Alveolar endotoxin increases alveolar liquid clearance in rats

Abstract

Under some pathological conditions, ion transport across alveolar epithelial cells is downregulated, whereas under other pathological conditions, it may be upregulated. Because endotoxin is a biologically relevant pathological stimulus, we investigated the effect of endotoxin on alveolar epithelial liquid clearance in vivo. Escherichia coli endotoxin (220 micrograms/kg) was instilled into the lungs via the trachea of rats. Then, 24 or 40 h after endotoxin instillation, alveolar and lung liquid clearances were studied over 1 h by instillation of a 5% albumin solution with 1.5 microCi of 125I-labeled albumin (6 ml/kg into both lungs). Alveolar liquid clearance was significantly greater at 24 h (36 +/- 5%) and 40 h (38 +/- 7%) after endotoxin exposure than in saline-instilled controls (27 +/- 6%). Although there was an influx of neutrophils into the air space, there was no increase in lung epithelial permeability to protein at 24 or 40 h. Amiloride (2 x 10(-3) M), a sodium channel inhibitor, significantly reduced alveolar liquid clearance in the rats exposed to endotoxin. However, the increase in alveolar liquid clearance was not inhibited when propranolol (2 x 10(-5) M) was added to the 5% albumin solution. Thus exposure to alveolar endotoxin upregulates net alveolar fluid clearance in vivo for up to 40 h, a potentially important mechanism for accelerating alveolar fluid clearance under some pathological conditions. The increase in alveolar liquid clearance 24 and 40 h after instillation of endotoxin into the air spaces is mediated by an increased uptake of sodium through amiloride-sensitive sodium channels.