Ies of cardiovascular toxicity and support in tailoring the threat management of personal VCAM-1/CD106 Proteins Biological Activity individuals. Funding: This task was funded through the Princess Margaret Cancer Centre.PS03.Extracellular vesicles derived from genetically modified human induced pluripotent stem cells improve cardiomyogenesis and angiogenesis in vitro and in vivo Katarzyna Kmiotek-Wasylewska, Sylwia Bobis-Wozowicz, Anna LabedzMaslowska, Elzbieta Karnas, Zbigniew Madeja and Ewa Zuba-Surma Division of Cell Biology, Faculty of Biochemistry, Biophysics and Biotechnology, Jagiellonian University, Krakow, PolandIntroduction: Despite their efficacy as an anti-cancer therapeutic against continual myelogenous leukaemia (CML), tyrosine kinase inhibitors (TKIs) may be connected with deleterious cardiovascular results. Considerable progress has become made in identifying the extra threat of cardiovascular events related to TKI publicity; however, the data within the underlying mechanisms and feasible predictive biomarkers are at this time inadequate. To this finish, we sought to examine EV-associated miRNAs being a usually means of elucidating their potential as effectors and biomarkers of CD29/Integrin beta-1 Proteins Gene ID TKIinduced cardiovascular toxicity in CML. Strategies: We obtained informed consent and recruited 24 age- and sex-matched response steady CML sufferers either off-TKI (median 32.26 months, n = six) or on long-term remedy with imatinib, nilotinib or ponatinib (median 79.01 months, n = 6/group), and assayed plasma-derived EV-associated miRNAs applying the nCounterAnalysis Procedure. Concurrently, in vitro studies have been conducted to examine the responses of iPSCderived human cardiomyocytes to plasma-derived EVs employing BNP as being a surrogate marker from the cardiovascularIntroduction: Extracellular vesicles (EVs) signify population of compact circular membrane vesicles secreted by most cells such as stem cells (SCs). It’s been reported that EVs may perhaps carry bioactive cargo such as proteins, microRNAs and mRNAs. They also perform a crucial part in cell-to-cell communication in each physiological and pathological conditions. The aim of this study was to verify the affect of EVs derived from human induced pluripotent stem (iPS) cells (hiPS-EVs) overexpressing procardiomyogenic miR1 or miR199a, or proangiogenic miR126, on different properties of human cardiac and endothelial cells. Solutions: hiPS-EVs had been isolated from conditioned hiPS culture media by differential centrifugation which include ultracentifugation. Cardiac cells and endothelial cells were applied as target cells in vitro, and their practical properties have been evaluated following hiPSEVs treatment method. The regenerative capacity of hiPS-EVsISEV2019 ABSTRACT BOOKwas also examined in vivo in murine model of acute limb ischaemia (LI). Results: Our data indicate that hiPS-EVs carrying procardio- and proangiogenic miRNAs could shield cardiac cell sorts from apoptosis likewise as enhance their proliferation, metabolic activity, migration and cardiomyogenic differentiation. The hiPS-EVs enhanced also proangiogenic capacity, migration and metabolic action of HCAEC cells in vitro. The vesicles also promoted angiogenesis and greater blood movement recovery in murine ischaemic limb injury model in vivo. Summary/Conclusion: These final results may indicate (i) feasibility of genetic modifications of EVs enforcing their regenerative proprieties as well as (ii) enhanced action of EVs from hiPS cells overexpressing miR1, miR199a and miR126 in regeneration of ischaemic tissues. We conclude that EVs from genetically modified.