机械硬度通过 FAPα-AKT 信号通路促进皮肤纤维化

Jiahao He , Bin Fang , Shengzhou Shan , Qingfeng Li
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引用次数: 0

摘要

背景肌成纤维细胞促成了细胞外基质的过度产生、重塑和交联,这是皮肤纤维化进展的特征。对组织纤维化发病机制的一个重要发现是,纤维化进展过程中基质硬度的增加与肌成纤维细胞的活化有关。目的 探索成纤维细胞活化蛋白-α(FAPα)在机械硬度诱导的皮肤纤维化进展中的作用。方法 对生长在低硬度或高硬度平板上的小鼠真皮成纤维细胞(MDFs)的不同基因进行了RNA-seq比较。这一过程确定了 FAPα(一种通常在活化成纤维细胞中过度表达的膜蛋白)为合适的候选基因。在体外试验中,我们研究了 FAPα 在机械刚度诱导的 MDFs 激活中的作用及其下游途径。通过建立小鼠皮肤纤维化模型和皮内注射 FAPα 腺相关病毒(AAV)或选择性 Fap 抑制剂 FAPi,我们探讨了 FAPα 在体内皮肤纤维化中的作用。基因缺失或药物抑制 FAPα 能显著抑制机械硬度诱导的体外肌成纤维细胞活化。从机制上讲,FAPα通过刺激PI3K-Akt通路促进肌成纤维细胞的活化。结论综上所述,我们发现 FAPα 是机械僵化诱导的皮肤纤维化的重要驱动因素,也是治疗皮肤纤维化的潜在治疗靶点。
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Mechanical stiffness promotes skin fibrosis through FAPα-AKT signaling pathway

Background

Myofibroblasts contribute to the excessive production, remodeling and cross-linking of the extracellular matrix that characterizes the progression of skin fibrosis. An important insight into the pathogenesis of tissue fibrosis has been the discovery that increased matrix stiffness during fibrosis progression is involved in myofibroblast activation. However, mechanistic basis for this phenomenon remains elusive.

Objective

To explore the role of fibroblast activation protein-α (FAPα) in mechanical stiffness-induced skin fibrosis progression.

Methods

RNA-seq was performed to compare differential genes of mouse dermal fibroblasts (MDFs) grown on low or high stiffness plates. This process identified FAPα, which is a membrane protein usually overexpressed in activated fibroblasts, as a suitable candidate. In vitro assay, we investigate the role of FAPα in mechanical stiffness-induced MDFs activation and downstream pathway. By establishing mouse skin fibrosis model and intradermally administrating FAPα adeno-associated virus (AAV) or a selective Fap inhibitor FAPi, we explore the role of FAPα in skin fibrosis in vivo.

Results

We show that FAPα, a membrane protein highly expressed in myofibroblasts of skin fibrotic tissues, is regulated by increased matrix stiffness. Genetic deletion or pharmacological inhibition of FAPα significantly inhibits mechanical stiffness-induced activation of myofibroblasts in vitro. Mechanistically, FAPα promotes myofibroblast activation by stimulating the PI3K-Akt pathway. Furthermore, we showed that administration of the inhibitor FAPi or FAPα targeted knockdown ameliorated the progression of skin fibrosis.

Conclusion

Taken together, we identify FAPα as an important driver of mechanical stiffness-induced skin fibrosis and a potential therapeutic target for the treatment of skin fibrosis.

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