Lindert Jens, Perlman Carrie E, Parthasarathi Kaushik, Bhattacharya Jahar
Lung Biology Laboratory, Department of Physiology and Cellular Biophysics, Columbia University, College of Physicians and Surgeons, SLRHC, New York, New York, USA.
Am J Respir Cell Mol Biol. 2007 Jun;36(6):688-96. doi: 10.1165/rcmb.2006-0347OC. Epub 2007 Feb 8.
The liquid layer lining the pulmonary alveolar wall critically determines the lung's immune defense against inhaled pathogens, because it provides a liquid milieu in the air-filled alveolus for dispersal of immune cells and defensive surfactant proteins. However, mechanisms underlying formation of the liquid are unknown. We achieved visualization of the alveolar wall liquid (AWL) in situ in mouse lungs by means of optical-sectioning microscopy. Continuous liquid secretion was present in alveoli of wild-type (WT) mice under baseline conditions. This secretion was blocked by inhibitors of the cystic fibrosis transmembrane regulator (CFTR). The secretion was absent in Cftr(-/-) mice, and it was blocked when chloride was depleted from the perfusate of WT mice, providing the first evidence that CFTR-dependent chloride secretion causes AWL formation. Injected microparticles demonstrated flow of the AWL. The flow was blocked by CFTR inhibition and was absent in Cftr(-/-) mice. We conclude that CFTR-dependent liquid secretion is present in alveoli of the adult mouse. Defective alveolar secretion might impair alveolar immune defense and promote alveolar disease.
衬于肺泡壁的液体层对肺部抵御吸入病原体的免疫防御起着关键作用,因为它在充满空气的肺泡中提供了一个液体环境,用于免疫细胞和防御性表面活性蛋白的扩散。然而,这种液体形成的潜在机制尚不清楚。我们通过光学切片显微镜实现了对小鼠肺内原位肺泡壁液体(AWL)的可视化。在基线条件下,野生型(WT)小鼠的肺泡中存在持续的液体分泌。这种分泌被囊性纤维化跨膜传导调节因子(CFTR)抑制剂所阻断。Cftr(-/-)小鼠中不存在这种分泌,并且当从WT小鼠的灌流液中耗尽氯离子时,分泌也被阻断,这首次证明了CFTR依赖的氯离子分泌导致AWL的形成。注入的微粒显示了AWL的流动。这种流动被CFTR抑制所阻断,并且在Cftr(-/-)小鼠中不存在。我们得出结论,成年小鼠的肺泡中存在CFTR依赖的液体分泌。肺泡分泌缺陷可能会损害肺泡免疫防御并促进肺泡疾病。