Abstract
Background/aims: Despite advances in stent design, in-stent restenosis (ISR) remains a significant clinical problem. All implant metals exhibit corrosion, which results in release of metal ions. Stainless steel (SS), a metal alloy widely used in stents, releases ions to the vessel wall and induces reactive oxygen species, inflammation and fibroproliferative responses. The molecular mechanisms are unknown. TGF-beta is known to be involved in the fibroproliferative responses of vascular smooth muscle cells (VSMCs) in restenosis, and TGF-beta antagonists attenuate ISR. We hypothesized that SS ions induce the latent TGF-beta activator, thrombospondin-1 (TSP1), through altered oxidative signaling to stimulate increased TGF-beta activation and VSMC phenotype change. Methods: VSMCs were treated with SS metal ion cocktails, and morphology, TSP1, extracellular matrix production, desmin and TGF-beta activity were assessed by immunoblotting. Results: SS ions stimulate the synthetic phenotype, increased TGF-beta activity, TSP1, increased extracellular matrix and downregulation of desmin in VSMCs. Furthermore, SS ions increase hydrogen peroxide and decrease cGMP-dependent protein kinase (PKG) signaling, a known repressor of TSP1 transcription. Catalase blocks SS ion attenuation of PKG signaling and increased TSP1 expression. Conclusions: These data suggest that ions from stent alloy corrosion contribute to ISR through stimulation of TSP1-dependent TGF-beta activation.