alternariol and Esophageal-Neoplasms

Studies on the genotoxicity of Alternaria mycotoxins focus primarily on the native compounds. Alternariol (AOH) and its methyl ether (AME) have been reported to represent substrates for cytochrome P450 enzymes, generating hydroxylated metabolites. The impact of these phase I metabolites on genotoxicity remains unknown. In the present study, the synthesis and the toxicological effects of the metabolites 4-hydroxy alternariol (4-OH-AOH) and 4-hydroxy alternariol monomethyl ether (4-OH-AME) are presented and compared to the effects of the parent molecules. Although the two phase I metabolites contain a catecholic structure, which is expected to be involved in redox cycling, only 4-OH-AOH increased reactive oxygen species (ROS) in human esophageal cells (KYSE510), 4 times more pronounced than AOH. No ROS induction was observed for 4-OH-AME, although the parent compound showed some minor impact. Under cell-free conditions, both metabolites inhibited topoisomerase II activity comparable to their parent compounds. In KYSE510 cells, both metabolites were found to enhance the level of transient DNA-topoisomerase complexes in the ICE assay. Although the level of ROS was significantly increased by 4-OH-AOH, neither DNA strand breaks nor enhanced levels of formamidopyrimidine-DNA-glycosylase (FPG)-sensitive sites were observed. In contrast, AOH induced significant DNA damage in KYSE510 cells. Less pronounced or even absent effects of hydroxylated metabolites compared to the parent compounds might at least partly be explained by their poor cellular uptake. Glucuronidation as well as sulfation appear to have only a minor influence. Instead, methylation of 4-OH-AOH seems to be the preferred way of metabolism in KYSE510 cells, whereby the toxicological relevance of the methylation product remains to be clarified.

Topics: Antigens, Neoplasm; Cell Line, Tumor; Cell-Free System; DNA Damage; DNA Topoisomerases, Type II; DNA-Binding Proteins; Esophageal Neoplasms; Humans; Hydroxylation; Lactones; Mitochondria; Mutagenicity Tests; NF-E2-Related Factor 2; Oxidative Stress; Reactive Oxygen Species

The mycotoxin alternariol (AOH) is found in food and beverages infected by Alternaria alternata. Because consumption of foodstuffs contaminated with A. alternata has been implicated in an elevated incidence of esophageal carcinogenesis, we have investigated the estrogenic potential, the effect on cell proliferation, and the genotoxic effect of AOH in cultured mammalian cells. AOH replaced E2 from isolated human estrogen receptors alpha and beta and increased the level of alkaline phosphatase (ALP) mRNA and the enzymatic activity of ALP in a human endometrial adenocarcinoma cell line (Ishikawa cells). The estrogenicity of AOH was about 0.01% of that of E2. The effects in Ishikawa cells were reversed by the ER antagonist ICI 182,780. Analysis of cell proliferation by flow cytometry and microscopy of Ishikawa and Chinese hamster V79 cells revealed that AOH inhibited cell proliferation by interference with the cell cycle. The genotoxic potential was assessed by the micronucleus (MN) assay and immunochemical differentiation between MN containing whole chromosomes (kinetochore-positive) and DNA fragments (kinetochore-negative) in Ishikawa and V79 cells. AOH induced kinetochore-negative MN in both cell lines. This is the first report on the estrogenic potential, inhibition of cell proliferation and clastogenicity of AOH in Ishikawa and V79 cells in vitro.

Topics: Adenocarcinoma; Alkaline Phosphatase; Alternaria; Animals; Cell Division; Cell Line, Tumor; Cholinesterase Inhibitors; Chromosome Aberrations; Cricetinae; Cricetulus; Dose-Response Relationship, Drug; Endometrial Neoplasms; Enzyme Induction; Esophageal Neoplasms; Estrogen Receptor alpha; Estrogen Receptor beta; Estrogens; Female; Flow Cytometry; Food Contamination; Humans; Lactones; Male; Micronucleus Tests; Mutagens; RNA, Messenger

In this paper, the mutagenicity and carcinogenicity of alternariol monomethyl ether (AME), alternariol (AOH), and their relevance to the etiology of human esophageal cancer were studied. These mycotoxins were produced by Alternaria alternata which was the main contaminating fungi isolated from the grain in Linxian County, an area with high incidence of esophageal cancer. This study demonstrated that: 1. AME and AOH might cause cell mutagenicity and transformation; 2. AME and AOH could combine with the DNA isolated from human fetal esophageal epithelium, activate the oncogens, c-H-ras and c-mys in it, and promote proliferation of human fetal esophageal epithelium in vitro; 3. squamous cell carcinoma of the fetal esophagus could be induced by AOH. According to the results of the studies of AME and AOH mentioned above, we consider that Alternaria alternata plays an important role in the etiology of human esophageal cancer.

Topics: Alternaria; Animals; Carcinoma, Squamous Cell; Cell Transformation, Neoplastic; Cells, Cultured; Esophageal Neoplasms; Humans; Lactones; Mice; Mice, Inbred BALB C; Mutagenicity Tests; Mycotoxins