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Liver‐specific deletion of microRNA‐34a alleviates ductular reaction and liver fibrosis during experimental cholestasis

Primary sclerosing cholangitis (PSC) is a chronic liver disease characterized by inflammatory responses and fibrotic scar formation leading to cholestasis. Ductular reaction and liver fibrosis are typical liver changes seen in human PSC and cholestasis patients. The current study aimed to clarify th...

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Published in:	The FASEB journal 2023-02, Vol.37 (2), p.e22731-n/a
Main Authors:	Wan, Ying, Zhou, Tianhao, Slevin, Elise, Koyama, Sachiko, Li, Xuedong, Harrison, Kelly, Li, Tian, Zhou, Bingru, Lorenzo, Sugeily Ramos, Zhang, Yudian, Xu, Wenjuan, Klaunig, James E., Wu, Chaodong, Shetty, Ashok K., Huang, Chiung‐Kuei, Meng, Fanyin
Format:	Article
Language:	English
Subjects:	Animals Bile Ducts - metabolism Bile Ducts - pathology Bile Ducts - surgery cellular senescence cholestasis Cholestasis - genetics Cholestasis - pathology ductular reaction Fibrosis Humans Liver - metabolism Liver Cirrhosis - metabolism Liver Diseases - metabolism Mice microRNA MicroRNAs - genetics MicroRNAs - metabolism
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creator	Wan, Ying Zhou, Tianhao Slevin, Elise Koyama, Sachiko Li, Xuedong Harrison, Kelly Li, Tian Zhou, Bingru Lorenzo, Sugeily Ramos Zhang, Yudian Xu, Wenjuan Klaunig, James E. Wu, Chaodong Shetty, Ashok K. Huang, Chiung‐Kuei Meng, Fanyin
description	Primary sclerosing cholangitis (PSC) is a chronic liver disease characterized by inflammatory responses and fibrotic scar formation leading to cholestasis. Ductular reaction and liver fibrosis are typical liver changes seen in human PSC and cholestasis patients. The current study aimed to clarify the role of liver‐specific microRNA‐34a in the cholestasis‐associated ductular reaction and liver fibrosis. We demonstrated that miR‐34a expression was significantly increased in human PSC livers along with the enhanced ductular reaction, cellular senescence, and liver fibrosis. A liver‐specific miR‐34a knockout mouse was established by crossing floxed miR‐34a mice with albumin‐promoter‐driven Cre mice. Bile duct ligation (BDL) induced liver injury characterized by necrosis, fibrosis, and immune cell infiltration. In contrast, liver‐specific miR‐34a knockout in BDL mice resulted in decreased biliary ductular pathology associated with the reduced cholangiocyte senescence and fibrotic responses. The miR‐34a‐mediated ductular reactions may be functioning through Sirt‐1‐mediated senescence and fibrosis. The hepatocyte‐derived conditioned medium promoted LPS‐induced fibrotic responses and senescence in cholangiocytes, and miR‐34a inhibitor suppressed these effects, further supporting the involvement of paracrine regulation. In conclusion, we demonstrated that liver‐specific miR‐34a plays an important role in ductular reaction and fibrotic responses in a BDL mouse model of cholestatic liver disease.
doi_str_mv	10.1096/fj.202201453R
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Ductular reaction and liver fibrosis are typical liver changes seen in human PSC and cholestasis patients. The current study aimed to clarify the role of liver‐specific microRNA‐34a in the cholestasis‐associated ductular reaction and liver fibrosis. We demonstrated that miR‐34a expression was significantly increased in human PSC livers along with the enhanced ductular reaction, cellular senescence, and liver fibrosis. A liver‐specific miR‐34a knockout mouse was established by crossing floxed miR‐34a mice with albumin‐promoter‐driven Cre mice. Bile duct ligation (BDL) induced liver injury characterized by necrosis, fibrosis, and immune cell infiltration. In contrast, liver‐specific miR‐34a knockout in BDL mice resulted in decreased biliary ductular pathology associated with the reduced cholangiocyte senescence and fibrotic responses. The miR‐34a‐mediated ductular reactions may be functioning through Sirt‐1‐mediated senescence and fibrosis. The hepatocyte‐derived conditioned medium promoted LPS‐induced fibrotic responses and senescence in cholangiocytes, and miR‐34a inhibitor suppressed these effects, further supporting the involvement of paracrine regulation. 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The hepatocyte‐derived conditioned medium promoted LPS‐induced fibrotic responses and senescence in cholangiocytes, and miR‐34a inhibitor suppressed these effects, further supporting the involvement of paracrine regulation. In conclusion, we demonstrated that liver‐specific miR‐34a plays an important role in ductular reaction and fibrotic responses in a BDL mouse model of cholestatic liver disease.</abstract><cop>United States</cop><pmid>36583714</pmid><doi>10.1096/fj.202201453R</doi><tpages>17</tpages><orcidid>https://orcid.org/0000-0001-6331-7898</orcidid><orcidid>https://orcid.org/0000-0001-5049-6671</orcidid><orcidid>https://orcid.org/0000-0002-7602-9091</orcidid><orcidid>https://orcid.org/0000-0002-6886-1961</orcidid></addata></record>
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subjects	Animals Bile Ducts - metabolism Bile Ducts - pathology Bile Ducts - surgery cellular senescence cholestasis Cholestasis - genetics Cholestasis - pathology ductular reaction Fibrosis Humans Liver - metabolism Liver Cirrhosis - metabolism Liver Diseases - metabolism Mice microRNA MicroRNAs - genetics MicroRNAs - metabolism
title	Liver‐specific deletion of microRNA‐34a alleviates ductular reaction and liver fibrosis during experimental cholestasis
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