Polyphenols in the foods that we eat can prevent inflammation in older people, since they alter the intestinal microbiota and induce the production of the indole 3-propionic acid (IPA), a metabolite derived from the degradation of tryptophan due to intestinal bacteria. This is stated in a study published in the journal Molecular Nutrition and Food Research, carried out by the Research Group on Biomarkers and Nutritional & Food Metabolomics of the Faculty of Pharmacy and Food Sciences of the University of Barcelona and the CIBER on Fragility and Healthy Ageing (CIBERFES).
The team, led by Professor Cristina Andrés-Lacueva, from the Faculty of Pharmacy and Food Sciences of the UB, is also member of the Food Innovation Network of Catalonia (XIA).
Polyphenols and healthy aging
Polyphenols are natural compounds, considered probiotics, which we eat mainly through fruits and vegetables. Several dietary polyphenols have well-known antioxidant and anti-inflammatory properties, as well as the ability to interact with bacteria present in the human gut and to produce postbiotics (such as IPA), which increases its positive effects on health.
There is increasing evidence that confirms that the regular consumption of polyphenols in the diet can contribute to a healthy aging, specially if they are part of a healthy diet, such as the Mediterranean one, and are associated with a healthy lifestyle, that is, one including regular physical activity and excluding tobacco and alcohol, for instance.
The study shows the interaction between polyphenols and gut microbiota can induce the proliferation of bacteria with the ability to synthetize beneficial metabolites, such as IPA, a postbiotic with antioxidant, anti-inflammatory and neuroprotective properties that contribute to improve the health of the intestinal wall. Therefore, this compound would contribute to the prevention of some diseases associated with aging.
If we consider the beneficial effects of IPA on the gut microbiota and health in general, it is important to find reliable strategies to promote the production of this metabolite.”
Tomás Meroño, co-first signatory of the study, Department of Nutrition, Food Sciences and Gastronomy of the UB and CIBERFES
As part of the study, the researchers carried out a multiomic analysis to monitor the IPA levels in the serum, apart from analyzing the composition of the gut microbiota on fecal samples of fifty-one volunteers aged over sixty-five who kept following a diet rich in polyphenols (green tea, bitter chocolate, fruits including apples, pomegranate and blueberries) for eight weeks.
Increase of IPA in blood and bacterial growth
The results show that the diet rich in polyphenols generated a significant increase in the blood IPA levels, together with a decrease in inflammation levels and changes in the bacteria of the microbiota, from the order of Bacteroidales.
Surprisingly, the researchers did not observe the same effects in the volunteers with kidney diseases, which could be explained due to the altered composition of their gut microbiota. These people showed lower amounts of IPA at the beginning of the trial compared to the volunteers with normal kidney function.
“These results could be clinically relevant, since the low IPA levels have been associated with a rapid decline of kidney function and a chronic kidney disease”, notes Professor Cristina Andrés-Lacueva.
Therefore, a polyphenol-rich diet including probiotic foods such as green tea, dark chocolate and some fruits like apples, pomegranate and blueberries could increase the production of IPA through changes in the composition of gut microbiota. This increase in the levels of a postbiotic such as IPA in the elderly could be beneficial in delaying or preventing chronic diseases that harm the quality of life.
The study also includes the participation of teams from the University of Milan (Italy), Quadram Institute (United Kingdom) and the National Institute of Health and Sciences on Ageing (INCRA, Italy), among other institutions.
Peron, G., et al. (2022) A Polyphenol-Rich Diet Increases the Gut Microbiota Metabolite Indole 3-Propionic Acid in Older Adults with Preserved Kidney Function. Molecular Nutrition and Food Research. doi.org/10.1002/mnfr.202100349.