The pro-fibrotic properties of transforming growth factor on human fibroblasts are counteracted by caffeic acid by inhibiting myofibroblast formation and collagen synthesis

Masum M. Mia, Ruud A. Bank*

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

33 Citations (Scopus)
260 Downloads (Pure)

Abstract

Fibrosis is a chronic disorder affecting many organs. A universal process in fibrosis is the formation of myofibroblasts and the subsequent collagen deposition by these cells. Transforming growth factor beta1 (TGF beta 1) plays a major role in the formation of myofibroblasts, e.g. by activating fibroblasts. Currently, no treatments are available to circumvent fibrosis. Caffeic acid phenethyl ester (CAPE) shows a broad spectrum of biological activities, including anti-fibrotic properties in vivo in mice and rats. However, little is known about the direct effects of CAPE on fibroblasts. We have tested whether CAPE is able to suppress myofibroblast formation and collagen formation of human dermal and lung fibroblasts exposed to TGF beta 1, and found that this was indeed the case. In fact, the formation of myofibroblasts by TGF beta 1 and subsequent collagen formation was completely abolished by CAPE. The same was observed for fibronectin and tenascin C. The lack of myofibroblast formation is likely due to the suppression of GLI1 and GLI2 expression by CAPE because of diminished nuclear SMAD2/3 levels. Post-treatment with CAPE after myofibroblast formation even resulted in a partial reversal of myofibroblasts into fibroblasts and/or reduction in collagen formation. Major discrepancies were seen between mRNA levels of collagen type I and cells stained positive for collagen, underlining the need for protein data in fibrosis studies to make reliable conclusions.

Original languageEnglish
Pages (from-to)775-789
Number of pages15
JournalCell and Tissue Research
Volume363
Issue number3
DOIs
Publication statusPublished - Mar-2016

Keywords

  • Fibrosis
  • Collagen
  • Myofibroblasts
  • Caffeic acid
  • Lysyl hydroxylase
  • TELOPEPTIDE LYSYL HYDROXYLASE
  • PYRIDINOLINE CROSS-LINKS
  • HEPATIC STELLATE CELLS
  • PHENETHYL ESTER
  • OXIDATIVE STRESS
  • FACTOR-BETA
  • IN-VITRO
  • FIBROSIS
  • DIFFERENTIATION
  • MICE

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