In recent years, more and more research has shown that the lung is an organ of regenerative potential, with several types of stem/progenitor cells undergoing proliferation and differentiation after lung injury and participating the injury repair process. Mouse lung multipotent stem cells (MLSCs) have extensive self-renewal ability in culture and could differentiate into endothelial and lung epithelial (alveolar epithelial type 1, 2, and Clara) cells in vitro. But the research of MLSCs was limited due to its rarity. In this study, we introduced a novel microfluidic magnetic activated cell sorting system in the isolation of MLSCs. The sorted MLSCs had better viability and purity. They were identified by colony formation efficiency and differentiation ability and they have self-renewal and differentiation capacities, highlighting their stem cell properties.
Keywords: IsoFlux™; lung multipotent stem cells; microfluidic magnetic activated cell sorting system.
© 2015 International Federation for Cell Biology.