Abstract
Human dermal fibrotic disease keloid has been a clinical challenge because of its tumour-like growth and the lack of effective therapy. Dysregulated alternative splicing events have been demonstrated in tumours and fibrosis. In the current study, for the first time, it was demonstrated that the splicing regulator polypyrimidine tract-binding protein (PTB), which plays a pivotal role in tumour proliferation, invasion and metastasis, is overexpressed in keloid tissues and fibroblasts. Additionally, TGF-β1 upregulated the expressions of PTB and its upstream regulator, C-MYC, in keloid fibroblasts. Furthermore, we suppressed PTB using siRNA in keloid fibroblasts and in a keloid xenograft nude mouse model. PTB knockdown significantly slowed the proliferation of keloid fibroblasts and accelerated the regression of transplanted keloid tissues, which was accompanied by a shift in the alternative splicing of USP5 and RTN4. Moreover, when PTB was suppressed, there was a reduction in excessive deposition of FN1 and COL3A1 in transplanted keloid tissues. However, only FN1 was downregulated in keloid fibroblasts that were cultured in media supplemented with TGF-β1. Our study provides evidence for the role of PTB in keloid pathophysiology and offers a novel therapeutic target for keloids. Most importantly, the role TGF-β1 regulation of PTB may provide new insights into the mechanisms underlying inflammatory cytokine-induced fibrosis.
Highlights
Alternative splicing allows the production of multiple mRNA variants and downstream proteins from one single gene via the inclusion or exclusion of specific exons[10], and is generally regulated by cis-acting splicing www.nature.com/scientificreports/
PTB was found to be enriched in keloid tissues and fibroblasts as well as in keloid fibroblasts treated with transforming growth factor (TGF)-β1
To explore the function of PTB in keloid pathogenesis and evaluate its potential as a therapeutic target for the treatment of keloids, we suppressed the expression of PTB using siRNA in keloid fibroblasts and keloid xenografts grown in a nude mouse model, and the alternative splicing of multiple genes involved in cell proliferation and the expressions of ECM genes were investigated
Summary
Alternative splicing allows the production of multiple mRNA variants and downstream proteins from one single gene via the inclusion or exclusion of specific exons[10], and is generally regulated by cis-acting splicing www.nature.com/scientificreports/. Sequences in primary transcripts and trans-acting splicing factors that bind to these RNA sequences This process occurs in 95% of all multi-exonic genes[11], and the dysregulation of alternative splicing plays diverse roles in numerous human diseases[12,13]. To explore the function of PTB in keloid pathogenesis and evaluate its potential as a therapeutic target for the treatment of keloids, we suppressed the expression of PTB using siRNA in keloid fibroblasts and keloid xenografts grown in a nude mouse model, and the alternative splicing of multiple genes involved in cell proliferation and the expressions of ECM genes were investigated
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