The role of FGL2 in vascular smooth muscle cell dysfunction in coronary artery bypass vein graft failure

Abstract

Abstract Funding Acknowledgements Type of funding sources: Other. Main funding source(s): British Heart Foundation Rationale The sudden exposure of venous endothelial cells (vECs) to arterial fluid shear stress (FSS) is thought to be a major contributor to coronary artery bypass vein graft failure (VGF). However, the acute effects of arterial FSS on the vEC secretome and the corresponding effects on underlying vascular smooth muscle cells (VSMCs) remains poorly characterised. Methods & Results Human umbilical vein endothelial cells (HUVECs; n=6) pre-conditioned to venous FSS (18h; 1.5 dynes/cm2) were further exposed to venous or arterial FSS (24h; 15 dynes/cm2) using an Ibidi pump system. Analysis of the EC secretome using Tandem Mass Tagging proteomics detected significantly increased fibroleukin (FGL2) in conditioned media from ECs exposed to arterial FSS compared to venous FSS (fold-change 1.97±0.72; P=0.0078). In addition, RT-qPCR analysis of FGL2 production showed a significant increase in vECs exposed to arterial FSS (2.11±0.27 vs. 0.05±0.04 log(copy number/mg); P=0.0312). Subsequently, pooled human saphenous vein VSMCs (3 donors per pool) were treated with conditioned media from ECs exposed to arterial FSS (n=6) which showed a significant increase in apoptosis, measured by active cleaved caspase-3 (CC3) immunocytochemistry (27±1% vs 22±1%; P=0.0391), and a significant decrease in the contractile markers smoothelin and desmin quantified by Western blotting (fold-change 0.76±0.06 and 0.44±0.11; P=0.004 and P=0.0421, respectively), in comparison to VSMCs treated with conditioned media from ECs exposed to venous FSS. Treatment of VSMCs (n=6) with recombinant FGL2 (20 ng/mL) for 72h likewise resulted in increased apoptosis (27±4% vs. 16±3%; P=0.0169) and decreased desmin and smoothelin (fold-change 0.68±0.03 and 0.61±0.07; P=0.0322 and P=0.0479, respectively). Conclusions The exposure of vECs to arterial FSS results in increased production and release of FGL2 which induced VSMC apoptosis and de-differentiation and therefore potentially contributes to VGF. Consequently, targeting FGL2 production or release may provide a therapeutic target to improve vein graft patency.