Calreticulin regulates hepatic stellate cell activation through modulating TGF-beta-induced Smad signaling

IF 4.3 2区 生物学 Q2 CELL BIOLOGY
Chien-Chih Chen , Li-Wen Hsu , Kuang-Den Chen , King-Wah Chiu , Chao-Pin Kung , Shu-Rong Li , Chao-Long Chen , Kuang-Tzu Huang
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Abstract

Liver fibrosis is characterized by excessive deposition of extracellular matrix (ECM) as a wound healing process. Activated hepatic stellate cells (HpSCs) are the major producer of the ECM and play a central role in liver fibrogenesis. It has been widely accepted that elimination of activated HpSCs or reversion to a quiescent state can be a feasible strategy for resolving the disease, further highlighting the urgent need for novel therapeutic targets. Calreticulin (CRT) is a molecular chaperone that normally resides in the endoplasmic reticulum (ER), important in protein folding and trafficking through the secretory pathway. CRT also plays a critical role in calcium (Ca2+) homeostasis, with its Ca2+ storage capacity. In the current study, we aimed to demonstrate its function in directing HpSC activation. In a mouse liver injury model, CRT was up-regulated in HpSCs. In cellular experiments, we further showed that this activation was through modulating the canonical TGF-β signaling. As down-regulation of CRT in HpSCs elevated intracellular Ca2+ levels through a form of Ca2+ influx, named store-operated Ca2+ entry (SOCE), we examined whether moderating SOCE affected TGF-β signaling. Interestingly, blocking SOCE had little effect on TGF-β-induced gene expression. In contrast, inhibition of ER Ca2+ release using the inositol trisphosphate receptor inhibitor 2-APB increased TGF-β signaling. Treatment with 2-APB did not alter SOCE but decreased intracellular Ca2+ at the basal level. Indeed, adjusting Ca2+ concentrations by EGTA or BAPTA-AM chelation further enhanced TGF-β-induced signaling. Our results suggest a crucial role of CRT in the liver fibrogenic process through modulating Ca2+ concentrations and TGF-β signaling in HpSCs, which may provide new information and help advance the current discoveries for liver fibrosis.

Abstract Image

钙网蛋白通过调节 TGF-beta 诱导的 Smad 信号调节肝星状细胞活化
肝纤维化的特点是细胞外基质(ECM)过度沉积,这是一种伤口愈合过程。活化的肝星状细胞(HpSCs)是 ECM 的主要制造者,在肝纤维化过程中发挥着核心作用。人们普遍认为,消除活化的肝星状细胞或使其恢复到静止状态是解决该疾病的可行策略,这进一步凸显了对新型治疗靶点的迫切需求。钙网蛋白(CRT)是一种分子伴侣,通常存在于内质网(ER)中,在蛋白质折叠和通过分泌途径的运输过程中起着重要作用。CRT 还具有钙(Ca2+)储存能力,在钙(Ca2+)稳态中发挥着关键作用。在本研究中,我们旨在证明 CRT 在引导 HpSC 激活方面的功能。在小鼠肝损伤模型中,CRT 在 HpSCs 中上调。在细胞实验中,我们进一步发现这种活化是通过调节典型的 TGF-β 信号传导实现的。由于下调 HpSCs 中的 CRT 会通过一种名为储存操作 Ca2+ 进入(SOCE)的 Ca2+ 流入形式升高细胞内 Ca2+ 水平,我们研究了调节 SOCE 是否会影响 TGF-β 信号传导。有趣的是,阻断 SOCE 对 TGF-β 诱导的基因表达几乎没有影响。相反,使用三磷酸肌醇受体抑制剂 2-APB 抑制 ER Ca2+ 释放会增加 TGF-β 信号传导。用 2-APB 处理不会改变 SOCE,但会降低基础水平的细胞内 Ca2+。事实上,通过 EGTA 或 BAPTA-AM 螯合调节 Ca2+ 浓度可进一步增强 TGF-β 诱导的信号传导。我们的研究结果表明,CRT 通过调节 HpSCs 中的 Ca2+ 浓度和 TGF-β 信号传导,在肝纤维化过程中发挥了关键作用,这可能会为目前肝纤维化的研究提供新的信息,并有助于推进肝纤维化的发现。
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来源期刊
Cell calcium
Cell calcium 生物-细胞生物学
CiteScore
8.70
自引率
5.00%
发文量
115
审稿时长
35 days
期刊介绍: Cell Calcium covers the field of calcium metabolism and signalling in living systems, from aspects including inorganic chemistry, physiology, molecular biology and pathology. Topic themes include: Roles of calcium in regulating cellular events such as apoptosis, necrosis and organelle remodelling Influence of calcium regulation in affecting health and disease outcomes
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