Mesothelin/mucin 16 signaling in activated portal fibroblasts regulates cholestatic liver fibrosis
Yukinori Koyama, … , David A. Brenner, Tatiana Kisseleva
Yukinori Koyama, … , David A. Brenner, Tatiana Kisseleva
Published March 13, 2017
Citation Information: J Clin Invest. 2017;127(4):1254-1270. https://doi.org/10.1172/JCI88845.
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Research Article Gastroenterology

Mesothelin/mucin 16 signaling in activated portal fibroblasts regulates cholestatic liver fibrosis

Abstract

Cholestatic liver fibrosis is caused by obstruction of the biliary tract and is associated with early activation of portal fibroblasts (PFs) that express Thy-1, fibulin 2, and the recently identified marker mesothelin (MSLN). Here, we have demonstrated that activated PFs (aPFs) and myofibroblasts play a critical role in the pathogenesis of liver fibrosis induced by bile duct ligation (BDL). Conditional ablation of MSLN+ aPFs in BDL-injured mice attenuated liver fibrosis by approximately 50%. Similar results were observed in MSLN-deficient mice (Msln–/– mice) or mice deficient in the MSLN ligand mucin 16 (Muc16–/– mice). In vitro analysis revealed that MSLN regulates TGF-β1–inducible activation of WT PFs by disrupting the formation of an inhibitory Thy-1–TGFβRI complex. MSLN also facilitated the FGF-mediated proliferation of WT aPFs. Therapeutic administration of anti-MSLN–blocking Abs attenuated BDL-induced fibrosis in WT mice. Liver specimens from patients with cholestatic liver fibrosis had increased numbers of MSLN+ aPFs/myofibroblasts, suggesting that MSLN may be a potential target for antifibrotic therapy.

Authors

Yukinori Koyama, Ping Wang, Shuang Liang, Keiko Iwaisako, Xiao Liu, Jun Xu, Mingjun Zhang, Mengxi Sun, Min Cong, Daniel Karin, Kojiro Taura, Chris Benner, Sven Heinz, Tapan Bera, David A. Brenner, Tatiana Kisseleva

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Figure 3

Ablation of Msln attenuates development of cholestatic liver fibrosis in mice.

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Ablation of Msln attenuates development of cholestatic liver fibrosis in...
(A) Tamoxifen administration (12 × 5 mg/mouse by oral gavage) irreversibly labeled all MSLN+ aPFs by nuclear LacZ (nLacZ) expression in WT MslnnLacZ mice (n = 14) and caused ablation of aPFs in MslnDTA littermates (C57BL/6, 8-week-old male mice, n = 17 from 3 independent experiments). Livers were stained for LacZ (micrographs show gross liver tissue) and (B) analyzed for LacZ expression (original magnification, ×40). (C) Liver sections were immunostained with DAPI for Thy-1 and α-SMA expression. The number of aPFs in sham-operated MslnnLacZ and MslnDTA mice and the efficiency of aPF/myofibroblast ablation in BDL-operated MslnDTA mice were calculated in comparison with the number of Thy-1+α-SMA+DAPI+ cells in livers of BDL-MslnnLacZ mice (considered as 100%). Representative micrographs are shown (original magnification, ×20). (D) Livers were stained with Picrosirius red (original magnification, ×4). (E) Quantification of Picrosirius red+ and Thy-1+α-SMA+ areas is shown as a percentage. Expression of fibrogenic, aPF-specific, and inflammatory gene mRNA was analyzed by qPCR and is shown as a fold induction. *P < 0.05 and **P < 0.01, by 2-tailed Student’s t test. (See also Supplemental Figure 3.)