Spinal supraspinous ligament (SL) osteogenesis is the key risk of ankylosing spondylitis (AS), with an unclear pathogenesis. We previously found that transforming growth factor β1 (TGF-β1), bone morphogenetic proteins (eg BMP2) and type III TGF-β1 receptor (TβRIII) expression were markedly up-regulated in AS-SLs. However, the roles of these closely related molecules in AS are unknown. Here, we showed that BMP2, TGF-β1, TβRIII and S100A4 (a fibroblast marker) were abundant in active osteogenic AS-SL tissues. In vitro, AS-SL fibroblasts (AS-SLFs) showed high BMP2, TGF-β1 and TβRIII expression and auto-osteogenic capacity. We further evaluated the role of TβRIII in the osteogenesis of normal SLFs. BMP2 combined with TGF-β1 induced the osteogenesis of TβRIII-overexpressing SLFs, but the activity was lost in SLFs upon TβRIII knockdown. Moreover, our data suggested that BMP2 combined with TGF-β1 significantly activated both TGF-β1/Smad signalling and BMP2/Smad/RUNX2 signalling to induce osteogenesis of SLFs with TβRIII up-regulation. Furthermore, our multi-strategy molecular interaction analysis approach indicated that TGF-β1 presented BMP2 to TβRIII, sequentially facilitating BMP2 recognition by BMPR1A and promoting the osteogenesis of TβRIII-overexpressing SLFs. Collectively, our results indicate that TGF-β1 combined with BMP2 may participate in the osteogenic differentiation of AS-SLF by acting on up-regulated TβRIII, resulting in excessive activation of both TGF-β1/Smad and BMP2/BMPR1A/Smad/RUNX2 signalling.
Keywords: ankylosing spondylitis; bone morphogenetic protein 2; osteogenesis; supraspinous ligament fibroblasts; transforming growth factor β1; type III transforming growth factor β receptor.
© 2021 The Authors. Journal of Cellular and Molecular Medicine published by Foundation for Cellular and Molecular Medicine and John Wiley & Sons Ltd.