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Clinical trials of therapeutic angiogenesis by vascular endothelial growth factor (VEGF) gene delivery failed to show efficacy. Major challenges include the need to precisely control in vivo distribution of growth factor dose and duration of expression. Recombinant VEGF protein delivery could overcome these issues, but rapid in vivo clearance prevents the stabilization of induced angiogenesis. Here, we developed an optimized fibrin platform for controlled delivery of recombinant VEGF, to robustly induce normal, stable, and functional angiogenesis. Murine VEGF(164) was fused to a sequence derived from alpha 2-plasmin inhibitor (alpha(2)-PI1-8) that is a substrate for the coagulation factor fXIIIa, to allow its covalent cross-linking into fibrin hydrogels and release only by enzymatic cleavage. An alpha(2)-PI1-8-fused variant of the fibrinolysis inhibitor aprotinin was used to control the hydrogel degradation rate, which determines both the duration and effective dose of factor release. An optimized aprotinin-alpha(2)-PI1-8 concentration ensured ideal degradation over 4 wk. Under these conditions, fibrin-alpha(2)-PI1-8-VEGF(164) allowed exquisitely dose-dependent angiogenesis: concentrations >= 25 mu g/mL caused widespread aberrant vascular structures, but a 500-fold concentration range (0.01-5.0 mu g/mL) induced exclusively normal, mature, nonleaky, and perfused capillaries, which were stable after 3 mo. Optimized delivery of fibrin-alpha(2)-PI1-8-VEGF(164) was therapeutically effective both in ischemic hind limb and wound-healing models, significantly improving angiogenesis, tissue perfusion, and healing rate. In conclusion, this optimized platform ensured (i) controlled and highly tunable delivery of VEGF protein in ischemic tissue and (ii) stable and functional angiogenesis without introducing genetic material and with a limited and controllable duration of treatment. These findings suggest a strategy to improve safety and efficacy of therapeutic angiogenesis.
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Michele De Palma, Ioanna Keklikoglou, Ece Kadioglu, Axel Bellotti