Fibrosis in systemic sclerosis: common and unique pathobiology.

Fibrogenesis & Tissue Repair Pub Date : 2012-06-06 eCollection Date: 2012-01-01 DOI:10.1186/1755-1536-5-S1-S18
Swati Bhattacharyya, Jun Wei, Warren G Tourtellotte, Monique Hinchcliff, Cara G Gottardi, John Varga
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引用次数: 37

Abstract

Fibrosis in systemic sclerosis (SSc), a complex polygenic disease associated with autoimmunity and proliferative/obliterative vasculopathy, shares pathobiologic features in common with other fibrosing illnesses, but also has distinguishing characteristics. Fibroblast activation induced by transforming growth factor-β (TGF-β), Wnts and innate immune receptors, along with oxidative stress and reactive oxygen species (ROS) are implicated in pathogenesis. On the other hand, the roles of endothelial-mesenchymal differentiation and bone marrow-derived fibrocytes remain to be established. Fibrotic responses are modulated by transcriptional activators and cofactors, epigenetic factors, and microRNAs that can amplify or inhibit ligand-induced signaling. The nuclear orphan receptor PPAR-γ appears to be important in governing the duration and intensity of fibroblast activation and mesenchymal progenitor cell differentiation, and defects in PPAR-γ expression or function in SSc may underlie the uncontrolled progression of fibrosis. Identifying the perturbations in signaling pathways and cellular differentiation programs responsible for tissue damage and fibrosis in SSc allows their selective targeting using novel compounds, or by innovative uses of already-approved drugs (drug repurposing).

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系统性硬化症纤维化:常见和独特的病理生物学。
系统性硬化症(SSc)纤维化是一种复杂的多基因疾病,与自身免疫和增生性/闭塞性血管病变相关,与其他纤维化疾病具有共同的病理生物学特征,但也具有独特的特征。转化生长因子-β (TGF-β)、Wnts和先天免疫受体以及氧化应激和活性氧(ROS)诱导的成纤维细胞活化参与了发病机制。另一方面,内皮-间充质分化和骨髓源性纤维细胞的作用仍有待确定。纤维化反应是由转录激活因子和辅助因子、表观遗传因子和可以放大或抑制配体诱导信号的microrna调节的。核孤儿受体PPAR-γ似乎在控制成纤维细胞激活和间充质祖细胞分化的持续时间和强度方面很重要,SSc中PPAR-γ表达或功能的缺陷可能是纤维化不受控制进展的基础。识别导致SSc组织损伤和纤维化的信号通路和细胞分化程序中的扰动,允许他们使用新化合物或通过已批准药物的创新用途(药物再利用)进行选择性靶向。
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Matrix and cell phenotype differences in Dupuytren's disease. Activation of hepatic stellate cell in Pten null liver injury model. Protective role for miR-9-5p in the fibrogenic transformation of human dermal fibroblasts. Age-dependent development of liver fibrosis in Glmp (gt/gt) mice. Active transforming growth factor-β is associated with phenotypic changes in granulomas after drug treatment in pulmonary tuberculosis.
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