The rate of fluid shear stress is a potent regulator for the differentiation of mesenchymal stem cells

We have previously demonstrated that the rate of fluid shear stress (SS) can manipulate the fate of mesenchymal stem cells (MSCs) to osteogenic or chondrogenic cells. However, whether SS is comparable to other two means of induction medium and substrate stiffness that have been proven to be potent in differentiation control is unknown. In this study, we subjected MSCs to 1-7 days of osteogenic or chondrogenic chemical induction, or 1-4 days of 37 or 86kPa of substrate stiffness induction, followed by 20min of Fast SS (0-0) or Slow SS (0-2), which is a laminar FSS that linearly increased from 0 to 10dyn/cm (2) in 0 (Fast) or 2 min (Slow) and maintained at 10dyn/cm (2) for a total of 20min. We found that 20min of SS could compete with 5 days' chemical and 2 days' substrate stiffness inductions. Our study confirmed that SS is a powerful tool to control the differentiation of MSCs, which stressed the possible application in MSCs linage specification.