在健康的非裔美国人和硬皮病患者单核细胞中,趋化因子受体的表达、功能和信号的增强是由小窝蛋白-1调节的。

Fibrogenesis & Tissue Repair Pub Date : 2015-06-20 eCollection Date: 2015-01-01 DOI:10.1186/s13069-015-0028-7
Rebecca Lee, Charles Reese, Beth Perry, Jonathan Heywood, Michael Bonner, Marina Zemskova, Richard M Silver, Stanley Hoffman, Elena Tourkina
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引用次数: 32

摘要

背景:非洲裔美国人(AA)遭受的主要健康差距是易患皮肤,肺和其他器官的纤维化疾病。我们之前的研究表明,健康的AA和硬皮病(系统性硬化症(SSc))患者的单核细胞与对照的高加索(C)单核细胞具有生化和功能上的差异,这可能使AA易患SSc。主要的区别是小窝蛋白-1的减少。低cavolin -1水平促进单核细胞迁移、向纤维细胞分化以及纤维细胞向纤维化组织募集。在此,我们极大地扩展了caveolin-1在AA和SSc单核细胞纤维化中的作用机制的研究。结果:健康的AA单核细胞中趋化因子受体(CCR1、CCR2、CCR3)的表达比健康的C单核细胞增强,SSc单核细胞中趋化因子受体的表达进一步增强。通过向趋化因子MCP-1和MCP-3的迁移来评估功能的平行增加。趋化因子受体的表达和功能被caveolin-1支架结构域肽(CSD)通过其替代caveolin-1的作用而抑制。携带趋化因子受体的细胞在SSc患者和接受博来霉素治疗的小鼠的纤维化肺和皮肤组织中积累到高水平。在接受CSD治疗的小鼠中,这种积累几乎完全被阻断。在信号研究中,与C单核细胞相比,AA单核细胞的Src激活增强,SSc单核细胞的Src激活进一步增强。Lyn在SSc单核细胞中也高度活化。CSD抑制Src和Lyn的激活。Src和Lyn在单核细胞迁移中的作用通过特异性抑制剂得到证实。结论:据我们所知,这是首次报道健康AA和SSc患者单核细胞中CCR1、CCR2和CCR3的表达和功能通过涉及caveolin-1、Src/Lyn和MEK/ERK的分子机制上调。结果表明,至少部分由CCR1、CCR2和CCR3介导的单核细胞和纤维细胞向纤维化组织的迁移/募集在肺和皮肤纤维化的进展以及AA对纤维化疾病的易感中起主要作用。我们的研究结果进一步表明,趋化因子受体和控制其表达/功能的信号分子,特别是小窝蛋白-1,是治疗纤维化疾病的有希望的靶点。
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Enhanced chemokine-receptor expression, function, and signaling in healthy African American and scleroderma-patient monocytes are regulated by caveolin-1.

Background: A major health disparity suffered by African Americans (AA) is a predisposition toward fibrotic diseases of the skin, lung, and other organs. We previously showed that healthy AA and scleroderma (systemic sclerosis (SSc)) patient monocytes share biochemical and functional differences from control Caucasian (C) monocytes that may predispose AA to SSc. The central difference is a decrease in caveolin-1. Low caveolin-1 levels promote monocyte migration, their differentiation into fibrocytes, and fibrocyte recruitment into fibrotic tissues. Here we have greatly expanded our studies on the mechanism of action in fibrosis of caveolin-1 in AA and SSc monocytes.

Results: Expression of chemokine receptors (CCR1, CCR2, CCR3) is enhanced in healthy AA monocytes compared to healthy C monocytes and further increased in SSc monocytes. A parallel increase in function occurs assessed by migration toward chemokines MCP-1 and MCP-3. Chemokine-receptor expression and function are inhibited by the caveolin-1 scaffolding domain peptide (CSD) via its action as a surrogate for caveolin-1. Cells bearing chemokine receptors accumulate to high levels in fibrotic lung and skin tissue from SSc patients and from mice treated with bleomycin. This accumulation is almost completely blocked in mice treated with CSD. In signaling studies, Src activation is enhanced in AA monocytes compared to C monocytes and further increased in SSc monocytes. Lyn is also highly activated in SSc monocytes. Src and Lyn activation are inhibited by CSD. Src and Lyn's roles in monocyte migration were demonstrated using specific inhibitors.

Conclusions: To the best of our knowledge, this is the first report that the expression and function of CCR1, CCR2, and CCR3 are upregulated in monocytes from healthy AA and from SSc patients via molecular mechanisms involving caveolin-1, Src/Lyn, and MEK/ERK. The results suggest that the migration/recruitment of monocytes and fibrocytes into fibrotic tissues, mediated at least in part by CCR1, CCR2, and CCR3, plays a major role in the progression of lung and skin fibrosis and in the predisposition of AA to fibrotic diseases. Our findings further suggest that chemokine receptors and signaling molecules, particularly caveolin-1, that control their expression/function are promising targets for treating fibrotic diseases.

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