Activation of hepatic stellate cell in Pten null liver injury model.

Fibrogenesis & Tissue Repair Pub Date : 2016-06-14 eCollection Date: 2016-01-01 DOI:10.1186/s13069-016-0045-1
Lina He, James Gubbins, Zhechu Peng, Vivian Medina, Fan Fei, Kinji Asahina, Jiaohong Wang, Michael Kahn, Carl B Rountree, Bangyan L Stiles
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引用次数: 35

Abstract

Background: Hepatic fibrosis is a prominent pathological feature associated with chronic liver disease including non-alcoholic hepatosteatosis (NASH), and a precursor for liver cancer development. We previously reported that PTEN loss in the liver, which leads to hyperactivated liver insulin signaling results in NASH development. Here we used the same mouse model to study the progression from steatosis to fibrosis.

Results: The Pten null livers develop progressive liver fibrosis as indicated by Sirius Red staining and increased expression of collagen I, Timp 1, SMAα, and p75NTR. Consistently, hepatic stellate cells (HSCs) isolated from Pten null livers are readily activated when compared with that from mice with intact PTEN. Deletion of AKT2, the downstream target of PTEN signal, blocked NASH development, and alleviated fibrosis. HSCs from the Pten/Akt2 double null mice are quiescent like those isolated from the control livers. Our analysis shows that the activation of HSCs does not depend on the intrinsic signals regulated by PI3K/AKT, the target of PTEN, but does depend on steatosis and injury to the liver. During the progression of liver fibrosis in the Pten null model, Wnt ligands and signaling receptor are induced, concurrent with the reduction of sFRP5, a Wnt antagonist. We showed that treatment of HSCs with Wnt receptor antagonist blocks the observed morphological changes when HSCs undergo activation in culture. This signal appears to be mediated by β-catenin, as manipulating β-catenin signaling alters marker gene expressions of HSC activation.

Conclusions: Wnt/β-catenin activation serves as an important mediator for fibrosis development resulting from NASH using a mouse model where NASH is mimicked by PTEN loss.

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Pten缺失肝损伤模型中肝星状细胞的活化。
背景:肝纤维化是包括非酒精性肝纤维化(NASH)在内的慢性肝病的重要病理特征,也是肝癌发展的先兆。我们之前报道肝脏PTEN缺失导致肝脏胰岛素信号过度激活,从而导致NASH的发展。这里我们使用相同的小鼠模型来研究从脂肪变性到纤维化的进展。结果:天狼星红染色显示Pten缺失的肝脏发生进行性肝纤维化,胶原I、Timp 1、SMAα和p75NTR的表达增加。与完整的Pten小鼠相比,从Pten缺失的肝脏中分离的肝星状细胞(hsc)更容易被激活。PTEN信号下游靶点AKT2的缺失可阻断NASH的发展,减轻纤维化。来自Pten/Akt2双缺失小鼠的造血干细胞与从对照肝脏分离的造血干细胞一样处于静止状态。我们的分析表明,hsc的激活不依赖于PTEN靶点PI3K/AKT调节的内在信号,而是依赖于脂肪变性和肝脏损伤。在Pten零模型肝纤维化的进展过程中,Wnt配体和信号受体被诱导,同时Wnt拮抗剂sFRP5的减少。我们发现用Wnt受体拮抗剂处理造血干细胞可以阻断培养中造血干细胞激活时观察到的形态学变化。这个信号似乎是由β-catenin介导的,因为操纵β-catenin信号可以改变HSC激活的标记基因表达。结论:在PTEN缺失模拟NASH的小鼠模型中,Wnt/β-catenin激活是NASH纤维化发展的重要介质。
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