活化的原代人肝星状细胞的体外逆转。

Fibrogenesis & Tissue Repair Pub Date : 2015-08-06 eCollection Date: 2015-01-01 DOI:10.1186/s13069-015-0031-z
Adil El Taghdouini, Mustapha Najimi, Pau Sancho-Bru, Etienne Sokal, Leo A van Grunsven
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引用次数: 73

摘要

背景:肝纤维化的特点是由于肝脏伤口愈合导致基质蛋白的过度形成和积累。纤维化过程中的一个主要事件是肝脏静止肝星状细胞(qHSC)的激活。最近的研究表明,活化的HSC (aHSC)表型逆转为静息样表型可能是肝脏纤维化消退的主要细胞机制,从而为肝纤维化的治疗提供了新的治疗前景。人类造血干细胞是否有能力在表型上经历类似的逆转目前尚不清楚。本研究的目的是确定能够恢复原代人造血干细胞体外活化表型的实验条件,从而通过基因表达谱绘制与这一逆转过程相关的分子事件。结果:我们发现表皮生长因子(EGF)和成纤维细胞生长因子2 (FGF2)协同下调原代人ahsc中ACTA2和LOX的表达。它们与油酸、棕榈酸和视黄醇的结合进一步增强了一种更安静的表型,这表现在丰富的视黄醇酯阳性细胞质内脂滴的存在,激活标记物的低表达水平,以及基础细胞因子刺激的增殖和基质金属蛋白酶活性的降低。基因表达谱实验显示,这些体外还原的原代人造血干细胞(rHSCs)显示出一种不同于qhsc和aHSCs的中间表型。有趣的是,这种中间表型的特点是体内灭活小鼠造血干细胞中几个先前鉴定的特征基因(如CXCL1、CXCL2和CTSS)的表达增加,这也表明这些基因在促进人类造血干细胞中类似静止表型的潜在作用。结论:我们提供了证据,证明人原代造血干细胞能够通过EGF、FGF2、膳食脂肪酸和视黄醇的协同作用在体外恢复到过渡状态,并提供了体外人造血干细胞的第一个表型和基因组特征。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

In vitro reversion of activated primary human hepatic stellate cells.

In vitro reversion of activated primary human hepatic stellate cells.

In vitro reversion of activated primary human hepatic stellate cells.

In vitro reversion of activated primary human hepatic stellate cells.

Background: Liver fibrosis is characterized by the excessive formation and accumulation of matrix proteins as a result of wound healing in the liver. A main event during fibrogenesis is the activation of the liver resident quiescent hepatic stellate cell (qHSC). Recent studies suggest that reversion of the activated HSC (aHSC) phenotype into a quiescent-like phenotype could be a major cellular mechanism underlying fibrosis regression in the liver, thereby offering new therapeutic perspectives for the treatment of liver fibrosis. Whether human HSCs have the ability to undergo a similar reversion in phenotype is currently unknown. The aim of the present study is to identify experimental conditions that can revert the in vitro activated phenotype of primary human HSCs and consequently to map the molecular events associated with this reversion process by gene expression profiling.

Results: We find that epidermal growth factor (EGF) and fibroblast growth factor 2 (FGF2) synergistically downregulate the expression of ACTA2 and LOX in primary human aHSCs. Their combination with oleic acid, palmitic acid, and retinol further potentiates a more quiescent-like phenotype as demonstrated by the abundant presence of retinyl ester-positive intra-cytoplasmic lipid droplets, low expression levels of activation markers, and a reduced basal as well as cytokine-stimulated proliferation and matrix metalloproteinase activity. Gene expression profiling experiments reveal that these in vitro reverted primary human HSCs (rHSCs) display an intermediary phenotype that is distinct from qHSCs and aHSCs. Interestingly, this intermediary phenotype is characterized by the increased expression of several previously identified signature genes of in vivo inactivated mouse HSCs such as CXCL1, CXCL2, and CTSS, suggesting also a potential role for these genes in promoting a quiescent-like phenotype in human HSCs.

Conclusions: We provide evidence for the ability of human primary aHSCs to revert in vitro to a transitional state through synergistic action of EGF, FGF2, dietary fatty acids and retinol, and provide a first phenotypic and genomic characterization of human in vitro rHSCs.

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