CD45+/ Col I+纤维细胞：纤维化肺中胶原蛋白的主要来源，但在传代成纤维细胞培养中不是。

IF 4.5 1区生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY

Matrix Biology Pub Date : 2025-01-17 DOI:10.1016/j.matbio.2025.01.005

Charles F. Reese , Monika Gooz , Zoltan Hajdu , Stanley Hoffman

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引用次数: 0

摘要

造血系细胞在纤维化中的作用是有争议的。在这里，我们评估Col I+/CD45+细胞（纤维细胞）在肺纤维化中的作用。在骨髓移植和两个转基因小鼠模型中，全身性博来霉素治疗可诱导纤维化。通过流式细胞术分析这些小鼠的肺细胞，无论是在组织释放后立即还是在组织培养塑料上生长后。纤维化和对照人肺组织也被使用。我们比较了从转基因小鼠模型中提取的成纤维细胞和成纤维细胞的形态、生长和对纤维连接蛋白的粘附。单细胞RNAseq分析集中在对照和纤维化小鼠肺组织中的CD45-/Col I+“成纤维细胞”和CD45+/Col I+“纤维细胞”。最后，我们使用一种新的、水溶性的小窝蛋白支架结构域（CSD），即WCSD，抑制了小鼠的纤维化。在小鼠和人肺组织中，我们通过流式细胞术观察到与纤维化相关的纤维细胞数量和Col I表达的大量增加。相反，成纤维细胞数量没有显著增加。单细胞RNAseq也观察到与纤维化相关的纤维细胞数量大幅增加（50倍）。在这种情况下，成纤维细胞增加了5倍。单细胞RNAseq还显示，纤维化组织中的肌成纤维细胞标记与含有相似数量的纤维细胞和成纤维细胞的簇相关，而与驻留的成纤维细胞簇无关。一些研究者声称在原代成纤维细胞中不存在纤维细胞。然而，我们发现在传代之前，纤维细胞是这些培养中主要的细胞类型。一次传代后纤维细胞减少，两次传代后几乎没有。我们的实验表明，在传代过程中，纤维细胞被挤出培养物，因为成纤维细胞比纤维细胞有更大的足迹，尽管纤维细胞与纤维连接蛋白结合更有效。最后，我们通过流式细胞术观察到，与单独使用博来霉素相比，博来霉素和WCSD治疗小鼠的纤维细胞数量大幅减少，但成纤维细胞数量没有减少。综上所述，纤维细胞是一种主要的胶原生成细胞类型，其数量的增加与纤维化有关，也是肌成纤维细胞的主要来源。通常观察到与纤维化相关的胶原产生梭形细胞是CD45-，这可能是细胞培养传代的伪产物。

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CD45+/ Col I+ Fibrocytes: Major source of collagen in the fibrotic lung, but not in passaged fibroblast cultures

The role of cells of the hematopoietic lineage in fibrosis is controversial. Here we evaluate the contribution of Col I+/CD45+ cells (fibrocytes) to lung fibrosis. Systemic bleomycin treatment was used to induce fibrosis in a bone marrow transplant and two transgenic mouse models. Lung cells from these mice were analyzed by flow cytometry, both immediately upon release from the tissue or following growth on tissue-culture plastic. Fibrotic and control human lung tissue were also used. Fibroblasts and fibrocytes derived from a transgenic mouse model were compared in terms of their morphology, growth, and adhesion to fibronectin. Single cell RNAseq was performed with the analysis focusing on CD45-/Col I+ “fibroblasts” and CD45+/Col I+ “fibrocytes” in control and fibrotic mouse lung tissue. Finally, we inhibited fibrosis in mice using a novel, water-soluble version of caveolin scaffolding domain (CSD) called WCSD.

In both mouse and human lung tissue, we observed by flow cytometry a large increase in fibrocyte number and Col I expression associated with fibrosis. In contrast, fibroblast number was not significantly increased. A large increase (>50-fold) in fibrocyte number associated with fibrosis was also observed by single cell RNAseq. In this case, fibroblasts increased 5-fold. Single cell RNAseq also revealed that myofibroblast markers in fibrotic tissue are associated with a cluster containing a similar number of fibrocytes and fibroblasts, not with a resident fibroblast cluster. Some investigators claim that fibrocytes are not present among primary fibroblasts. However, we found that fibrocytes were the predominant cell type present in these cultures prior to passage. Fewer fibrocytes were present after one passage, and almost none after two passages. Our experiments suggest that fibrocytes are crowded out of cultures during passage because fibroblasts have a larger footprint than fibrocytes, even though fibrocytes bind more efficiently to fibronectin. Finally, we observed by flow cytometry that in mice treated with bleomycin and WCSD compared to bleomycin alone, there was a large decrease in the number of fibrocytes present but not in the number of fibroblasts. In summary, fibrocytes are a major collagen-producing cell type that is increased in number in association with fibrosis as well as a major source of myofibroblasts. The common observation that collagen-producing spindle-shaped cells associated with fibrosis are CD45- may be an artifact of passage in cell culture.

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来源期刊

Matrix Biology 生物-生化与分子生物学

CiteScore

11.40

自引率

4.30%

发文量

审稿时长

45 days

期刊介绍： Matrix Biology (established in 1980 as Collagen and Related Research) is a cutting-edge journal that is devoted to publishing the latest results in matrix biology research. We welcome articles that reside at the nexus of understanding the cellular and molecular pathophysiology of the extracellular matrix. Matrix Biology focusses on solving elusive questions, opening new avenues of thought and discovery, and challenging longstanding biological paradigms.