GLP-2 Improves Hepatic Inflammation and Fibrosis in Mdr2(-/-) Mice Via Activation of NR4a1/Nur77 in Hepatic Stellate Cells and Intestinal FXR Signaling

BACKGROUND & AIMS: Glucagon-like peptide (GLP)-2 may exert antifibrotic effects on hepatic stellate cells (HSCs). Thus, we aimed to test whether application of the GLP-2 analogue teduglutide has hepatoprotective and antifibrotic effects in the Mdr2/Abcb4(-/-) mouse model of sclerosing cholangiti...

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Autores principales: Fuchs, Claudia D., Claudel, Thierry, Mlitz, Veronika, Riva, Alessandra, Menz, Moritz, Brusilovskaya, Ksenia, Haller, Felix, Baumgartner, Maximilian, Königshofer, Philipp, Unger, Lukas W., Sjöland, Wilhelm, Scharnagl, Hubert, Stojakovic, Tatjana, Busslinger, Georg, Reiberger, Thomas, Marschall, Hanns-Ulrich, Trauner, Michael
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2023
Materias:
Original Research
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10522987/
https://www.ncbi.nlm.nih.gov/pubmed/37572734
http://dx.doi.org/10.1016/j.jcmgh.2023.08.003
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author Fuchs, Claudia D.
Claudel, Thierry
Mlitz, Veronika
Riva, Alessandra
Menz, Moritz
Brusilovskaya, Ksenia
Haller, Felix
Baumgartner, Maximilian
Königshofer, Philipp
Unger, Lukas W.
Sjöland, Wilhelm
Scharnagl, Hubert
Stojakovic, Tatjana
Busslinger, Georg
Reiberger, Thomas
Marschall, Hanns-Ulrich
Trauner, Michael
author_facet Fuchs, Claudia D.
Claudel, Thierry
Mlitz, Veronika
Riva, Alessandra
Menz, Moritz
Brusilovskaya, Ksenia
Haller, Felix
Baumgartner, Maximilian
Königshofer, Philipp
Unger, Lukas W.
Sjöland, Wilhelm
Scharnagl, Hubert
Stojakovic, Tatjana
Busslinger, Georg
Reiberger, Thomas
Marschall, Hanns-Ulrich
Trauner, Michael
author_sort Fuchs, Claudia D.
collection PubMed
description BACKGROUND & AIMS: Glucagon-like peptide (GLP)-2 may exert antifibrotic effects on hepatic stellate cells (HSCs). Thus, we aimed to test whether application of the GLP-2 analogue teduglutide has hepatoprotective and antifibrotic effects in the Mdr2/Abcb4(-/-) mouse model of sclerosing cholangitis displaying hepatic inflammation and fibrosis. METHODS: Mdr2(-/-) mice were injected daily for 4 weeks with teduglutide followed by gene expression profiling (bulk liver; isolated HSCs) and immunohistochemistry. Activated HSCs (LX2 cells) and immortalized human hepatocytes and human intestinal organoids were treated with GLP-2. mRNA profiling by reverse transcription polymerase chain reaction and electrophoretic mobility shift assay using cytosolic and nuclear protein extracts was performed. RESULTS: Hepatic inflammation, fibrosis, and reactive cholangiocyte phenotype were improved in GLP-2-treated Mdr2(-/-) mice. Primary HSCs isolated from Mdr2(-/-) mice and LX2 cells exposed to GLP-2 in vitro displayed significantly increased mRNA expression levels of NR4a1/Nur77 (P < .05). Electrophoretic mobility shift assay revealed an increased nuclear NR4a1 binding after GLP-2 treatment in LX2 cells. Moreover, GLP-2 alleviated the Tgfβ-mediated reduction of NR4a1 nuclear binding activity. In vivo, GLP-2 treatment of Mdr2(-/-) mice resulted in increased intrahepatic levels of muricholic acids (accordingly Cyp2c70 mRNA expression was significantly increased), and in reduced mRNA levels of Cyp7a1 and FXR. Serum Fgf15 levels were increased in Mdr2(-/-) mice treated with GLP-2. Accordingly, GLP-2 treatment of human intestinal organoids activated their FXR-FGF19 signaling axis. CONCLUSIONS: GLP-2 treatment increased NR4a1/Nur77 activation in HSCs, subsequently attenuating their activation. GLP-2 promoted intestinal Fxr-Fgf15/19 signaling resulting in reduced Cyp7a1 and increased Cyp2c70 expression in the liver, contributing to hepatoprotective and antifibrotic effects of GLP-2 in the Mdr2(-/-) mouse model.
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spelling pubmed-105229872023-09-28 GLP-2 Improves Hepatic Inflammation and Fibrosis in Mdr2(-/-) Mice Via Activation of NR4a1/Nur77 in Hepatic Stellate Cells and Intestinal FXR Signaling Fuchs, Claudia D. Claudel, Thierry Mlitz, Veronika Riva, Alessandra Menz, Moritz Brusilovskaya, Ksenia Haller, Felix Baumgartner, Maximilian Königshofer, Philipp Unger, Lukas W. Sjöland, Wilhelm Scharnagl, Hubert Stojakovic, Tatjana Busslinger, Georg Reiberger, Thomas Marschall, Hanns-Ulrich Trauner, Michael Cell Mol Gastroenterol Hepatol Original Research BACKGROUND & AIMS: Glucagon-like peptide (GLP)-2 may exert antifibrotic effects on hepatic stellate cells (HSCs). Thus, we aimed to test whether application of the GLP-2 analogue teduglutide has hepatoprotective and antifibrotic effects in the Mdr2/Abcb4(-/-) mouse model of sclerosing cholangitis displaying hepatic inflammation and fibrosis. METHODS: Mdr2(-/-) mice were injected daily for 4 weeks with teduglutide followed by gene expression profiling (bulk liver; isolated HSCs) and immunohistochemistry. Activated HSCs (LX2 cells) and immortalized human hepatocytes and human intestinal organoids were treated with GLP-2. mRNA profiling by reverse transcription polymerase chain reaction and electrophoretic mobility shift assay using cytosolic and nuclear protein extracts was performed. RESULTS: Hepatic inflammation, fibrosis, and reactive cholangiocyte phenotype were improved in GLP-2-treated Mdr2(-/-) mice. Primary HSCs isolated from Mdr2(-/-) mice and LX2 cells exposed to GLP-2 in vitro displayed significantly increased mRNA expression levels of NR4a1/Nur77 (P < .05). Electrophoretic mobility shift assay revealed an increased nuclear NR4a1 binding after GLP-2 treatment in LX2 cells. Moreover, GLP-2 alleviated the Tgfβ-mediated reduction of NR4a1 nuclear binding activity. In vivo, GLP-2 treatment of Mdr2(-/-) mice resulted in increased intrahepatic levels of muricholic acids (accordingly Cyp2c70 mRNA expression was significantly increased), and in reduced mRNA levels of Cyp7a1 and FXR. Serum Fgf15 levels were increased in Mdr2(-/-) mice treated with GLP-2. Accordingly, GLP-2 treatment of human intestinal organoids activated their FXR-FGF19 signaling axis. CONCLUSIONS: GLP-2 treatment increased NR4a1/Nur77 activation in HSCs, subsequently attenuating their activation. GLP-2 promoted intestinal Fxr-Fgf15/19 signaling resulting in reduced Cyp7a1 and increased Cyp2c70 expression in the liver, contributing to hepatoprotective and antifibrotic effects of GLP-2 in the Mdr2(-/-) mouse model. Elsevier 2023-08-10 /pmc/articles/PMC10522987/ /pubmed/37572734 http://dx.doi.org/10.1016/j.jcmgh.2023.08.003 Text en © 2023 The Authors https://creativecommons.org/licenses/by/4.0/This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Original Research
Fuchs, Claudia D.
Claudel, Thierry
Mlitz, Veronika
Riva, Alessandra
Menz, Moritz
Brusilovskaya, Ksenia
Haller, Felix
Baumgartner, Maximilian
Königshofer, Philipp
Unger, Lukas W.
Sjöland, Wilhelm
Scharnagl, Hubert
Stojakovic, Tatjana
Busslinger, Georg
Reiberger, Thomas
Marschall, Hanns-Ulrich
Trauner, Michael
GLP-2 Improves Hepatic Inflammation and Fibrosis in Mdr2(-/-) Mice Via Activation of NR4a1/Nur77 in Hepatic Stellate Cells and Intestinal FXR Signaling
title GLP-2 Improves Hepatic Inflammation and Fibrosis in Mdr2(-/-) Mice Via Activation of NR4a1/Nur77 in Hepatic Stellate Cells and Intestinal FXR Signaling
title_full GLP-2 Improves Hepatic Inflammation and Fibrosis in Mdr2(-/-) Mice Via Activation of NR4a1/Nur77 in Hepatic Stellate Cells and Intestinal FXR Signaling
title_fullStr GLP-2 Improves Hepatic Inflammation and Fibrosis in Mdr2(-/-) Mice Via Activation of NR4a1/Nur77 in Hepatic Stellate Cells and Intestinal FXR Signaling
title_full_unstemmed GLP-2 Improves Hepatic Inflammation and Fibrosis in Mdr2(-/-) Mice Via Activation of NR4a1/Nur77 in Hepatic Stellate Cells and Intestinal FXR Signaling
title_short GLP-2 Improves Hepatic Inflammation and Fibrosis in Mdr2(-/-) Mice Via Activation of NR4a1/Nur77 in Hepatic Stellate Cells and Intestinal FXR Signaling
title_sort glp-2 improves hepatic inflammation and fibrosis in mdr2(-/-) mice via activation of nr4a1/nur77 in hepatic stellate cells and intestinal fxr signaling
topic Original Research
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10522987/
https://www.ncbi.nlm.nih.gov/pubmed/37572734
http://dx.doi.org/10.1016/j.jcmgh.2023.08.003
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