Fluidic shear stress alters clathrin dynamics and vesicle formation in endothelial cells.

Targeted nanomedicine holds a great promise of improved drug bioavailability and specificity. While some cargoes must cross the blood-tissue barrier, the understanding of endocytic pathways in the context of vasculature is limited, which is an obstacle to targeted nanomedicine delivery. In this pilot study we show that the physiological local vascular environment must be considered in the context of internalization of growth factors, membrane proteins, therapeutics, or pathogens. Studies in non-ECs or ECs not cultured under fluidic shear stress do not properly recapitulate clathrin dynamics and will lead to incorrect conclusions.