Translational Medicine Communications (Jun 2024)

Fibrotic remodeling in joint diseases: induction and inhibition of fibrosis in fibroblast-like synoviocytes

  • Sofie Falkenløve Madsen,
  • Sarah Spliid Madsen,
  • Alexander Scheller Madrid,
  • Mikkel Rathsach Andersen,
  • Anne-Christine Bay-Jensen,
  • Christian S. Thudium

DOI
https://doi.org/10.1186/s41231-024-00180-0
Journal volume & issue
Vol. 9, no. 1
pp. 1 – 12

Abstract

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Abstract Background We aimed to investigate the development of synovial fibrosis in vitro and how the fibrosis can be halted. Synovial fibrosis causes joint stiffness in arthritic diseases. The pathway of the fibrotic growth factor, transforming growth factor-beta (TGF-β), has been associated with joint pain in osteoarthritis (OA) and with the fibroid phenotype of rheumatoid arthritis (RA). This suggests that synovial fibrosis, thus accumulation of extracellular matrix (ECM) proteins, plays a role in the clinical manifestations of the diseases. Improving our understanding of fibrotic development may aid in selecting appropriate treatments and development of drugs that can target synovial fibrosis. Methods We isolated primary fibroblast-like synoviocytes (FLS) from the synovial membrane of patients undergoing total knee replacement surgery. To investigate the development of synovial fibrosis, the FLS were cultured in a crowded in vitro model mimicking the ECM. TGF-β1 was used as the fibrotic initiator, the activin receptor-like kinase 5 inhibitor (ALK5i), the anti-fibrotic drug nintedanib, and the anti-inflammatory drug tofacitinib were used as fibrotic inhibitors. The ECM protein formation was quantified in the conditioned media using specific biomarkers of type I, III, and VI collagen formation and fibronectin turnover. Results The TGF-β stimulation inducted fibrogenesis by increasing the biomarkers of fibronectin turnover, type I, III, and VI collagen formation. ALK5i and nintedanib inhibited the TGF-β response across all biomarkers. Tofacitinib trended towards inhibiting TGF-β response with up to 78% inhibition. All the treatments preserved cell viability. Conclusion We have established an in vitro model for assessing fibrogenesis in primary FLS, which can be used to assess the anti-fibrotic effect of multiple drug types. Our study implies that synovial fibrosis can be induced by TGF-β, which additionally can be halted by both direct and indirect inhibition with anti-fibrotic substances. The anti-inflammatory drug tofacitinib also halted the fibrogenesis to some extent; thus, it may exert an anti-fibrotic effect.

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