Liver regeneration requires Yap1-TGFβ-dependent epithelial-mesenchymal transition in hepatocytes.

Oh, Seh-Hoon

Swiderska-Syn, Marzena

Jewell, Mark L

Premont, Richard T

Diehl, Anna Mae

2018-06-01T13:41:04Z

2018-06-01T13:41:04Z

2018-05-11

2018-06-01T13:41:02Z

Chronic failure of mechanisms that promote effective regeneration of dead hepatocytes causes replacement of functional hepatic parenchyma with fibrous scar and ultimately results in cirrhosis. Therefore, defining and optimizing mechanisms that orchestrate effective regeneration might prevent cirrhosis. We hypothesized that effective regeneration of injured livers requires hepatocytes to evade the growth inhibitory actions of TGF-β since TGF-β signaling inhibits mature hepatocyte growth but drives cirrhosis pathogenesis. Approach Wild type mice underwent partial hepatectomy (PH); TGF-β expression and signaling were evaluated in intact tissue and primary hepatocytes before, during, and after the period of maximal hepatocyte proliferation that occurs from 24-72h after PH. To determine the role of Yap1 in regulating TGF-β signaling in hepatocytes, studies were repeated after selectively deleting Yap1 from hepatocytes of Yap1flox/flox mice.TGF-β expression and hepatocyte nuclear accumulation of pSmad2 and Yap1 increased in parallel with hepatocyte proliferative activity after PH. Proliferative hepatocytes also upregulated Snai1, a pSmad2 target gene that promotes epithelial-to-mesenchymal transition (EMT), suppressed epithelial genes, induced myofibroblast markers, and produced collagen 1α1. Deleting Yap1 from hepatocytes blocked their nuclear accumulation of pSmad2 and EMT-like response, as well as their proliferation.Interactions between the TGF-β and Hippo-Yap signaling pathways stimulate hepatocytes to undergo an EMT-like response that is necessary for them to grow in a TGF-β-enriched microenvironment and regenerate injured livers.The adult liver has an extraordinary ability to regenerate after injury despite the accumulation of scar-forming factors that normally block the proliferation and reduce the survival of residual liver cells. We discovered that liver cells manage to escape these growth-inhibitory influences by transiently becoming more like fibroblasts themselves, and showed that they do this by reactivating programs that are known to drive tissue growth during fetal development and in many cancers. Understanding how the liver is able to control programs that are involved in scarring and cancer may help develop new treatments for cirrhosis and liver cancer.

S0168-8278(18)32054-3

0168-8278

1600-0641

https://hdl.handle.net/10161/17085

eng

Elsevier BV

Journal of hepatology

10.1016/j.jhep.2018.05.008

Hepatocyte reprogramming

Liver regeneration

Liver regeneration requires Yap1-TGFβ-dependent epithelial-mesenchymal transition in hepatocytes.

Journal article

Premont, Richard T|0000-0002-8053-5026

School of Medicine

Duke

Duke Institute for Brain Sciences

University Institutes and Centers

Institutes and Provost's Academic Units

Medicine, Gastroenterology

Medicine

Clinical Science Departments

Published