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Literature DB >> 29908843

miR-210 Enhances the Therapeutic Potential of Bone-Marrow-Derived Circulating Proangiogenic Cells in the Setting of Limb Ischemia.

Marie Besnier¹, Stefano Gasparino², Rosa Vono², Elena Sangalli², Amanda Facoetti², Valentina Bollati³, Laura Cantone³, Germana Zaccagnini⁴, Biagina Maimone⁴, Paola Fuschi⁴, Daniel Da Silva⁴, Michele Schiavulli⁵, Sezin Aday¹, Massimo Caputo¹, Paolo Madeddu¹, Costanza Emanueli⁶, Fabio Martelli⁷, Gaia Spinetti⁸.

Abstract

Therapies based on circulating proangiogenic cells (PACs) have shown promise in ischemic disease models but require further optimization to reach the bedside. Ischemia-associated hypoxia robustly increases microRNA-210 (miR-210) expression in several cell types, including endothelial cells (ECs). In ECs, miR-210 represses EphrinA3 (EFNA3), inducing proangiogenic responses. This study provides new mechanistic evidences for a role of miR-210 in PACs. PACs were obtained from either adult peripheral blood or cord blood. miR-210 expression was modulated with either an inhibitory complementary oligonucleotide (anti-miR-210) or a miRNA mimic (pre-miR-210). Scramble and absence of transfection served as controls. As expected, hypoxia increased miR-210 in PACs. In vivo, migration toward and adhesion to the ischemic endothelium facilitate the proangiogenic actions of transplanted PACs. In vitro, PAC migration toward SDF-1α/CXCL12 was impaired by anti-miR-210 and enhanced by pre-miR-210. Moreover, pre-miR-210 increased PAC adhesion to ECs and supported angiogenic responses in co-cultured ECs. These responses were not associated with changes in extracellular miR-210 and were abrogated by lentivirus-mediated EFNA3 overexpression. Finally, ex-vivo pre-miR-210 transfection predisposed PACs to induce post-ischemic therapeutic neovascularization and blood flow recovery in an immunodeficient mouse limb ischemia model. In conclusion, miR-210 modulates PAC functions and improves their therapeutic potential in limb ischemia.

Entities: Chemical

Keywords: EFNA3; angiogenesis; bone-marrow-derived circulating cells; cell therapy; limb ischemia; microRNA-210

Mesh：

Substances：

Year: 2018 PMID： 29908843 PMCID： PMC6036333 DOI： 10.1016/j.ymthe.2018.06.003

Source DB: PubMed Journal: Mol Ther ISSN： 1525-0016 Impact factor: 11.454

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