Smoothened is a master regulator of adult liver repair
Gregory A. Michelotti, Guanhua Xie, Marzena Swiderska, Steve S. Choi, Gamze Karaca, Leandi Krüger, Richard Premont, Liu Yang, Wing-Kin Syn, Daniel Metzger, Anna Mae Diehl
Gregory A. Michelotti, Guanhua Xie, Marzena Swiderska, Steve S. Choi, Gamze Karaca, Leandi Krüger, Richard Premont, Liu Yang, Wing-Kin Syn, Daniel Metzger, Anna Mae Diehl
View: Text | PDF
Research Article Hepatology

Smoothened is a master regulator of adult liver repair

Abstract

When regenerative processes cannot keep pace with cell death, functional epithelia are replaced by scar. Scarring is characterized by both excessive accumulation of fibrous matrix and persistent outgrowth of cell types that accumulate transiently during successful wound healing, including myofibroblasts (MFs) and progenitors. This suggests that signaling that normally directs these cells to repair injured epithelia is deregulated. To evaluate this possibility, we examined liver repair during different types of liver injury after Smoothened (SMO), an obligate intermediate in the Hedgehog (Hh) signaling pathway, was conditionally deleted in cells expressing the MF-associated gene, αSMA. Surprisingly, blocking canonical Hh signaling in MFs not only inhibited liver fibrosis but also prevented accumulation of liver progenitors. Hh-sensitive, hepatic stellate cells (HSCs) were identified as the source of both MFs and progenitors by lineage-tracing studies in 3 other strains of mice, coupled with analysis of highly pure HSC preparations using flow cytometry, immunofluorescence confocal microscopy, RT-PCR, and in situ hybridization. The results identify SMO as a master regulator of hepatic epithelial regeneration based on its ability to promote mesenchymal-to-epithelial transitions in a subpopulation of HSC-derived MFs with features of multipotent progenitors.

Authors

Gregory A. Michelotti, Guanhua Xie, Marzena Swiderska, Steve S. Choi, Gamze Karaca, Leandi Krüger, Richard Premont, Liu Yang, Wing-Kin Syn, Daniel Metzger, Anna Mae Diehl

×

Figure 8

HSCs differentially coexpress markers of hepatocytes, progenitors, and MFs.

Options: View larger image (or click on image) Download as PowerPoint
HSCs differentially coexpress markers of hepatocytes, progenitors, and M...
(A) HSCs were isolated from WT mice. Total RNA was purified from either freshly isolated cells or cells cultured for 7 days and analyzed by RT-PCR. Amplicons were visualized by agarose gel electrophoresis. Band intensity was quantified and expressed relative to day 0 mRNA level. (B) FISH for GFAP (red) and albumin (blue) mRNAs in freshly isolated Q-HSCs (original magnification, ×100) (top). Immunofluorescence (IF) staining demonstrates colocalization of desmin (green) and albumin proteins in day 0 HSCs visualized by confocal microscopy. Nuclei are demonstrated by DAPI staining (original magnification, ×100) (bottom). (C) Expression of representative hepatocytic and progenitor markers (AFP, SOX9, Nanog) in day 0 HSCs (desmin-positive) and day 7 culture-activated mouse HSCs (αSMA-positive) visualized by confocal microscopy. Nuclei are demonstrated by DAPI staining (original magnification, ×100 [day 0 mouse HSCs]; ×40 [day 7 mouse HSCs]).