Abstract
Interaction of pulmonary surfactant protein A (SP-A) with pure and binary mixed dipalmitoylphosphatidylcholine (DPPC) and cholesterol (3.5 wt%) at the air/saline, 1.5 mm CaCl2 interface was investigated using a rhomboid surface balance at 37°C. Surface tension–area isotherms were measured to access the surface active properties of the monolayers. The organization of DPPC and cholesterol in DPPC and DPPC/cholesterol mixed monolayers with or without SP-A at equilibrium surface tension (≈23 mN/N) was revealed by autoradiographs of Langmuir-Blodgett (L-B) films deposited from [14C]DPPC or [14C]cholesterol-labeled monolayers. The results showed that SP-A can interact with the polar head groups of DPPC monolayers and aggregate DPPC molecules. SP-A decreased the surface area reduction required for DPPC monolayers to achieve near zero surface tension from 30 to 25% of the area at equilibrium. SP-A also reduced the collapse surface tension of pure cholesterol from 27 to 23 mN/m. DPPC and cholesterol formed homogeneous mixed monolayers when both were dissolved in the spreading solvent prior to spreading, while separate cholesterol-rich domains appeared when DPPC and cholesterol were spread successively. Cholesterol resisted squeeze-out from either mixed monolayer through compression. Although SP-A could not promote the squeeze-out of cholesterol from homogeneous mixed monolayers, it facilitated that of cholesterol domains especially when SP-A had first interacted with DPPC. These results indicate that pulmonary surfactant protein A facilitates the squeeze-out of cholesterol domains from mixed monolayers by condensing DPPC and limiting lateral interactions of DPPC with cholesterol domains.—Yu, S-H., and F. Possmayer. Interaction of pulmonary surfactant protein A with dipalmitoylphosphatidylcholine and cholesterol at the air/water interface.
Highlights
Interaction of pulmonary surfactant protein A (SPA) with pure and binary mixed dipalmitoylphosphatidylcholine (DPPC) and cholesterol (3.5 wt%) at the air/saline, 1.5 mm CaCl2 interface was investigated using a rhomboid surface balance at 37ЊC
Surface tension decreased swiftly as soon as surfactant-associated proteins (SP-)A was applied and gradually increased to a constant value lower than the original. These results indicate that when SP-A in water–2-propanol 2:1 was applied onto a DPPC monolayer, a small portion of SP-A remained at the surface, while the rest of SP-A gradually moved through the monolayer into the subphase
Nor was the surface tension affected by applying SP-A in saline, 1.5 mm CaCl2 onto the DPPC monolayer, indicating that all the SP-A diffused through the monolayer into the subphase
Summary
Interaction of pulmonary surfactant protein A (SPA) with pure and binary mixed dipalmitoylphosphatidylcholine (DPPC) and cholesterol (3.5 wt%) at the air/saline, 1.5 mm CaCl2 interface was investigated using a rhomboid surface balance at 37ЊC. SP-A could not promote the squeeze-out of cholesterol from homogeneous mixed monolayers, it facilitated that of cholesterol domains especially when SP-A had first interacted with DPPC. Interaction of pulmonary surfactant protein A with dipalmitoylphosphatidylcholine and cholesterol at the air/water interface. In the presence of calcium, SP-A aggregates PL vesicles [9] and binds to DPPC [10] It plays important roles in the biological and biophysical functions of the pulmonary surfactant [11]. The alveolar epithelium is covered with a thin layer of pulmonary fluid carrying a film of pulmonary surfac-
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