Abstract
BackgroundTo investigate the role of cell senescence in systemic sclerosis (SSc), we analyzed telomere shortening (TS) in SSc patients and the effect of targeting DNA damage in the bleomycin model of skin fibrosis.ResultsTelomere length (TL) in blood leukocytes of 174 SSc patients and 68 healthy controls was measured by Southern blot, and we found shorter age-standardized TL in SSc patients compared to healthy controls. TL was shorter in SSc patients with ILD compared to those without ILD and in anti-topoisomerase I positive compared to anti-centromere positive patients. To analyze the potential role of DNA damage in skin fibrosis, we evaluated the effects of the DNA protective GSE4 peptide in the bleomycin mouse model of scleroderma and the fibrotic response of cultured human dermal fibroblasts. Administration of GSE4-nanoparticles attenuated bleomycin-induced skin fibrosis as measured by Masson’s staining of collagen and reduced Acta2 and Ctgf mRNA expression, whereas transduction of dermal fibroblasts with a lentiviral GSE4 expression vector reduced COL1A1, ACTA2 and CTGF gene expression after stimulation with bleomycin or TGF-β, in parallel to a reduction of the phospho-histone H2A.X marker of DNA damage.ConclusionsSSc is associated with TS, particularly in patients with lung disease or anti-topoisomerase I antibodies. Administration of GSE4 peptide attenuated experimental skin fibrosis and reduced fibroblast expression of profibrotic factors, supporting a role for oxidative DNA damage in scleroderma.
Highlights
To investigate the role of cell senescence in systemic sclerosis (SSc), we analyzed telomere shortening (TS) in SSc patients and the effect of targeting DNA damage in the bleomycin model of skin fibrosis
By quantitative RT-PCR analysis, we found an upregulation of Connective tissue growth factor (CTGF), α-smooth muscle actin (ACTA2) and Collagen type 1-alpha 1 (COL1A1) gene expression in fibroblasts after TGF-β or bleomycin treatment
We show that treatment with GSE4-nanoparticles ameliorates skin fibrosis in the bleomycin model, to what has been observed in bleomycin induced lung fibrosis [26]
Summary
To investigate the role of cell senescence in systemic sclerosis (SSc), we analyzed telomere shortening (TS) in SSc patients and the effect of targeting DNA damage in the bleomycin model of skin fibrosis. The role of aging and cell senescence in fibrotic diseases is not clear since both pro- and anti-fibrotic cellular effects have been described. Fibroblast senescence is characterized by the secretion of profibrotic mediators and restrains myofibroblast dedifferentiation and apoptosis, favoring their accumulation [10, 11]. Fibroblasts from systemic sclerosis (SSc) skin show replicative senescence and decreased autophagic capacity, and targeting either oxidative stress or cell senescence may ameliorate fibrogenesis [12,13,14]. Impaired profibrotic signaling and extracellular matrix production is one of the hallmarks of aged fibroblasts [15,16,17]
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