Characterization of a pathogenic nonmigratory fibroblast population in systemic sclerosis skin
Kristina E.N. Clark, Shiwen Xu, Moustafa Attar, Voon H. Ong, Christopher D. Buckley, Christopher P. Denton
Kristina E.N. Clark, Shiwen Xu, Moustafa Attar, Voon H. Ong, Christopher D. Buckley, Christopher P. Denton
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Research Article Immunology Inflammation

Characterization of a pathogenic nonmigratory fibroblast population in systemic sclerosis skin

Abstract

Fibroblasts are central to pathogenesis of systemic sclerosis (SSc). However, studies of conventional explant fibroblast cultures incompletely reflect disease biology and treatment response. We isolated a second nonmigratory “resident” population of fibroblasts from skin biopsies after outgrowth of explant “migratory” cells. These nonmotile resident fibroblasts were compared with migratory cells from the same biopsy, using functional studies, bulk and single-cell RNA-seq, and localized in situ by multichannel immunofluorescence. Migratory and resident fibroblast populations in SSc showed distinct profibrotic characteristics and gene expression for pathogenic pathways differing by stage and autoantibody subgroup. TGF-β signaling was highly active in migratory fibroblasts in early-stage diffuse cutaneous SSc (dcSSc). Conversely, resident fibroblasts had less upregulated TGF-β signaling, especially in late-stage dcSSc. Increased chemokine expression was a hallmark of resident fibroblasts at all stages. In vitro studies confirmed differential response to TGF-β1 and CCL2 between migratory and resident cells. We suggest that migratory fibroblasts are especially important in early skin disease, whereas nonmigratory fibroblasts may have a regulatory role and contribute more to fibrosis in later-stage disease. Thus, we have identified a pathogenic fibroblast population in SSc, not isolated by conventional explant culture, that could play an important role in fibrosis and be targeted therapeutically.

Authors

Kristina E.N. Clark, Shiwen Xu, Moustafa Attar, Voon H. Ong, Christopher D. Buckley, Christopher P. Denton

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Figure 1

Isolation and functional characterization of migratory and resident skin fibroblasts.

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Isolation and functional characterization of migratory and resident skin...
(A) Schematic of the study design. Biopsies were taken from individuals for scRNA-seq and highly multiplexed immunofluorescence. Separate biopsies were also taken for cell culture, and 2 distinct fibroblast populations were isolated. Analysis of bulk RNA-seq of the 2 fibroblast populations was then integrated with the scRNA-seq atlas. (BD) Western blots showing each fibroblast subgroup production of (B) collagen type 1, (C) αSMA, and (D) CCN2, which were all overexpressed in SSc dermal fibroblasts compared with HC; however, differences were seen in SSc fibroblasts for αSMA production. Each dot represents a patient sample. Protein expression was normalized to GAPDH. (E) Scratch assay showing percentage of remaining gap size and (F) contraction assay showing weight of the lattice plug. Representative images of scratch assay performed over an incubation period of 48 hours (E, lower panel) and those of gel contraction assay performed over an incubation period of 24 hours (F, lower panel) are shown. HC, healthy control; SSc, systemic sclerosis; -E, early explant migratory fibroblasts; -R, resident fibroblasts; α-SMA, α-smooth muscle actin; CCN2, connective tissue growth factor; COL1, collagen type 1. Statistical significance was determined using a 2-tailed, unpaired Student’s t test.