肝内单核细胞亚群在体内肝脏炎症和肝纤维化进展中的功能作用。

Fibrogenesis & Tissue Repair Pub Date : 2012-06-06 eCollection Date: 2012-01-01 DOI:10.1186/1755-1536-5-S1-S27
Frank Tacke
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引用次数: 92

摘要

慢性肝损伤后的持续炎症可诱导小鼠和男性肝纤维化的发生。肝纤维化的实验模型强调了肝巨噬细胞,即所谓的Kupffer细胞,通过释放促炎细胞因子和趋化因子以及激活肝星状细胞(HSC)来维持炎症的重要性。最近对小鼠的研究表明,这些作用仅部分由肝脏巨噬细胞(通常称为Kupffer细胞)完成,但主要依赖于单核细胞进入肝脏的募集。单核细胞是组织巨噬细胞和树突状细胞(DC)的循环前体,它们在血液中包括两个主要亚群,其特征是趋化因子受体、粘附分子和不同标记物的差异表达,如小鼠的Ly6C/Gr1或人类的CD14和CD16。器官损伤后,趋化因子受体CCR2及其配体MCP-1 (CCL2)以及CCR8和CCL1促进单核细胞亚群在肝脏的积累,即炎性Ly6C(+) (Gr1(+))单核细胞亚群作为组织巨噬细胞的前体。新型抗mcp -1定向药物可特异性阻断促炎单核细胞向损伤小鼠肝脏的浸润。相比之下,趋化因子受体CX3CR1及其配体fractalkine (CX3CL1)通过控制单核细胞的存活和向功能多样化的巨噬细胞亚群的分化,是肝脏炎症中单核细胞浸润的重要负调节因子。在肝硬化患者中,“非经典”CD14(+)CD16(+)单核细胞在血液和肝脏中被激活,通过释放不同的细胞因子和与HSC的直接相互作用,促进促炎和促纤维化作用,表明小鼠模型的发现可以转化为人类肝纤维化的发病机制。此外,实验动物模型表明,单核/巨噬细胞和dc不仅对纤维化进展至关重要,而且对纤维化消退也至关重要,因为巨噬细胞还可以降解细胞外基质蛋白并发挥抗炎作用。因此,最近发现的单核细胞亚群募集、巨噬细胞分化以及与损伤肝脏中其他肝细胞类型相互作用的细胞和分子途径可能为未来肝纤维化治疗方法提供有趣的新靶点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Functional role of intrahepatic monocyte subsets for the progression of liver inflammation and liver fibrosis in vivo.

Functional role of intrahepatic monocyte subsets for the progression of liver inflammation and liver fibrosis in vivo.

Sustained inflammation upon chronic liver injury induces the development of liver fibrosis in mice and men. Experimental models of liver fibrosis highlight the importance of hepatic macrophages, so-called Kupffer cells, for perpetuating inflammation by releasing proinflammatory cytokines and chemokines as well as activating hepatic stellate cells (HSC). Recent studies in mice demonstrate that these actions are only partially conducted by liver-resident macrophages, classically termed Kupffer cells, but largely depend on recruitment of monocytes into the liver. Monocytes are circulating precursors of tissue macrophages and dendritic cells (DC), which comprise two major subsets in blood, characterized by the differential expression of chemokine receptors, adhesion molecules and distinct markers, such as Ly6C/Gr1 in mice or CD14 and CD16 in humans. Upon organ injury, chemokine receptor CCR2 and its ligand MCP-1 (CCL2) as well as CCR8 and CCL1 promote monocyte subset accumulation in the liver, namely of the inflammatory Ly6C(+) (Gr1(+)) monocyte subset as precursors of tissue macrophages. The infiltration of proinflammatory monocytes into injured murine liver can be specifically blocked by novel anti-MCP-1 directed agents. In contrast, chemokine receptor CX3CR1 and its ligand fractalkine (CX3CL1) are important negative regulators of monocyte infiltration in hepatic inflammation by controlling their survival and differentiation into functionally diverse macrophage subsets. In patients with liver cirrhosis, 'non-classical' CD14(+)CD16(+) monocytes are found activated in blood as well as liver and promote pro-inflammatory along with pro-fibrogenic actions by the release of distinct cytokines and direct interactions with HSC, indicating that the findings from murine models can be translated into pathogenesis of human liver fibrosis. Moreover, experimental animal models indicate that monocytes/macrophages and DCs are not only critical for fibrosis progression, but also for fibrosis regression, because macrophages can also degrade extracellular matrix proteins and exert anti-inflammatory actions. The recently identified cellular and molecular pathways for monocyte subset recruitment, macrophage differentiation and interactions with other hepatic cell types in injured liver may therefore represent interesting novel targets for future therapeutic approaches in liver fibrosis.

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