (AA)‐induced toxic effects on Leydig cells. The AA and CUR‐treated cells were evaluated for cell viability, lipid peroxidation, reactive oxygen species (hydroxyl radical and hydrogen peroxide), antioxidant levels (glutathione peroxidase, glutathione‐S‐transferase, and catalase), apoptosis/necrosis rates and phosphorylation status of mitogen‐activated protein kinases (MAPKs). Leydig cells were exposed to four concentrations of AA (1, 10, 100, 1000 µM) in the presence and absence of CUR (2.5 µM) for 24 hours. According to the present result, AA concentration‐dependently, increased the oxidative stress parameters and suppressed the antioxidant enzyme levels, meanwhile induced apoptosis and activated the phosphorylation of extracellular signal‐regulated kinase, p38, and c‐Jun NH ₂‐terminal kinase. Moreover, CUR ameliorated the detrimental effects of AA. Thus, AA‐induced apoptosis through activation of the MAPK signaling pathway and CUR has a protective effect against AA‐induced damage in Leydig cells.     

Induction of mixed-function oxygenase system and antioxidant enzymes in the coral Montastraea faveolata on acute exposure to benzo(a)pyrene

Components of the cytochrome P(450) monooxygenase system (MFO) and antioxidant enzymes were investigated in the coral Montastraea faveolata exposed to the organic contaminant benzo(a)pyrene (B(a)P). For bioassays the corals were exposed to increasing concentrations of B(a)P (0.01 and 0.1 ppm) for 24 and 72 h, with water renewal every 24 h. Enzymatic activity of catalase (CAT), superoxide dismutase (SOD) and glutathione S-transferase (GST) were measured in host (polyp) and hosted (zooxanthellae) cells. NADPH cytochrome c reductase activity and contents of cytochrome P(450) and P(420) were only measured in the polyp. Antioxidant enzymes CAT and SOD in polyps and zooxanthellae and GST in polyps increased significantly at the highest concentration and maximum time of exposure. Cytochrome P(420) was found in all colonies, and the cytochrome P(450) content was greatest in the colonies from the highest concentrations of contaminant. NADPH cytochrome c reductase activity and the concentration of pigments did not vary between treatments. This is the first report of the induction of both detoxifying mechanisms, the MFO system and antioxidant enzymes on acute exposure to an organic contaminant in the reef-constructing coral species M. faveolata.     

Mechanism of toxicity of precocene II in rat hepatocyte cultures

Precocene II was more toxic in 24 hour cultures than in 72 hour cultures of rat hepatocytes. In 24 hour cultures, there was no observable toxicity at 75 μM precocene II after exposure for 6 hours, but after 24 hours, 65% of the cells were dead. In contrast, although 794 μM killed 50% of the cells in the 72 hour cultures after a 24 hour exposure, 1 mM killed 96% of the cells within 6 hours. In both 24 and 72 hour cultures, cell death was preceded by a rapid, early loss of mitochondrial membrane potential, followed by decreases in glutathione, reduced pyridine nucleotide status, and plasma membrane Na⁺/K⁺-ATPase activity. There was also a rapid loss of ATP in the 72 hour cultures but not in the 24 hour cultures; therefore, onset of cell death may be closely linked to loss of ATP. Inhibition of cytochrome P-450 prevented the toxicity, and partially protected against the loss of membrane potential and glutathione, in 24 hour cultures but was ineffective in 72 hour cultures. Therefore, in addition to depletion of glutathione, precocene II appears to damage mitochondria and plasma membrane functions and can do so by more than one pathway. © 1996 John Wiley & Sons, Inc.     

Alterations of the glutathione-redox balance induced by metals in CHO-K1 cells

The effects of cadmium (Cd(2+)), mercury (Hg(2+)), lead (Pb(2+)), copper (Cu(2+)) and nickel (Ni(2+)) on the glutathione (GSH)-redox cycle were assessed in CHO-K1 by the neutral red uptake inhibition (NR) assay (NR(6.25), NR(12.5) and NR(25)). Mercury proved to be the most and lead the least toxic of the metals tested. The effects on GSH content and intracellular specific activities of enzymes involved in the GSH-redox balance were measured after a 24-h exposure. Total GSH content increased significantly in cultures exposed to the lowest metal concentration assayed (NR(6.25)), but fell to below control values when exposed to concentrations equivalent to NR(25). Oxidised glutathione content dropped significantly at NR(6.25), while somewhat higher values were obtained for cultures exposed to higher doses. Glutathione peroxidase (Gpx) activities were 1.2-, 1.5-, 1.6-, 2.0- and 2.5-fold higher than untreated controls for cadmium, copper, mercury, nickel and lead, respectively, at concentrations equivalent to NR(6.25). Gpx activity declined at metal concentrations equivalent to NR(12.5) and NR(25). Glutathione reductase activity remained almost unchanged except at low doses of mercury, nickel and lead. Glutathione-S-transferase activity decreased at rising metal concentrations. The results suggest that a homeostatic defence mechanism was activated when cells were exposed to doses equivalent to NR(6.25) while the ability of the cells to respond weakened as the dose increased. A close relationship was also observed between metal cytotoxicity, total GSH content and the dissociation energy of the sulphur-metal bonds. These facts confirm the involvement of antioxidant defence mechanisms in the toxic action of these ions.