ADSORPTION, COMPRESSION AND STABILITY OF SURFACE-FILMS FROM NATURAL, LIPID EXTRACT AND RECONSTITUTED PULMONARY SURFACTANTS

A pulsating bubble surfactometer was used to study the surface activities and surface film stabilities of bovine pulmonary surfactants (10 mg/ml) and a reconstituted surfactant (10 mg/ml). Pulmonary surfactants were natural surfactant (NS), lipid extract surfactant [LES(chol)] and lipid extract surfactant without neutral lipids (LES). NS is composed of phospholipids, neutral lipids and surfactant-associated proteins (SP-A, SP-B and SP-C). Both LES(chol) and LES are organic solvent extracts of NS. LES(chol) retains all the components of NS except SP-A. Reconstituted surfactant was dipalmitoylphosphatidylcholine (DPPC): 1-palmitoyl-2-oleoyl-phosphatidylglycerol (POPG): SP-B/7:3:1%. All three pulmonary surfactants attained the equilibrium surface tension almost instantaneously at 37-degrees-C. The adsorption rates of NS and LES(chol) at 24-degrees-C were similar to those at 37-degrees-C, while LES exhibited a lower adsorption rate at 24-degrees-C. Reconstituted surfactant adsorbed slower than any of the pulmonary surfactants. Film stability was studied by recording the spontaneous increase in the pressure gradient of a static bubble at the minimum size (R(min)) once near zero surface tension was attained. The order of surface film stabilities were: reconstituted surfactant > > NS > LES > LES(chol). Surface films of NS and LES could be stabilized by prolonged pulsation, while film stability of LES(chol) was only moderately affected by pulsation. These results indicate that SP-A in NS promotes formation of some unique structure, possibly tubular myelin, which induces selective adsorption of lipids into the surface.