Stenosis is a critical problem in the long-term efficacy of tissue-engineered vascular grafts (TEVGs). We previously showed that host monocyte infiltration and activation within the graft drives stenosis and that TGF-b receptor 1 (TGF-bR1) inhibition can prevent it, but the latter effect was attributed primarily to inhibition of mesenchymal cell expansion. In this study, we assessed the effects of TGF-bR1 inhibition on the host monocytes. Biodegradable TEVGs were implanted as inferior vena cava interposition conduits in 2 groups of C57BL/6 mice (n = 25/group): unseeded grafts and unseeded grafts with TGF-bR1 inhibitor systemic treatment for the first 2 wk. The TGF-bR1 inhibitor treatment effectively improved TEVG patency at 6 mo compared to the untreated control group (91.7 vs. 48%, P < 0.001), which is associated with a reduction in classic activation of mononuclear phagocytes. Consistent with these findings, the addition of rTGF-b to LPS/IFN-g-stimulated monocytes enhanced secretion of inflammatory cytokines TNF-a, IL-12, and IL-6; this effect was blocked by TGF-bR1 inhibition (P < 0.0001). These findings suggest that the TGF-b signaling pathway contributes to TEVG stenosis by inducing classic activation of host monocytes. Furthermore, blocking monocyte activation by TGF-bR1 inhibition provides a viable strategy for preventing TEVG stenosis while maintaining neotissue formation.-Lee, Y.-U., de Dios Ruiz-Rosado, J., Mahler, N., Best, C. A., Tara, S., Yi, T., Shoji, T., Sugiura, T., Lee, A. Y., Robledo-Avila, F., Hibino, N., Pober, J. S., Shinoka, T., Partida-Sanchez, S., Breuer, C. K. TGF-b receptor 1 inhibition prevents stenosis of tissue-engineered vascular grafts by reducing host mononuclear phagocyte activation. FASEB J. 30, 2627FASEB J. 30, -2636FASEB J. 30, (2016. www.fasebj.orgPrevious data from our laboratory demonstrated that bone marrow-derived mononuclear cell (BM-MNC) seeding of tissue-engineered vascular grafts (TEVGs) promoted the process of neovessel formation (1). In contrast to our original expectation that the seeded cells differentiated into mature vascular cells, we found that the seeded BMMNCs disappeared within a few days of implantation. Instead, the seeded cells exerted their effect by controlling recruitment of host mononuclear phagocytes in early time point, which recruit smooth muscle cells and endothelial cells (;3 wk) (1). While BM-MNC seeding also significantly improved patency of the TEVGs, both in a clinical study and in mouse models, the occurrence of graft stenosis remained a major complication in 25% of TEVG recipients (2, 3). Our mouse models revealed that the formation of TEVG stenosis is also driven by paracrine functions of infiltrating host mononuclear phagocytes. A significant proportion of cells that form stenotic lesions in the mouse model appear to arise from the endothelialmesenchymal transition (Endo-MT) (1,3,4). Because TGFb signaling is the key to multiple vascular disorders, including Endo-MT (5-8), we investigated if inhibition of this cytokine coul...
