An in vitro system for measuring endothelial permeability under hydrostatic pressure.

Abstract

A system was developed, using early passage porcine aortic endothelial cells cultured on a microporous substratum mounted in a two-compartment chamber. It allows the application of a transendothelial pressure gradient and quantitative measurement of the resulting flow rate of fluid. Initial application of a hydrostatic pressure gradient of 20 mmHg resulted in a continuous decrease in the flow rate which reached a steady state after a period of 1-3 h. Further variations in the pressure resulted in pressure-dependent increase or decrease in the flow rate. The physiological relevance of this response is supported by the fact that decrease in permeability occurred only in the presence of Ca2+ ions. Removal of Ca2+ from a monolayer by EGTA led to an immediate increase in the flow rate, whereas readdition of Ca2+ in concentrations between 0.5 and 20 mM was observed to cause a concentration-dependent decrease in flow rate. Initial application of pressure with Ca2+-free medium failed to produce permeability changes of the cultured endothelium. These findings indicate that the permeability of a cultured endothelium to water and solutes is pressure- and Ca2+-dependent.