Reversible alterations in cultured pulmonary artery endothelial cell monolayer morphology and albumin permeability induced by ionizing radiation

Abstract

The effects of ionizing irradiation (0, 600, 1,500, or 3,000 rads) on the permeability of pulmonary endothelial monolayers to albumin were studied. Pulmonary endothelial cells were grown to confluence on gelatin‐coated polycarbonate filters, placed in serum‐free medium, and exposed to a ⁶⁰Co source. The monolayers were placed in modified flux chambers 24 hours after irradiation; ¹²⁵l‐albumin was added to the upper well, and both the upper and lower wells were serially sampled over 4 hours. The amount of albumin transferred from the upper well/hour over the period of steady‐state clearance (90–240 min after addition of ¹²⁵l‐albumin) was 2.8 ± 0.2% in control monolayers and was increased in monolayers exposed to 1,500 or 3,000 rads (increase of 63 plusmn; 10% and 61 plusmn; 10%, respectively, P<0.01). No increase was found in monolayers exposed to 600 rads. The increases in endothelial albumin transfer rates were associated with morphologic evidence of monolayer disruption and endothelial injury which paralleled the changes in albumin permeability. Dose‐dependent alterations in endothelial actin filament organization were also found. Incubation of the monolayers exposed to 3,000 rads with medium supplemented with 10% fetal calf serum for 24 hours resulted in normalization of albumin permeability, improvement in morphologic appearance of the monolayers, and reorganization of the actin filament structure. These studies demonstrate that ionizing radiation is an active principle in the reversible disorganization of cultured pulmonary endothelial cell monolayers without the need of other cell types or serum components.