GATA4 induces liver fibrosis regression by deactivating hepatic stellate cells
Noelia Arroyo, … , David A. Cano, Anabel Rojas
Noelia Arroyo, … , David A. Cano, Anabel Rojas
Published October 26, 2021
Citation Information: JCI Insight. 2021;6(23):e150059. https://doi.org/10.1172/jci.insight.150059.
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Research Article Cell biology Gastroenterology

GATA4 induces liver fibrosis regression by deactivating hepatic stellate cells

Abstract

In response to liver injury, hepatic stellate cells activate and acquire proliferative and contractile features. The regression of liver fibrosis appears to involve the clearance of activated hepatic stellate cells, either by apoptosis or by reversion toward a quiescent-like state, a process called deactivation. Thus, deactivation of active hepatic stellate cells has emerged as a novel and promising therapeutic approach for liver fibrosis. However, our knowledge of the master regulators involved in the deactivation and/or activation of fibrotic hepatic stellate cells is still limited. The transcription factor GATA4 has been previously shown to play an important role in embryonic hepatic stellate cell quiescence. In this work, we show that lack of GATA4 in adult mice caused hepatic stellate cell activation and, consequently, liver fibrosis. During regression of liver fibrosis, Gata4 was reexpressed in deactivated hepatic stellate cells. Overexpression of Gata4 in hepatic stellate cells promoted liver fibrosis regression in CCl4-treated mice. GATA4 induced changes in the expression of fibrogenic and antifibrogenic genes, promoting hepatic stellate cell deactivation. Finally, we show that GATA4 directly repressed EPAS1 transcription in hepatic stellate cells and that stabilization of the HIF2α protein in hepatic stellate cells leads to liver fibrosis.

Authors

Noelia Arroyo, Laura Villamayor, Irene Díaz, Rita Carmona, Mireia Ramos-Rodríguez, Ramón Muñoz-Chápuli, Lorenzo Pasquali, Miguel G. Toscano, Franz Martín, David A. Cano, Anabel Rojas

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Figure 1

Gata4 inactivation induces liver fibrosis in adult stages.

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Gata4 inactivation induces liver fibrosis in adult stages. (A) Quantita...
(A) Quantitative RT-PCR analysis of Gata4 expression in livers of adult Gata4-floxed mice injected with GFP-expressing (Ad-GFP) or Cre-expressing adenoviruses (Ad-Cre) (Ad-GFP n = 3; Ad-Cre = 10). (B) Quantification of Sirius red–stained area per total liver area in Ad-GFP– and Ad-Cre–injected mice (n = 3, Ad-GFP; n = 4, Ad-Cre). Polarized light microscopy images of Sirius red–stained liver sections from Gata4-floxed mice treated with (C) Ad-GFP and (D) Ad-Cre adenoviruses. (E) Quantification of the liver area immunostained for the ECM protein laminin in Ad-GFP– and Ad-Cre–injected mice (n = 3 each group). Increased accumulation of the ECM protein laminin in the liver of (F) Ad-GFP– and (G) Ad-Cre–injected mice (n = 3, Ad-GFP; n = 4, Ad-Cre). (H) Quantification of the liver area immunostained for α-smooth muscle actin (SMA) in Ad-GFP– and Ad-Cre–injected mice (n = 3 each group). Activation of HSCs, marked by α-smooth muscle actin is observed in (J) Gata4-floxed mice treated with Ad-Cre adenoviruses compared with (I) Gata4-floxed mice treated with Ad-GFP adenoviruses. Quantitative RT-PCR analysis of (K) Col1A1 and (L) Acta2, Timp1, TgfβR1, and Stat1 expression in livers of Ad-GFP– and Ad-Cre–injected mice (n = 3–5, Ad-GFP; n = 5–6, Ad-Cre). Scale bars: 100 μm (C and D); 25 μm (F, G, I, and J). Statistical analyses was performed using 2-tailed Student’s test. Error bars represent mean ± SEM. *P < 0.05, **P < 0.01.