Comprehensive Pneumology Center, University Hospital of the Ludwig-Maximilians University, Munich and Helmholtz Zentrum München, Member of the Comprehensive Pneumology Center-Munich BioArchive, Member of the German Center for Lung Research , Munich , Germany.
Thoraxchirurgisches Zentrum München, Asklepios Fachkliniken München-Gauting, Munich , Germany.
Am J Physiol Lung Cell Mol Physiol. 2018 Nov 1;315(5):L682-L696. doi: 10.1152/ajplung.00439.2017. Epub 2018 Jun 28.
Fibroblasts play an important role in lung homeostasis and disease. In lung fibrosis, fibroblasts adopt a proliferative and migratory phenotype, with increased expression of α-smooth muscle actin (αSMA) and enhanced secretion of extracellular matrix components. Comprehensive profiling of fibroblast heterogeneity is limited because of a lack of specific cell-surface markers. We have previously profiled the surface proteome of primary human lung fibroblasts. Here, we sought to define and quantify a panel of cluster of differentiation (CD) markers in primary human lung fibroblasts and idiopathic pulmonary fibrosis (IPF) lung tissue, using immunofluorescence and FACS analysis. Fibroblast function was assessed by analysis of replicative senescence. We observed the presence of distinct fibroblast phenotypes in vivo, characterized by various combinations of Desmin, αSMA, CD36, or CD97 expression. Most markers demonstrated stable expression over passages in vitro, but significant changes were observed for CD36, CD54, CD82, CD106, and CD140a. Replicative senescence of fibroblasts was observed from passage 10 onward. CD36- and CD97-positive but αSMA-negative cells were present in remodeled areas of IPF lungs. Transforming growth factor (TGF)-β treatment induced αSMA and collagen I expression but repressed CD36 and CD97 expression. We identified a panel of stable surface markers in human lung fibroblasts, applicable for positive-cell isolation directly from lung tissue. TGF-β exposure represses CD36 and CD97 expression, despite increasing αSMA expression; we therefore identified complex surface protein changes during fibroblast-myofibroblast activation. Coexistence of quiescence and activated fibroblast subtypes in the IPF lung suggests dynamic remodeling of fibroblast activation upon subtle changes to growth factor exposure in local microenvironmental niches.
成纤维细胞在肺稳态和疾病中发挥着重要作用。在肺纤维化中,成纤维细胞表现出增殖和迁移表型,α-平滑肌肌动蛋白 (αSMA) 的表达增加,细胞外基质成分的分泌增强。由于缺乏特异性细胞表面标志物,对成纤维细胞异质性的综合分析受到限制。我们之前对原代人肺成纤维细胞的表面蛋白质组进行了分析。在这里,我们试图使用免疫荧光和 FACS 分析,在原代人肺成纤维细胞和特发性肺纤维化 (IPF) 肺组织中定义和量化一组分化群 (CD) 标志物。通过分析复制性衰老来评估成纤维细胞的功能。我们观察到体内存在不同的成纤维细胞表型,其特征是结蛋白、αSMA、CD36 或 CD97 表达的不同组合。大多数标志物在体外传代过程中表达稳定,但 CD36、CD54、CD82、CD106 和 CD140a 的表达发生了显著变化。从第 10 代开始观察到成纤维细胞的复制性衰老。在 IPF 肺的重塑区域存在 CD36 和 CD97 阳性但 αSMA 阴性的细胞。转化生长因子 (TGF)-β 处理诱导 αSMA 和胶原 I 的表达,但抑制 CD36 和 CD97 的表达。我们在人肺成纤维细胞中鉴定了一组稳定的表面标志物,可直接从肺组织中分离出阳性细胞。TGF-β 暴露抑制 CD36 和 CD97 的表达,尽管增加了 αSMA 的表达;因此,我们在成纤维细胞-肌成纤维细胞激活过程中鉴定了复杂的表面蛋白变化。在 IPF 肺中静止和成纤维细胞激活亚群共存表明,在局部微环境龛中生长因子暴露的微小变化导致成纤维细胞激活的动态重塑。
