| Abstract: | Surfactant-associated glycoproteins A, 38 (A3), 32 (A2) and 26 (A1) kDa, pI (4.2-4.8), were identified as related proteins present in surfactant isolated from rat lung lavage fluid. Differences in size and charge among surfactant-associated glycoproteins A were related to differences in glycosylation as determined by reduction of the larger forms (38 and 32 kDa) to 26 kDa by endoglycosidase F and by increased isoelectric points of the glycosylated forms after treatment with neuraminidase. Synthesis and secretion of surfactant-associated glycoproteins A and precursors were demonstrated in purified rat Type II epithelial cells by immunoprecipitation of [35S]methionine-labelled proteins with anti-surfactant-associated glycoprotein A antisera. In pulse-chase experiments, labelled proteins 26-34 kDa, appeared within 10 min and smaller forms co-migrated with surfactant-associated glycoprotein A from alveolar lavage. The relative abundance of the larger molecular mass forms (30-34 kDa, pI 4.8) increased at later times up to 3 h. More acidic mature forms, which co-migrated with surfactant-associated glycoproteins A2 and A3 in surfactant (38 and 32 kDa), were readily detectable in the media, but were not abundant forms in lysates of labelled Type II cells after 1-3 h of incubation. Primary translation products of surfactant-associated glycoprotein A were immunoprecipitated with monospecific anti-surfactant-associated glycoprotein A antiserum after in vitro translation of poly(A)+ mRNA isolated from adult rat lung. The immunoprecipitated translation product migrated at 26 kDa, pI 4.8, and migrated slightly faster than surfactant-associated glycoprotein A1 from surfactant. Treatment of surfactant-associated glycoprotein A with bacterial collagenase resulted in proteolytic fragments 23-20 kDa, pI 4.2-4.8, which no longer underwent sulfhydryl-dependent cross-linking, suggesting that the collagen-like domain was required for the sulfhydryl-dependent oligomerization. Surfactant-associated glycoproteins A are synthesized by rat Type II epithelial cells as pre-proteins, 26-34 kDa. Larger forms result primarily from N-linked glycosylation of the 26 kDa primary translation product. Mature, more acidic forms result from further addition of sialic acid. |
