Abstract

Introduction: Platelets are heavily implicated in angiogenesis; however, the underlying mechanism remains relatively uncharacterized. The goal of this study was to evaluate the angiogenic potency of a platelet-derived regenerative exosome product (PEP) in an effort to develop a novel treatment for peripheral arterial disease. Here, we evaluated the mechanistic basis of PEP in angiogenesis and it’s use In Vivo in a rodent hind limb ischemia model. Methods/Results: Under Current Good Manufacturing Practices, conditioned medium from apheresis platelet cultures was purified to acquire the exosomes. PEP, enriched in exosome markers CD63, CD9 and Flotillin, induced human umbilical vein endothelial cell (HUVEC) proliferation, migration, and vascular tube formation In Vitro. Proteomic evaluation of PEP highlighted receptor tyrosine kinase (RTK) pathways and western blot validation demonstrated induction of phospho-MAPK and phospho-AKT following PEP treatment of HUVECs. Systematic evaluation of RTK receptor involvement was performed using small molecule inhibitors and receptor knock-down in HUVECs, ruling out RTK activation as a mode of action. However, small molecule inhibition of PI3 kinase demonstrated elimination of PEP-induced AKT phosphorylation and reduction in PEP-induced angiogenesis In Vitro measured by HUVEC proliferation and migration. In Vivo, evaluation of angiogenesis was performed in a rodent model of hindlimb ischemia treated with PEP embedded in fibrin glue (PEP/TISSEEL). Blood flow was evaluated by SPY angiography on day 0 pre- and post-operation, day 21, and day 28. Animals treated with PEP/TISSEEL showed a significant increase in blood flow compared to sham and TISSEEL treated animals (percent perfusion at 28 days: sham 40.9%, TISSEEL 44.3%, PEP/TISSEEL 100.2%), with significant increase in vascular area on histology (at 28 days vascular area (μm 2 )/muscle area(μm 2 ): healthy control 12.71, sham 4.66, TISSEEL 4.76, PEP/TISSEEL 15.54). Conclusions: Exosome driven activation of PI3 kinase can induce angiogenesis both In Vitro and In Vivo. PEP provides a novel, clinical-grade, off-the-shelf therapy to promote angiogenesis for the treatment of peripheral arterial disease.

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