Characterization of ochratoxin A-induced apoptosis in primary rat hepatocytes

The main target organ of the mycotoxin ochratoxin A (OTA) in mammals is the kidney but OTA has also been shown to be hepatotoxic in rats and to induce tumors in mouse liver. Even at very low concentrations, OTA causes perturbations of cellular signaling pathways as well as enhanced apoptosis. OTA has been extensively studied in kidney cell systems. Since this substance also affects liver health, we focused our work on apoptosis-related events induced by OTA in primary rat hepatocytes. We performed pathway-specific polymerase chain reaction arrays to assess the expression of genes involved in apoptosis. Treatment with 1 μM OTA for 24 h caused marked changes in apoptosis-related gene expression. Genes as apaf1, bad, caspase 7, polb (DNA polymerase beta, performs base excision repair), and p53, which are marker genes for DNA damage, were upregulated. FAS and faslg were also markedly induced by treatment with OTA. Treatment of hepatocytes with OTA led to a concentration-dependent inhibition of protein biosynthesis. Apoptosis-inducing factor was released from mitochondria following OTA treatment; the mycotoxin induced the activity of caspases 8, 9, and 3/7 and caused chromatin condensation and fragmentation. Caspase inhibition led to a significant but not complete reduction of OTA-induced apoptosis. Our data suggest that not only OTA leads to p53-dependent apoptosis in rat hepatocytes but it also hints to other mechanisms, independent of caspase activation or protein biosynthesis, being involved.     

Modulation of ochratoxin A induced DNA-damage in urothelial cell cultures

Despite good evidence for a genotoxic potential of ochratoxin A (OTA), the mechanism of OTA-induced genotoxicity (direct or indirect?) is still unclear. This calls for a further characterization of OTA-related DNA damage, and investigations of factors that may modulate dose-effect relationships in cells. Since bladder epithelium is a target tissue for the toxicity of OTA, its effects were studied in cultures of human bladder carcinoma (H5637) cells. Cytotoxicity of OTA, assessed by Neutral red (NR) uptake or Alamar-Blue assay, is concentration- and time-dependent: Upon 24 h treatment of 5637 cells, NR uptake is reduced by 50% with OTA concentrations of ≥0.2 microM, but not with 3 h treatment of the cells. Since cytotoxicity of OTA was not affected by addition of xenobiotic metabolizing enzymes (S-9 mix), it appears to be unrelated to biotransformation of the mycotoxin. Also, addition of S-9 mix did not significantly affect the genotoxicity of OTA as studied by alkaline single cell gel electrophoresis (Comet assay). DNA damage was detectable after 3 h treatment of cells at OTA concentrations between 0.1 and 1 microM, and increased further at higher concentrations. The magnitude of OTA-induced DNA damage did not increase with longer treatment times (18, 24 h), probably due to repair processes in the cells. Repair of OTA-induced lesions is quite efficient in kidney (Arch Toxicol 2002, 75, 734–741) and in porcine bladder cells (Föllmann and Lebrun, 2005, Mycotoxin Research, this volume). Interestingly, the genotoxicity of OTA is modulated by the pH of the culture medium, with higher damage at pH 5 compared to pH 7.5. In line with this, uptake studies with tritiated OTA show a higher cellular accumulation of the mycotoxin at pH 5 than in buffer of pH 7.5. Thus, bladder cells exposed to OTA in slightly acidic urine (which facilitates reabsorption) may be at higher risk.     

Incubation time and water activity effects on ochratoxin A production by Aspergillus section Nigri strains isolated from grapes

AIMS: The objective of this study was to determine the temporal ochratoxin A (OTA) accumulation profile of Aspergillus section Nigri at different water activity (aw) levels. METHODS AND RESULTS: Two Aspergillus carbonarius and two Aspergillus niger aggregate strains isolated from grapes were tested in vitro for OTA accumulation at 25 degrees C on synthetic nutrient medium, over periods of 20 days at different aw levels. Results were modelled by a multiple linear regression and response surface predictive models were obtained. High levels of aw favoured OTA production by these moulds. Maximum amounts of OTA were found at the earlier growth states (5 days for A. carbonarius and 7-13 days for A. niger aggregate). CONCLUSIONS: Provided that A. section Nigri, and mainly A. carbonarius, play the main role in OTA presence in grapes, it would be critical to adjust the harvest and processing time to significantly reduce the chances for OTA accumulation. SIGNIFICANCE AND IMPACT OF THE STUDY: Ochratoxin A production by A. section Nigri has been shown for the first time to occur optimally after as little as 5 days on a grape-like medium.     

Nuclear-organelle interactions: nuclear antisense gene inhibits ribulose bisphosphate carboxylase enzyme levels in transformed tobacco plants

The biosynthesis of ribulose bisphosphate carboxylase (RUBISCO) provides a model system for studying the coordination of nuclear and organelle gene expression, since this abundantly transcribed and expressed chloroplast enzyme is composed of small (SS) and large subunits (LS) encoded by a nuclear multigene family and a single chloroplast gene, respectively. We have tested the possibility that SS mRNA or protein levels affect LS mRNA amounts or LS protein production and accumulation. We find that expression of antisense DNA sequences for the SS in transgenic tobacco plants drastically reduces the accumulation of SS mRNA and SS protein. These changes are accompanied by corresponding reductions of LS protein but not LS mRNA amounts; accumulation of the LS protein appears to be regulated by translational and posttranslational factors. We also find that the transgenic plants display striking variations in growth that are correlated with antisense gene dosage.     

Potential of ochratoxin A production by Aspergillus carbonarius strains isolated from grapes at different ecological factors

Aspergillus carbonarius is known to colonize and produce ochratoxin A (OTA) on grapes and its derived products which is harmful to humans. We screened and tested A. carbonarius strains which isolated from grapes for production of OTA and selected three high OTA producing strains (ACSP1, ACSP2, ACSP3) for this study. These strains were further tested for their ability to produce OTA at different ecological factors [temperature 15, 25, 30, 35°C; water activity (a_w) 0.98, 0.95, 0.90, 0.88; and pH 4.0, 7.0, 9.0, 10.0]. Out of the three strains tested, A. carbonarius ACSP3 produced high levels of OTA than ACSP2 and ACSP1 in all the ecological factors. At 30°C A. carbonarius strains produced the highest OTA compared with other temperature regimes. With reference to water activity, a_w 0.98 favoured mycelial growth and accumulation of more OTA with all the three A. carbonarius strains. Further, pH 4.0 was encouraged the greatest production of OTA in all the strains. No growth was observed at a_w 0.88 and pH 10.0 in all the three strains except the strain ACSP3 at high pH. Our work demonstrated that temperature 30°C, a_w 0.98 and pH 4.0 is optimum for growth and production of OTA by A. carbonarius strains. Maximum amounts of OTA were found at earlier growth stages (7–9 days of incubation) in all the strains of A. carbonarius. The present study revealed that different ecological factors had great impact on OTA production by A. carbonarius which is useful for understanding OTA contamination and to develop proper management practices in future research programmes.     

Structural and functional characterization of three polyketide synthase gene clusters in Bacillus amyloliquefaciens FZB 42

Although bacterial polyketides are of considerable biomedical interest, the molecular biology of polyketide biosynthesis in Bacillus spp., one of the richest bacterial sources of bioactive natural products, remains largely unexplored. Here we assign for the first time complete polyketide synthase (PKS) gene clusters to Bacillus antibiotics. Three giant modular PKS systems of the trans-acyltransferase type were identified in Bacillus amyloliquefaciens FZB 42. One of them, pks1, is an ortholog of the pksX operon with a previously unknown function in the sequenced model strain Bacillus subtilis 168, while the pks2 and pks3 clusters are novel gene clusters. Cassette mutagenesis combined with advanced mass spectrometric techniques such as matrix-assisted laser desorption ionization-time of flight mass spectrometry and liquid chromatography-electrospray ionization mass spectrometry revealed that the pks1 (bae) and pks3 (dif) gene clusters encode the biosynthesis of the polyene antibiotics bacillaene and difficidin or oxydifficidin, respectively. In addition, B. subtilis OKB105 (pheA sfp(0)), a transformant of the B. subtilis 168 derivative JH642, was shown to produce bacillaene, demonstrating that the pksX gene cluster directs the synthesis of that polyketide. The GenBank accession numbers for gene clusters pks1(bae), pks2, and pks3(dif) are AJ 634060.2, AJ 6340601.2, and AJ 6340602.2, respectively.     

Stimulation of aflatoxin B1 and T-2 toxin production by sorbic acid

Aspergillus flavus grown on yeast extract-sucrose medium produced higher amounts of aflatoxin B1 in the presence of 0.025% sorbic acid than without this chemical with a maximum at 17 days of incubation. Addition of 0.05 to 0.0125% sorbic acid stimulated T-2 toxin production of Fusarium acuminatum cultures grown on maize meal. The highest amounts of the mycotoxin were detected in 14-day-old cultures containing 0.025% sorbic acid. It is assumed that certain amounts of sorbic acid near the minimal inhibitory concentration reduce the activity of the tricarboxylic acid cycle; this may lead to an accumulation of acetyl coenzyme A, which is an essential intermediate in the biosynthesis of aflatoxin B1 and T-2 toxin.     

Stimulation of aflatoxin B1 and T-2 toxin production by sorbic acid.

Aspergillus flavus grown on yeast extract-sucrose medium produced higher amounts of aflatoxin B1 in the presence of 0.025% sorbic acid than without this chemical with a maximum at 17 days of incubation. Addition of 0.05 to 0.0125% sorbic acid stimulated T-2 toxin production of Fusarium acuminatum cultures grown on maize meal. The highest amounts of the mycotoxin were detected in 14-day-old cultures containing 0.025% sorbic acid. It is assumed that certain amounts of sorbic acid near the minimal inhibitory concentration reduce the activity of the tricarboxylic acid cycle; this may lead to an accumulation of acetyl coenzyme A, which is an essential intermediate in the biosynthesis of aflatoxin B1 and T-2 toxin.     

Mycoviruses mediate mycotoxin regulation in Aspergillus ochraceus

To date, no demonstration of a direct correlation between the presence of mycoviruses and the quantitative or qualitative modulation of mycotoxins has been shown. In our study, we transfected a virus-free ochratoxin A (OTA)-producing isolate of Aspergillus ochraceus with purified mycoviruses from a different A. ochraceus isolate and from Penicillium aurantiogriseum. Among the mycoviruses tested, only Aspergillus ochraceus virus (AoV), a partitivirus widespread in A. ochraceus, caused a specific interaction that led to an overproduction of OTA, which is regulated by the European Commission and is the second most important contaminant of food and feed commodities. Gene expression analysis failed to reveal a specific viral upregulation of the mRNA of genes considered to play a role in the OTA biosynthetic pathway. Furthermore, AoOTApks1, a polyketide synthase gene considered essential for OTA production, is surprisingly absent in the genome of our OTA-producing isolate. The possible biological and evolutionary implications of the mycoviral regulation of mycotoxin production are discussed.     

Detoxification of ochratoxin A,a food contaminant: Prevention of growth of Aspergillus ochraceus and its production of ochratoxin A

The toxicity of ochratoxin A (OTA), a mycotoxin produced by fungi ofAspergillus orPenicillium genera is now well documented. Its nephrotoxicity, immunosuppression, teratogenicity, and carcinogenicity have been widely studied. Physical and biochemical methods have been studied to prevent these toxinogenicAspergillus andPenicillium from producing OTA, and/or to destroy the mycotoxin when already produced in a liquid or a solid medium. Repeated freezing at ? 20?C and thawing at + 26?C aleatory reduce OTA production in a liquid medium. Exposure to UV B for different periods of time is efficient in preventing OTA production in a liquid medium. Gamma-irradiation from 2 to 5 kGy gives good results in preventing the production of OTA or destroying it when already produced. Carboxypeptidase is very efficient at 5 units/50 ml in a liquid medium for cleaving the OTA already produced.     

Stress induction of mycotoxin biosynthesis genes by abiotic factors

Systematic expression analysis of mycotoxin biosynthesis genes by real-time PCR and microarray was carried out to examine the relationship between growth and general expression patterns in relation to single environmental factors such as temperature, water activity (a(w)) and pH and water activity x temperature interactions. For single parameters, one major peak of expression occurred close to optimum growth conditions. However, a second minor peak was observed under suboptimal growth conditions, when intermediate environmental stress was imposed on Aspergillus parasiticus (afl genes), Penicillium verrucosum (ota genes) and Fusarium culmorum (tri genes). This expression profile pattern was more pronounced in relation to changes in temperature and a(w) than to pH. In a two-factorial experimental design with temperature xa(w) regimes, again two peaks of expression were observed for cluster genes after microarray analysis, one close to those giving optimal growth and one under imposed stress conditions. Interestingly, when the activity of single genes of the microarray data were plotted in relation to the two parameters, again a two-peak expression profile became obvious independently for both parameters. Expression of the mycotoxin biosynthesis genes was followed exactly by phenotypic mycotoxin production. This expression profile appears to be generic across the mycotoxigenic fungi examined.