ETS1 suppresses hepatic stellate cell activation and liver fibrosis
Wonseok Lee, Xiao Liu, Sara Brin Rosenthal, Charlene Miciano, Sadatsugu Sakane, Kanani Hokutan, Debanjan Dhar, Hyun Young Kim, David A. Brenner, Tatiana Kisseleva
Wonseok Lee, Xiao Liu, Sara Brin Rosenthal, Charlene Miciano, Sadatsugu Sakane, Kanani Hokutan, Debanjan Dhar, Hyun Young Kim, David A. Brenner, Tatiana Kisseleva
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Research Article Cell biology Gastroenterology Hepatology

ETS1 suppresses hepatic stellate cell activation and liver fibrosis

Abstract

Chronic liver injury results in activation of quiescent hepatic stellate cells (HSCs) into collagen type I–producing activated HSCs that make the liver fibrotic. We identified ETS1 and ETS2 (ETS1/2) as lineage-specific transcription factors regulating HSC phenotypes. Here, we investigated the role of ETS1/2 in HSCs in liver fibrosis using toxic liver injury models and 3D human liver spheroids. Liver fibrosis was induced in WT and HSC-specific Ets1-KO (Ets1ΔHSC) and Ets2-KO (Ets2ΔHSC) mice by administration of CCl4 for 6 weeks, followed by cessation of liver injury for 2 weeks. Liver fibrosis was more severe in Ets1ΔHSC and to a lesser extent Ets2ΔHSC mice compared with WT mice. Regression of liver fibrosis was suppressed only in Ets1ΔHSC mice, indicating Ets1 is the predominant isoform maintaining a quiescent-like phenotype in HSCs. Similar results were obtained in a metabolic dysfunction–associated steatohepatitis (MASH) model using 3D human liver spheroids. Knockdown of ETS1 in human HSCs caused upregulation of fibrogenic genes in MASH human liver spheroids and prevented fibrosis regression. ETS1 regulated the quiescent HSC phenotype via the CREB-regulated transcription coactivator 2 (CRTC2)/PGC1α/PPARγ pathway. Knockdown of CRTC2 abrogated PPARγ responses and facilitated HSC activation. These findings suggest that ETS1 may represent a therapeutic target for antifibrotic therapy.

Authors

Wonseok Lee, Xiao Liu, Sara Brin Rosenthal, Charlene Miciano, Sadatsugu Sakane, Kanani Hokutan, Debanjan Dhar, Hyun Young Kim, David A. Brenner, Tatiana Kisseleva

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Figure 2

Deletion of ETS1 in HSCs exacerbates CCl4-induced liver fibrosis and prevents fibrosis resolution in Ets1ΔHSC mice.

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Deletion of ETS1 in HSCs exacerbates CCl4-induced liver fibrosis and pre...
Ets1fl/fl mice and Ets1ΔHSC mice (n = 7 per group) were administered with either vehicle (corn oil) or carbon tetrachloride (CCl4) for 6 weeks, followed by cessation for 2 weeks after the last CCl4 administration. (A) Livers from Ets1fl/fl mice and Ets1ΔHSC mice were stained for H&E, Sirius red, αSMA, desmin, and F4/80 (scale bar: 200 μm), and (B) staining-positive area was calculated as a percentage. (C) The rate of fibrosis resolution was calculated by setting the positive area (%) of the group administered CCl4 for 6 weeks to 1 (baseline). (D) Fibrogenic mRNA expression in the liver tissues was analyzed by qRT-PCR. (E) The rate of fibrosis resolution was calculated by setting the mRNA expression of the 6-week CCl4-injured group to 1 (baseline). Data are expressed as the mean ± SD; *P < 0.05, **P < 0.01, and ***P < 0.001, 1-way ANOVA followed by Tukey’s test.