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Absence of gut microbiota reduces neonatal survival and exacerbates liver disease in <i>Cyp2c70</i>-deficient mice with a human-like bile acid composition

Wilhelm Sjöland, Annika Wahlström, Kassem Makki, Marc Schöler, Antonio Molinaro, Lisa Olsson, Thomas U. Greiner, Robert Caesar, Jan Freark de Boer, Folkert Kuipers, Fredrik Bäckhed, Hanns–Ulrich Marschall

2023Clinical Science11 citationsDOIOpen Access PDF

Abstract

Mice with deletion of Cyp2c70 have a human-like bile acid composition, display age- and sex-dependent signs of hepatobiliary disease and can be used as a model to study interactions between bile acids and the gut microbiota in cholestatic liver disease. In the present study, we rederived Cyp2c70-/- mice as germ-free (GF) and colonized them with a human or a mouse microbiota to investigate whether the presence of a microbiota can be protective in cholangiopathic liver disease associated with Cyp2c70-deficiency. GF Cyp2c70-/- mice showed reduced neonatal survival, liver fibrosis, and distinct cholangiocyte proliferation. Colonization of germ-free breeding pairs with a human or a mouse microbiota normalized neonatal survival of the offspring, and particularly colonization with mouse microbiota from a conventionally raised mouse improved the liver phenotype at 6-10 weeks of age. The improved liver phenotype in conventionalized (CD) Cyp2c70-/- mice was associated with increased levels of tauro-ursodeoxycholic acid (TUDCA) and UDCA, resulting in a more hydrophilic bile acid profile compared with GF and humanized Cyp2c70-/- mice. The hydrophobicity index of biliary bile acids of CD Cyp2c70-/- mice was associated with changes in gut microbiota, liver weight, liver transaminases, and liver fibrosis. Hence, our results indicate that neonatal survival of Cyp2c70-/- mice seems to depend on the establishment of a gut microbiota at birth, and the improved liver phenotype in CD Cyp2c70-/- mice may be mediated by a larger proportion of TUDCA/UDCA in the circulating bile acid pool and/or by the presence of specific bacteria.

Topics & Concepts

Ursodeoxycholic acidBile acidBiologyGut floraLiver diseaseOffspringInternal medicinePhenotypeEndocrinologyImmunologyMedicineBiochemistryPregnancyGeneticsGeneDrug Transport and Resistance MechanismsPediatric Hepatobiliary Diseases and TreatmentsLiver Disease Diagnosis and Treatment
Absence of gut microbiota reduces neonatal survival and exacerbates liver disease in <i>Cyp2c70</i>-deficient mice with a human-like bile acid composition | Litcius