AQP1 is up-regulated in SSc dermal fibroblasts and SSc endothelial cells at least partially due to autocrine TGF-β stimulation and Fli1 deficiency, respectively, possibly contributing to inflammation, vasculopathy, and tissue fibrosis by regulating tissue edema and cell migration.
Trappin-2 expression was evaluated in SSc lesional skin and cultured endothelial cells treated with FLI1 siRNA by immunohistochemistry, reverse transcription-real-time PCR and/or immunoblotting.
Taken together, these results indicate that cyclophosphamide improves Fli1 deficiency-dependent vascular changes by normalizing the expression of angiogenesis- and vasculogenesis-related molecules and endothelial Fli1, which may help to explain the beneficial effect of cyclophosphamide on SSc vasculopathy.
PGRN overproduction due to constitutively activated c-Abl/PKC-δ/Fli1 pathway may contribute to the resistance of LSc dermal fibroblasts to the anti-fibrotic effect of TNF-α, which may be involved in maintaining their pro-fibrotic phenotype under the pro-inflammatory condition, as is the case with SSc.
Taken together, these results indicate that CXCL13 expression is upregulated by Fli1 deficiency in macrophages, potentially contributing to the development of tissue fibrosis, vasculopathy and immune activation in SSc, especially ILD and digital ulcers.
These results indicate that Fli1 deficiency promotes migration, proliferation and cell survival, while abating tube formation of endothelial cells, suggesting that Fli1 deficiency is potentially attributable to the development of both proliferative obliterative vasculopathy (occlusion of arterioles and small arteries) and destructive vasculopathy (loss of small vessels) characteristic of SSc vasculopathy.
These results indicate that glycyrrhizin ameliorates bleomycin-induced dermal fibrosis through the inhibition of fibroblast activation, T helper type 2-skewed immune polarization, M2 macrophage infiltration, and endothelial-to-mesenchymal transition and improves endothelial Fli1 deficiency-dependent vascular disintegrity, implying its potential as a disease-modifying drug for SSc.
Supporting a critical role of Fli1 deficiency to induce SSc-like phenotypes, <i>CXCL6</i> mRNA expression was higher in SSc dermal fibroblasts than in normal dermal fibroblasts.
Collectively, these results suggest that decreased serum LIF levels may be associated with vasculopathy in SSc and that Fli1 deficiency may contribute to the inhibition of LIF-dependent biological effects on SSc endothelial cells by suppressing the expression of LIF, LIF receptor, and gp130.
Collectively, these results suggest that endothelial CTSL up-regulation partially due to Fli1 deficiency may contribute to the development of vasculopathy, while the decrease in dermal CTSL expression is likely associated with dermal fibrosis in SSc.
Because Krueppel-like factor (KLF)5 and Friend leukemia integration 1 transcription factor (Fli1) are the transcription factors epigenetically suppressed in SSc dermal fibroblasts, the reproduction of SSc manifestations in Klf5(+/-) ;Fli1(+/-) mice supports the canonical idea that environmental influences play a central role in the development of SSc in genetically predisposed individuals.
Transcription factor Fli-1, a deficiency of which is involved in the activation of SSc dermal fibroblasts, served as a potent repressor of the progranulin gene, and Fli-1(+/-) mice and bleomycin-treated wild-type mice exhibited up-regulated expression of progranulin in dermal fibroblasts.
Increased expression of chemerin in endothelial cells due to Fli1 deficiency may contribute to the development of digital ulcers in systemic sclerosis.
Certain cytokines or molecules, such as CD40, CD70, and Fli-1, are expressed at varying rates in SSc due to epigenetic modification and play important roles in SSc.
The other genes (SOCS1, CTGF, THY1, CXCR4, MT1-G, FLI1, and DNMT1) were generally hypomethylated in SLE whereas they were neither hyper- nor hypo-methylated in SSc.
The vascular fragility of Fli-1 ECKO mice was improved by bosentan through the normalization of Fli-1 protein levels and activity in endothelial cells, which may explain, in part, the mechanism underlying the beneficial effects of endothelin receptor blockade on SSc vasculopathy.
Collectively, these results indicate that CXCL5 is a member of angiogenesis-related genes, whose expression is suppressed at least partially due to Fli1 deficiency in SSc endothelial cells.