Katharina Jarolim scite author profile

The mycotoxins altertoxin I and II (ATX I and II) are secondary metabolites produced by Alternaria alternata fungi and may occur as food and feed contaminants, especially after long storage periods. Although the toxic potential of altertoxins has been previously investigated, little is known about the pathways that play a role in their intracellular metabolism. In order to identify potential targets of ATX I and ATX II, the two toxins were tested for interaction with the nuclear factor erythroid-derived 2-like 2/antioxidant response element (Nrf2/ARE) pathway in mammalian cells. This pathway can be activated by various stressors resulting in the expression of enzymes important for metabolism and detoxification. In the present study, only ATX II triggered a concentration-dependent increase in Nrf2-ARE-dependent luciferase expression. Consistently, confocal microscopy revealed an ATX II-induced increase in Nrf2 signal in HT29 intestinal cells. In agreement with these data, ATX II induced the transcription of γ-glutamate cysteine ligase, the key enzyme in catalyzing GSH synthesis of the cells and which is regulated by Nrf2. Further investigations demonstrated that ATX II induced a concentration-dependent depletion of the cellular GSH levels after short incubation time (3 h) and an increase after longer incubation time (24 h). In conclusion, it was demonstrated that ATX II can interact at several levels of the Nrf2-ARE pathway in mammalian cells and that ATX I does not share the same mechanism of action.Electronic supplementary materialThe online version of this article (doi:10.1007/s00204-016-1726-7) contains supplementary material, which is available to authorized users.

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The secondary Fusarium metabolite aurofusarin induces oxidative stress, cytotoxicity and genotoxicity in human colon cells

Jarolim

Wolters

Woelflingseder

et al. 2018

Toxicology Letters

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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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Dual effectiveness of Alternaria but not Fusarium mycotoxins against human topoisomerase II and bacterial gyrase

et al. 2016

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Type II DNA-topoisomerases (topo II) play a crucial role in the maintenance of DNA topology. Previously, fungi of the Alternaria genus were found to produce mycotoxins that target human topo II. These results implied the question why a fungus should produce secondary metabolites that target a human enzyme. In the current work, the homology between human topo II and its bacterial equivalent, gyrase, served as basis to study a potential dual inhibition of both enzymes by mycotoxins. A total of 15 secondary metabolites produced by fungi of the genera Alternaria and Fusarium were assessed for their impact on topo II of human and bacterial origin in the decatenation and the supercoiling assay, respectively. In line with the theory of dual topo II inhibition, six of the tested Alternaria mycotoxins were active against both enzymes, the dibenzo-α-pyrones alternariol (AOH) and alternariol monomethyl ether (AME), as well as the perylene-quinones altertoxin I (ATX I) and II (ATX II), alterperylenol (ALP) and stemphyltoxin III (STTX III). The Alternaria metabolites altersetin (ALN), macrosporin (MAC), altenusine (ALS) and pyrenophorol (PYR) impaired the function of human topo II, but did not show any effect on gyrase. The potency to inhibit topo II activity declined in the row STTX III (initial inhibitory concentration 10 µM) > AOH (25 µM) = AME (25 µM) = ALS (25 µM) = ATX II (25 µM) > ALN (50 µM) = ATX I (50 µM) > ALP (75 µM) = PYR (75 µM) > MAC (150 µM). Inhibition of gyrase activity was most pronounced for AOH and AME (initial inhibitory concentration 10 µM) followed by ATX II (25 µM) > ATX I = ALP = STTX III (50 µM). In contrast, none of the investigated Fusarium mycotoxins deoxynivalenol (DON), fumonisin B1, fusarin C and moniliformin, as well as the Alternaria metabolite tentoxin, had any impact on the activity of neither human nor bacterial topo II.Electronic supplementary materialThe online version of this article (doi:10.1007/s00204-016-1855-z) contains supplementary material, which is available to authorized users.

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A Dual Topoisomerase Inhibitor of Intense Pro‐Apoptotic and Antileukemic Nature for Cancer Treatment

Meier

Steinhauer

Koczian³

et al. 2017

ChemMedChem

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Classic cytotoxic drugs remain indispensable instruments in antitumor therapy due to their effectiveness and a more prevalent insensitivity toward tumor resistance mechanisms. Herein we describe the favorable properties of 6-(N,N-dimethyl-2-aminoethoxy)-11-(3,4,5-trimethoxyphenyl)pyrido[3,4-c][1,9]phenanthroline (P8-D6), a powerful inducer of apoptosis caused by an equipotent inhibition of human topoisomerase I and II activities. A broad-spectrum effect against human tumor cell lines at nanomolar concentrations, as well as strong antileukemic effects, were shown to be superior to those of marketed topoisomerase-targeting drugs and dual topoisomerase inhibitors in clinical trials. The facile four-step synthesis, advantageous drugability properties, and initial in vivo data encourage the application of P8-D6 in appropriate animal tumor models and further drug development.

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