Gemma Arderiu1, Esther Peña1, Lina Badimon2. 1. From the Cardiovascular Research Center (CSIC-ICCC), IIB-Sant Pau and Hospital de Sant Pau, Barcelona, Spain (G.A., E.P., L.B.); and Cardiovascular Research Chair Universitat Autònoma de Barcelona, Barcelona, Spain (L.B.). 2. From the Cardiovascular Research Center (CSIC-ICCC), IIB-Sant Pau and Hospital de Sant Pau, Barcelona, Spain (G.A., E.P., L.B.); and Cardiovascular Research Chair Universitat Autònoma de Barcelona, Barcelona, Spain (L.B.). lbadimon@csic-iccc.org.
Abstract
OBJECTIVE: Therapeutic angiogenesis is a promising strategy for treating ischemia. Our previous work showed that endogenous endothelial tissue factor (TF) expression induces intracrine signaling and switches-on angiogenesis in microvascular endothelial cells (mECs). We have hypothesized that activated mECs could exert a further paracrine regulation through the release of TF-rich microvascular endothelial microparticles (mEMPs) and induce neovascularization of ischemic tissues. APPROACH AND RESULTS: Here, we describe for the first time that activated mECs are able to induce reparative neovascularization in ischemic zones by releasing TF-rich microparticles. We show in vitro and in vivo that mEMPs released by both wild-type and TF-upregulated-mECs induce angiogenesis and collateral vessel formation, whereas TF-poor mEMPs derived from TF-silenced mECs are not able to trigger angiogenesis. Isolated TF-bearing mEMPs delivered to nonperfused adductor muscles in a murine hindlimb ischemia model enhance collateral flow and capillary formation evidenced by MRI. TF-bearing mEMPs increase angiogenesis operating via paracrine regulation of neighboring endothelial cells, signaling through the β1-integrin pathway Rac1-ERK1/2-ETS1 and triggering CCL2 (chemokine [C-C motif] ligand 2) production to form new and competent mature neovessels. CONCLUSIONS: These findings demonstrate that TF-rich mEMPs released by microvascular endothelial cells can overcome the consequences of arterial occlusion and tissue ischemia by promoting postischemic neovascularization and tissue reperfusion.
OBJECTIVE: Therapeutic angiogenesis is a promising strategy for treating ischemia. Our previous work showed that endogenous endothelial tissue factor (TF) expression induces intracrine signaling and switches-on angiogenesis in microvascular endothelial cells (mECs). We have hypothesized that activated mECs could exert a further paracrine regulation through the release of TF-rich microvascular endothelial microparticles (mEMPs) and induce neovascularization of ischemic tissues. APPROACH AND RESULTS: Here, we describe for the first time that activated mECs are able to induce reparative neovascularization in ischemic zones by releasing TF-rich microparticles. We show in vitro and in vivo that mEMPs released by both wild-type and TF-upregulated-mECs induce angiogenesis and collateral vessel formation, whereas TF-poor mEMPs derived from TF-silenced mECs are not able to trigger angiogenesis. Isolated TF-bearing mEMPs delivered to nonperfused adductor muscles in a murine hindlimb ischemia model enhance collateral flow and capillary formation evidenced by MRI. TF-bearing mEMPs increase angiogenesis operating via paracrine regulation of neighboring endothelial cells, signaling through the β1-integrin pathway Rac1-ERK1/2-ETS1 and triggering CCL2 (chemokine [C-C motif] ligand 2) production to form new and competent mature neovessels. CONCLUSIONS: These findings demonstrate that TF-rich mEMPs released by microvascular endothelial cells can overcome the consequences of arterial occlusion and tissue ischemia by promoting postischemic neovascularization and tissue reperfusion.
Authors: Murad Vagida; Anush Arakelyan; Anna Lebedeva; Jean-Charles Grivel; Alexander Shpektor; Elena Vasilieva; Leonid Margolis Journal: Platelets Date: 2016-09-05 Impact factor: 3.862
Authors: Wolfgang Holnthoner; Cornelia Bonstingl; Carina Hromada; Severin Muehleder; Johannes Zipperle; Stefan Stojkovic; Heinz Redl; Johann Wojta; Herbert Schöchl; Johannes Grillari; Sylvia Weilner; Christoph J Schlimp Journal: Sci Rep Date: 2017-06-16 Impact factor: 4.379