Katharina Vejdovszky scite author profile

Mycotoxins are toxic secondary metabolites formed by various fungal species that are found as natural contaminants in food. This very heterogeneous group of compounds triggers multiple toxic mechanisms, including endocrine disruptive potential. Current risk assessment of mycotoxins, as for most chemical substances, is based on the effects of single compounds. However, concern on a potential enhancement of risks by interactions of single substances in naturally occurring mixtures has greatly increased recently. In this study, the combinatory effects of three mycoestrogens were investigated in detail. This includes the endocrine disruptors zearalenone (ZEN) and α-zearalenol (α-ZEL) produced by Fusarium fungi and alternariol (AOH), a cytotoxic and estrogenic mycotoxin formed by Alternaria species. For evaluation of effects, estrogen-dependent activation of alkaline phosphatase (AlP) and cell proliferation were tested in the adenocarcinoma cell line Ishikawa. The estrogenic potential varied among the single substances. Half maximum effect concentrations (EC50) for AlP activation were evaluated for α-ZEL, ZEN and AOH as 37 pM, 562 pM and 995 nM, respectively. All three mycotoxins were found to act as partial agonists. The majority of binary combinations, even at very low concentrations in the case of α-ZEL, showed strong synergism in the AlP assay. These potentiating phenomena of mycotoxin mixtures highlight the urgent need to incorporate combinatory effects into future risk assessment, especially when endocrine disruptors are involved. To the best of our knowledge, this study presents the first investigation on synergistic effects of mycoestrogens.

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Combinatory estrogenic effects between the isoflavone genistein and the mycotoxins zearalenone and alternariol in vitro

Vejdovszky

Schmidt

Warth

et al. 2016

Molecular Nutrition Food Res

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We demonstrate that mixture effects of phyto- and mycoestrogens potentially pose unexpected risks to consumers. Our study highlights the necessity of according considerations regarding combinatory effects in future risk assessment. The applied in vitro study design represents a cost-efficient screening method to discover interactive effects of estrogens as a basic decision tool for priority risk assessment.

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Non-synergistic cytotoxic effects of Fusarium and Alternaria toxin combinations in Caco-2 cells

et al. 2016

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Modified Reference Point Index (mRPI) and a decision tree for deriving uncertainty factors: A practical approach to cumulative risk assessment of food contaminant mixtures

Vejdovszky

Mihats

Griesbacher

et al. 2019

Food and Chemical Toxicology

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In vitro combinatory effects of the Alternaria mycotoxins alternariol and altertoxin II and potentially involved miRNAs

et al. 2017

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Alternariol (AOH) and altertoxin II (ATX II) are mycotoxins formed by Alternaria spp. Since they are expected to co-occur in Alternaria-infested food and feed, we addressed the question of combinatory effects. In addition, potentially involved regulatory microRNAs were surveyed in an exploratory approach. Cytotoxicity measurements in constant ratio combinations of 1:10 or 1:1 (ATX II: AOH) mainly revealed additive effects in HepG2, HT29 and HCEC-1CT cells. Yet, in specific high doses antagonism was found. Microarray analysis of miRNA expression profiles in HepG2 cells indicated different patterns of miRNA regulation by AOH and ATX II, including several miRNA species for which no distinct functions are currently known. Among others, miR-4654, miR-4715_3p and miR-6720_3p were up-regulated by AOH and miR-5583_5p was down-regulated by ATX II. Additionally, miR-1323, involved in hindering DNA repair mechanisms, was decreased by ATX II. Digital droplet PCR (ddPCR) analysis of selected miRNAs indicated regulation of miR-29a by AOH, which might play a role in AOH-induced apoptosis. miR-192 and miR-224 regulation was associated with antagonistic cytotoxic effects of AOH and ATX II combinations. Our study represents the first evaluation on combinatory effects of AOH and ATX II.

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