Glucagon-like peptide-2 pharmacotherapy activates hepatic Farnesoid X receptor-signaling to attenuate resection-associated bile acid loss in mice

Glucagon-like peptide-2 pharmacotherapy activates hepatic Farnesoid X receptor-signaling to attenuate resection-associated bile acid loss in mice

Objective: Villus growth in the small bowel by Glucagon-like peptide-2 (GLP-2) pharmacotherapy improves intestinal absorption capacity and is now used clinically for the treatment of short bowel syndrome and intestinal failure occurring after extensive intestinal resection. Another recently acknowle...

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Main Authors: Johannes Reiner, Nooshin Mohebali, Jens Kurth, Maria Witte, Cornelia Prehn, Tobias Lindner, Peggy Berlin, Nagi Elleisy, Robert H. Förster, Alexander Cecil, Robert Jaster, Jerzy Adamski, Sarah M. Schwarzenböck, Brigitte Vollmar, Bernd J. Krause, Georg Lamprecht
Format: Article
Language:English
Published: Elsevier 2025-05-01
Series:Molecular Metabolism
Subjects:
Glucagon-like peptide-2
Bile acid metabolome
cyp8b1
SeHCAT
Short bowel syndrome
Ileocecal resection
Online Access:http://www.sciencedirect.com/science/article/pii/S2212877825000286
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Summary:Objective: Villus growth in the small bowel by Glucagon-like peptide-2 (GLP-2) pharmacotherapy improves intestinal absorption capacity and is now used clinically for the treatment of short bowel syndrome and intestinal failure occurring after extensive intestinal resection. Another recently acknowledged effect of GLP-2 treatment is the inhibition of gallbladder motility and increased gallbladder refilling. However, the impact of these two GLP-2-characteristic effects on bile acid metabolism in health and after intestinal resection is not understood. Methods: Mice were injected with the GLP-2-analogue teduglutide or vehicle. We combined the selenium-75-homocholic acid taurine (SeHCAT) assay with novel spatial imaging in healthy mice and after ileocecal resection (ICR mice) and associated the results with clinical stage targeted bile acid metabolomics as well as gene expression analyses. Results: ICR mice had virtual complete intestinal loss of secondary bile acids, and an increased ratio of 12α-hydroxylated vs. non-12α-hydroxylated bile acids, which was attenuated by teduglutide. Teduglutide promoted SeHCAT retention in healthy and in ICR mice. Acute concentration of the SeHCAT-signal into the hepatobiliary system was observed. Teduglutide induced significant repression of hepatic cyp8b1 expression, likely by induction of MAF BZIP Transcription Factor G. Conclusions: The data suggest that GLP-2-pharmacotherapy in mice significantly slows bile acid circulation primarily via hepatic Farnesoid X receptor-signaling.
ISSN:2212-8778

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