NEUTRALIZATION OF THE POSITIVE CHARGES OF SURFACTANT PROTEIN-C - EFFECTS ON STRUCTURE AND FUNCTION

Pulmonary surfactant protein C (SP-C) is a small, extremely hydrophobic peptide with a highly conservative primary structure. The protein is characterized by two adjacent palmitoylated cysteine residues, two positively charged residues (one arginine residue and one lysine residue) in the N-terminal region, and a long hydrophobic stretch. SP-C enhances the adsorption of phospho lipids into an air-water interface. To determine the importance of the positively charged residues, we carried out experiments with natural porcine SP-C and modified porcine SP-C (SP-C-m) in which the positive charges had been blocked by phenylglyoxal. Circular dichroism experiments showed that SP-C-m had an increased content of alpha-helix. Natural SP-C, but not SP-C-m, catalyzed insertion of phospholipids into a monolayer at the air-water interface. This reduced insertion was due to a strong reduction of binding of phospholipid vesicles to the monolayer. The insertion catalyzed by the natural porcine SP-C was decreased by an increased pH of the subphase. In contrast to natural SP-C, SP-C-m induced lipid mixing between phospholipid vesicles. The extent of lipid mixing was a function of the SP-C content. We conclude that the positively charged residues of SP-C are important for the binding of phospholipid vesicles to the monolayer, a process that precedes the insertion of phospholipids into the monolayer.