08 Nov 2017 --- A component of dietary protein called phenylalanine can suppress appetite by affecting the release of appetite-regulating hormones in the gut, according to new research presented at the Society for Endocrinology annual conference in Harrogate, UK. The results of the study on mice show how phenylalanine reduces food intake by affecting the gut and the brain, and suggest that it may be used to prevent or treat obesity.
Although high-protein diets have been shown to be satisfying and to promote weight loss, they can be hard to maintain and may lead to other health problems in the long term, the Society for Endocrinology press release notes.
Phenylalanine is an amino acid produced in the gut when protein is digested and has previously been shown to affect the release of gut hormones that reduce appetite in rodents. However, it was unclear exactly how the amino acid was causing this release and whether other systems were involved in phenylalanine's appetite suppressing effects.
Mariana Norton, the Ph.D. student who conducted the study, comments: “Understanding how food is detected in the gut may help to identify ways of treating or preventing obesity. The next step is to establish whether phenylalanine can drive similar appetite-reducing effects in humans.”
“Diets high in protein are known to encourage weight loss but adhering to them can be difficult,” Norton continues. “Identifying the mechanisms that sense the protein may allow us to use drugs or functional foods to hijack appetite regulation and treat obesity.”
Phenylalanine reduces appetite
To investigate the effects of phenylalanine on appetite and gut hormone release, Professor Kevin Murphy and colleagues at Imperial College London examined the effect of the amino acid on food intake and brain activity in areas known to be involved in appetite regulation.
Mice were given phenylalanine, either orally or rectally, to assess the effects on different parts of the gut. Food intake was monitored at regular intervals over 24 hours and the amount of activity in brain areas associated with appetite regulation was also assessed.
Both oral and rectal phenylalanine reduced food intake of the mice and increased activation in a brain area known to be involved in regulating appetite. After rectal administration, even an amount of phenylalanine ten times lower than would be eaten daily on a high protein diet resulted in reduced food intake and activated the appetite-regulating centers in the brain.
These data suggest that phenylalanine may reduce appetite through different pathways in the upper and lower gut. Although it is unknown whether phenylalanine has the same effects on human appetite, this research indicates that the amino acid may have an important role in regulating food intake that could be used to treat obesity.