Although green tea is enjoyed by millions for its numerous health benefits, University of California, Irvine researchers have discovered that excessive consumption adversely affected development and reproduction in fruit fly populations.
It's unclear whether overconsumption could have the same impact on humans, but the findings suggest caution when using green tea, or any natural product, in high doses. Nutraceuticals such as green tea, while growing in popularity, are largely unregulated. Study results appear in the Journal of Functional Foods.
A UCI team led by Mahtab Jafari, associate professor of pharmaceutical sciences, investigated the effects of green tea toxicity on Drosophila melanogaster development and reproduction. Embryos and larvae were subjected to various doses of green tea polyphenols with the following results:
Jafari believes that high doses of green tea may cause "too much" apoptosis, or cell death, but in this study, she said, they did not evaluate mechanisms, which is the focus of her current research.
Derived from the plant Camellia sinensis, green tea is popular worldwide for its purported brain and heart health and anticancer properties. However, there are some reports of problems associated with excessive consumption: Jafari noted that in other tests with mice and dogs, green tea compounds in large amounts dramatically reduced body weight and, in mice, negatively affected embryo development.
"While green tea could have health benefits at low doses, our study and others have shown that at high doses, it may have adverse effects," she said. "Further work is needed to make any definite recommendations, but we can suggest that green tea be consumed in moderation."
The Jafari group is emerging as a leader in the study of natural food products -- herbs, spices and root extracts, for example -- that people have ingested for centuries because of their alleged health benefits. And fruit flies have proven useful in testing pharmaceuticals' and nutraceuticals' adverse effects.
"We are planning to continue to measure total consumption, evaluate metabolic pathways, and identify and quantify the metabolites of natural products in flies," Jafari said. "These experiments will enable us to have a better understanding of toxic doses in humans."
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