4.7 Article

Alkylresorcinols as New Modulators of the Metabolic Activity of the Gut Microbiota

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MDPI
DOI: 10.3390/ijms241814206

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alkylresorcinols; olivetol; gut microbiota; faecal microbiota transplantation; reconstruction of gut microbiota metabolic activity

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Alkylresorcinols (ARs), polyphenolic compounds with diverse biological activities potentially involved in host metabolism regulation, were found to be produced by the human gut microbiota. Alterations in AR content and metabolic activity of the gut microbiota were observed in mice according to diet specifications and olivetol supplementation. The findings suggest that ARs may function as quorum-sensing molecules, influencing gut microbiota composition and host metabolism.
Alkylresorcinols (ARs) are polyphenolic compounds with a wide spectrum of biological activities and are potentially involved in the regulation of host metabolism. The present study aims to establish whether ARs can be produced by the human gut microbiota and to evaluate alterations in content in stool samples as well as metabolic activity of the gut microbiota of C57BL, db/db, and LDLR (-/-) mice according to diet specifications and olivetol (5-n-pentylresorcinol) supplementation to estimate the regulatory potential of ARs. Gas chromatography with mass spectrometric detection was used to quantitatively analyse AR levels in mouse stool samples; faecal microbiota transplantation (FMT) from human donors to germ-free mice was performed to determine whether the intestinal microbiota could produce AR molecules; metagenome sequencing analysis of the mouse gut microbiota followed by reconstruction of its metabolic activity was performed to investigate olivetol's regulatory potential. A significant increase in the amounts of individual members of AR homologues in stool samples was revealed 14 days after FMT. Supplementation of 5-n-Pentylresorcinol to a regular diet influences the amounts of several ARs in the stool of C57BL/6 and LDLR (-/-) but not db/db mice, and caused a significant change in the predicted metabolic activity of the intestinal microbiota of C57BL/6 and LDLR (-/-) but not db/db mice. For the first time, we have shown that several ARs can be produced by the intestinal microbiota. Taking into account the dependence of AR levels in the gut on olivetol supplementation and microbiota metabolic activity, AR can be assumed to be potential quorum-sensing molecules, which also influence gut microbiota composition and host metabolism.

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