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Gallic acid ameliorates colitis by trapping deleterious metabolite ammonia and improving gut microbiota dysbiosis.

Authors :
Peng J
Liu T
Meng P
Luo Y
Zhu S
Wang Y
Ma M
Han J
Zhou J
Su X
Li S
Ho C-T
Lu C
Source :
MBio [mBio] 2024 Feb 14; Vol. 15 (2), pp. e0275223. Date of Electronic Publication: 2023 Dec 21.
Publication Year :
2024

Abstract

Gut microbiota dysbiosis is causally related to inflammatory bowel disease (IBD), and increased levels of the gut metabolite ammonia have been proposed to contribute to IBD development. In this study, we aimed to clarify the anti-colitis mechanism of gallic acid (GA) based on its ability to trap the deleterious metabolite ammonia and improve gut microbiota. Aminated product was detected in the fecal samples of mice after oral gavage of gallic acid (GA) and identified as 4-amino-substituted gallic acid (4-NH <subscript>2</subscript> -GA), thus confirming the ability of GA to trap ammonia in vivo . Then, we compared the beneficial effects of GA and 4-NH <subscript>2</subscript> -GA on dextran sulfate sodium (DSS)-induced colitis mouse and found that both compounds managed to alleviate colitis phenotypes, indicating ammonia trapping had no adverse effect on the original anti-colitis activity of GA. In addition, both GA and 4-NH <subscript>2</subscript> -GA improved the gut microbiota dysbiosis induced by DSS, and fecal microbiota transplantation was subsequently performed, which further revealed that the gut microbiota mediated the anti-colitis activity of both GA and 4-NH <subscript>2</subscript> -GA. In summary, this study clarified that GA alleviated colitis by targeting both the symptoms and root causes: it directly reduced the deleterious metabolite ammonia by forming aminated metabolites without compromising the original anti-colitis activity, and it also improved gut microbiota dysbiosis, which in turn contributed to the alleviation of colitis. Since the GA structure is presented in various polyphenols as a common building block, the novel anti-colitis mechanism obtained from GA may also apply to other complex polyphenols.IMPORTANCEThe dysbiosis of the gut microbiota and its metabolism directly cause the emergence of IBD. In this study, we aimed to clarify the anti-colitis mechanism of GA in sight of gut microbiota and its metabolite ammonia. We discovered that GA directly captured and reduced the harmful metabolite ammonia in vivo to produce the aminated metabolite 4-NH2-GA, while the amination of GA had no adverse effect on its initial anti-colitis activity. In addition, both GA and its aminated metabolite improved the gut microbiota in colitis mice, and the modified gut microbiota, in turn, helped to relieve colitis. Since the GA structure is presented in diverse polyphenols as a common building block, the novel anti-colitis mechanism targeting the symptoms and root causes might also apply to other complex polyphenols.<br />Competing Interests: The authors declare no conflict of interest.

Details

Language :
English
ISSN :
2150-7511
Volume :
15
Issue :
2
Database :
MEDLINE
Journal :
MBio
Publication Type :
Academic Journal
Accession number :
38126747
Full Text :
https://doi.org/10.1128/mbio.02752-23