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Mycotoxins

Gut bacteria liberate hidden mycotoxins

Crops such as wheat, corn, and peanuts sometimes harbour chemicals from moulds that grow on the plants. Some of these compounds are seemingly harmless derivatives of toxins produced by the fungi. For the first time, researchers have shown that human gut bacteria can break down these compounds and release the toxins, which can cause gastrointestinal and neurological damage (Chem. Res. Toxicol., DOI: 10.1021/tx300438c).

The findings strongly suggest that these masked toxins may not stay hidden within our digestive tracts, and that government agencies may need to regulate the chemicals, the researchers say.

Scientists have long known that fungi, such as Fusarium graminearium, deposit toxins on food crops. These so-called mycotoxins can contaminate the food supply, causing a wide range of nasty effects and even death in people and livestock. As a result, many countries set a limit for the amount of mycotoxins in food and animal feed.

But in the past decade, scientists have discovered that mycotoxins on food crops can hide. The toxins are harmful to the crops themselves, so, as a defense strategy, the plants neutralise the mycotoxins by tacking on a sugar or sulfate group to the chemicals. Because of this chemical modification, these masked mycotoxins slip past current detection methods used by food safety inspectors. Also scientists don’t know much about the toxicity of the derivatives.

If cereal grains hold masked mycotoxins, “what happens to the compounds during human digestion?” asks Chiara Dall’Asta, a chemist at the University of Parma, in Italy. “Are they less toxic or as toxic as their parent compounds?”

To answer those questions, Dall’Asta and her colleagues simulated the entire human digestion process from mouth to large intestine in their laboratory. They watched what happened to three common masked mycotoxins in this simulated digestive tract. One compound was the toxin deoxynivalenol masked with a glucose molecule, and the other two were derivatives of zearalenone modified with either glucose or a sulfate group.

When the team incubated the compounds with digestive juices and enzymes from the mouth, stomach, and part of the small intestine, nothing happened. But when the researchers mixed the two chemicals with human fecal samples in a warm airless bath for a day, bacteria in the feces freed the toxins. The experiment mimicked conditions in the large intestine. It took the microbes 24 hours to completely cleave the masked deoxynivalenol, but only 30 minutes to free zearalenone…..

Chemical & Engineering News: Read the full article

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