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Cyclic Hypoxia Conditioning Alters the Content of Myoblast-Derived Extracellular Vesicles and Enhances Their Cell-Protective Functions

Yan Yan, Tingting Gu, Stine Duelund Kaas Christensen, Junyi Su, Thomas Ravn Lassen, Marie Vognstoft Hjortbak, IJu Lo, Susanne Trillingsgaard Venø, Andrea E. Tóth, Ping Song, Morten S. Nielsen, Hans Erik Bøtker, Blagoy Blagoev, Kim Ryun Drasbek, Jørgen Kjems

2021Biomedicines14 citationsDOIOpen Access PDF

Abstract

Remote ischemic conditioning (RIC) is a procedure that can attenuate ischemic-reperfusion injury by conducting brief cycles of ischemia and reperfusion in the arm or leg. Extracellular vesicles (EVs) circulating in the bloodstream can release their content into recipient cells to confer protective function on ischemia-reperfusion injured (IRI) organs. Skeletal muscle cells are potential candidates to release EVs as a protective signal during RIC. In this study, we used C2C12 cells as a model system and performed cyclic hypoxia-reoxygenation (HR) to mimic RIC. EVs were collected and subjected to small RNA profiling and proteomics. HR induced a distinct shift in the miRNA profile and protein content in EVs. HR EV treatment restored cell viability, dampened inflammation, and enhanced tube formation in in vitro assays. In vivo, HR EVs showed increased accumulation in the ischemic brain compared to EVs secreted from normoxic culture (N EVs) in a mouse undergoing transient middle cerebral artery occlusion (tMCAO). We conclude that HR conditioning changes the miRNA and protein profile in EVs released by C2C12 cells and enhances the protective signal in the EVs to recipient cells in vitro.

Topics & Concepts

Cell biologyReperfusion injuryIschemiaExtracellularC2C12MyocyteHypoxia (environmental)In vivoChemistryBiologyPharmacologyMedicineInternal medicineMyogenesisOrganic chemistryBiotechnologyOxygenExtracellular vesicles in diseaseMicroRNA in disease regulationNanoplatforms for cancer theranostics