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This may be useful to evolve, as it gives possible cues about the state of the environment. If the plants an animal is eating have increased polyphenol content, it means the plant is under stress and may signal famines. Using the chemical cues the heterotophs could preemptively prepare and defend itself before conditions worsen. A possible example may be resveratrol, which is famously found in red wine, which modulates over two dozen receptors and enzymes in mammals. Xenohormesis could also explain several phenomena seen in the ethno-pharmaceutical (traditional medicine) side of things. Such as in the case of cinnamon, which in a few studies has been found to have an effect on lipid, glucose, and HbA1c levels in type 2 diabetes, but upon Meta-analysis was found to have no significant effect. One group of authors suggested this might be caused by the cinnamon used in one study differing from the other in xenohormetic properties.
Some explanations as to why this works, is first and foremost, it could be a coincidence. Especially for cases which partially venomous products, cause a positive stress in the organism. The second is that it is a shared evolutionary attribute, as both animals and plants share a huge amount of homology between their pathways. The third is that there is evolutionary pressure to evolve to better respond to the molecules. The latter is proposed mainly by Howitz and his team. There also might be the problem that our focus on maximizing the crop output, may be losing many of the xenohormetic advantages. Under the xenohormesis hypothesis, although the ideal conditions will cause the plant to increase its crop output, the reduced stress of the ideal conditions might reduce beneficial xenohormetic effects in humans.
It has also been shown that it affects macro nutrients, cold shock may increase the level of unsaturated Fatty acid.
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