Giannotta, MonicaBenedetti, SaraTedesco, Francesco SaverioCorada, MonicaTrani, MariannaD'Antuono, RoccoMillet, QueenstaOrsenigo, FabrizioGalvez, Beatriz G.Cossu, GiulioDejana, Elisabetta2019-04-292019-04-292014EMBO Mol Med. 2014; 6(2):239-5817574676http://hdl.handle.net/20.500.12105/7527Muscular dystrophies are severe genetic diseases for which no efficacious therapies exist. Experimental clinical treatments include intra-arterial administration of vessel-associated stem cells, called mesoangioblasts (MABs). However, one of the limitations of this approach is the relatively low number of cells that engraft the diseased tissue, due, at least in part, to the sub-optimal efficiency of extravasation, whose mechanisms for MAB are unknown. Leukocytes emigrate into the inflamed tissues by crossing endothelial cell-to-cell junctions and junctional proteins direct and control leukocyte diapedesis. Here, we identify the endothelial junctional protein JAM-A as a key regulator of MAB extravasation. We show that JAM-A gene inactivation and JAM-A blocking antibodies strongly enhance MAB engraftment in dystrophic muscle. In the absence of JAM-A, the exchange factors EPAC-1 and 2 are down-regulated, which prevents the activation of the small GTPase Rap-1. As a consequence, junction tightening is reduced, allowing MAB diapedesis. Notably, pharmacological inhibition of Rap-1 increases MAB engraftment in dystrophic muscle, which results into a significant improvement of muscle function offering a novel strategy for stem cell-based therapies.engVoRhttp://creativecommons.org/licenses/by/4.0/AnimalsCardiotoxinsCell Adhesion MoleculesCell MovementEndothelial CellsEndothelium, VascularGuanine Nucleotide Exchange FactorsHumansMiceMuscle, SkeletalMuscular DystrophiesReceptors, Cell SurfaceSarcoglycansStem Cellsrap1 GTP-Binding ProteinsSignal TransductionStem Cell TransplantationAtribución 4.0 Internacional2437856962239-5810.1002/emmm.2013025201757-4684EMBO molecular medicineopen access