The interplay between bile acids and gut microbiota in metabolic and hepatobiliary disease
Abstract
The gut microbiota, a metabolic regulator, orchestrates the production of
bioactive metabolites such as secondary bile acids. Growing evidence suggests
that shifts in the gut microbiota composition are linked to metabolic and
hepatobiliary disease. Bile acids are involved in lipid digestion and metabolic
signaling and undergo microbial transformation in the gut, producing
secondary bile acids. This thesis examines the interplay between bile acids and
the gut microbiota. Clostridium scindens accounts for a minor fraction of the
gut microbiota but is one of the few known species capable of generating
secondary bile acids by 7α-dehydroxylation. We showed that even at low
abundance, C. scindens had a marked impact on metabolism in mice, and we
established a link between deoxycholic acid and metabolic dysregulation in
type 2 diabetes (T2D). Data suggests that modulation of the bile acid and gut
microbiota composition may promote some of the benefits of bariatric surgery,
and we examined postprandial bile acid kinetics pre- and post-surgery,
revealing an altered post-surgery response. Bariatric surgery increased
hyodeoxycholic acid, which was linked to T2D remission. The distinct bile
acid profiles of mice and humans are due to CYP2C70, and Cyp2c70-deficient
mice display manifestations of hepatobiliary disease. We showed that gut
microbiota influences neonatal survival and liver disease in Cyp2c70-/- mice.
Amelioration of the liver phenotype was associated with a more hydrophilic
biliary bile acid profile, largely driven by microbially induced ursodeoxycholic
acid production. In summary, we provide evidence of the crucial role of the
interplay between bile acids and gut microbiota in health and disease.
Parts of work
I. Wahlström, A., Brumbaugh, A., Sjöland, W., Olsson, L.,
Wu, H., Henricsson, M., Lundqvist, A., Makki, K., Hazen,
S. L., Bergström, G., Marschall, H.-U., Fischbach, M. A.,
Bäckhed, F. Production of deoxycholic acid by low-abundant microbial species is associated with impaired glucose metabolism. In revision. II. Wahlström, A., Aydin, Ö., Olsson, L., Sjöland, W.,
Henricsson, M., Lundqvist, A., Marschall, H.-U., Franken,
R., van de Laar, A., Gerdes, V., Hofsø, D., Groen, A. K.,
Hjelmesæth, J., Nieuwdorp, M., Bäckhed, F. Alterations in
bile acid kinetics after bariatric surgery in patients with
obesity with or without type 2 diabetes.
Submitted manuscript. III. Sjöland, W., Wahlström, A., Makki, K., Schöler, M.,
Molinaro, A., Olsson, L., Greiner, T. U., Caesar, R., de
Boer, J. F., Kuipers, F., Bäckhed, F., Marschall, H.-U.
Absence of gut microbiota reduces neonatal survival and
exacerbates liver disease in Cyp2c70-deficient mice with a
human-like bile acid composition.
Clin. Sci. 137, 995-1011 (2023).
https://doi.org/10.1042/CS20230413
Degree
Doctor of Philosophy (Medicine)
University
University of Gothenburg. Sahlgrenska Academy
Institution
Institute of Medicine. Department of Molecular and Clinical Medicine
Disputation
Onsdagen den 13 december 2023, kl. 13.00, Hörsal Arvid Carlsson, Academicum, Medicinaregatan 3, Göteborg
Date of defence
2023-12-13
wilhelm.sjoland@wlab.gu.se
Date
2023-11-21Author
Sjöland, Wilhelm
Keywords
gut microbiota
bile acids
type 2 diabetes
hepatobiliary disease
obesity
metabolic disease
Publication type
Doctoral thesis
ISBN
978-91-8069-521-3 (PRINT)
978-91-8069-522-0 (PDF)
Language
eng