Synergistic anti-inflammatory effect of gut microbiota and lithocholic acid on liver fibrosis

Background Bile acids can regulate liver disease progression by affecting the functions of gut microbiota and immune cells. As the most potent natural agonist of G-protein coupled bile acid receptor 5 (TGR5) (expressed in macrophages, HSCs, and monocytes), lithocholic acid (LCA) has multiple functio...

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Bibliographic Details
Published in:Inflammation research 2022-11, Vol.71 (10-11), p.1389-1401
Main Authors: Shao, Junwei, Ge, Tiantian, Tang, Cuilan, Wang, Gang, Pang, Lantian, Chen, Zhi
Format: Article
Language:English
Subjects:
Allergology
Antibiotics
Apoptosis
Bile acids
Biochemical analysis
Biomedical and Life Sciences
Biomedicine
Carbon tetrachloride
Cell activation
Cytokines
Dermatology
Differentiation
Fibrosis
Flow cytometry
Glycolysis
Growth factors
Histology
Immune system
Immunology
Inflammation
Intestinal microflora
Liver
Liver diseases
Lymphocytes T
Macrophages
Metabolism
Microbiota
Monocytes
Natural killer cells
Neurology
Original Research Paper
Oxidative phosphorylation
Pharmacology/Toxicology
Phosphorylation
Rheumatology
Smad protein
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Summary:Background Bile acids can regulate liver disease progression by affecting the functions of gut microbiota and immune cells. As the most potent natural agonist of G-protein coupled bile acid receptor 5 (TGR5) (expressed in macrophages, HSCs, and monocytes), lithocholic acid (LCA) has multiple functions, such as inhibiting inflammation and regulating metabolism. Therefore, this study aims to investigate the effects of LCA on immune cells and HSCs in liver fibrosis. Methods A liver fibrosis mouse model was induced by carbon tetrachloride followed by gavage of LCA, and the effects of LCA were evaluated by serum biochemical analysis, liver histology, and western bolt. Plasma cytokine levels and the number of immune cells were determined by cytometric bead array and flow cytometry, respectively. Results LCA could inhibit the activation of HSCs by inducing apoptosis and reducing the activation of transforming growth factor-β (TGF-β) Smad-dependent and Smad-independent pathways. Meanwhile, LCA inhibited glycolysis and promoted oxidative phosphorylation, leading to the differentiation of macrophages to M2 type and inhibiting their differentiation to M1 type. Furthermore, LCA increased the recruitment of NK cells and reduced the activation of NKT cells. However, these effects of LCA were attenuated after antibiotics reduced the diversity and abundance of the gut microbiota. Conclusions Gut microbiota and LCA exerted synergistic anti-inflammatory effects on liver fibrosis. The combined intervention of gut microbiota and LCA will be a new strategy for treating liver fibrosis.
ISSN:1023-3830
1420-908X
DOI:10.1007/s00011-022-01629-4