Surfactant protein C: a review of its unique properties and metabolism.

Abstract

Traditionally, our thinking about surfactant proteins has centered around their effects on the biophysical properties of surfactant phospholipids. It is now apparent that the three major surfactant proteins (SP-A, SP-B, and SP-C) are a biochemically and functionally diverse group of mammalian peptides. Accumulated data suggest that they have roles beyond modulation of alveolar surface tension. SP-C is a 33-35 amino acid peptide found in organic extracts of pulmonary surfactant. In part, because of its extreme hydrophobicity, a full understanding of SP-C is presently incomplete. Progress to date has included evaluation of the biophysical properties and investigations of the SP-C gene, including studies of the SP-C promoter. This review describes the unique structural and functional properties of the SP-C molecule and summarizes available data on its molecular biology and metabolism. Studies from literature show that SP-C represents a physiologically important peptide with novel structural properties; namely, extreme hydrophobicity, an alpha-helical membrane spanning region, and a unique posttranslational modification: palmitoylation. From data on similarly modified proteins, we propose that the properties of SP-C, including the covalent addition of palmitic acid, render it capable of being targeted to and interacting with specific cell membranes. A complete understanding of SP-C, especially with regard to its metabolism and function, may require a reorientation of our thinking to consider SP-C as a membrane peptide and not just as a "surfactant protein."