Rat pulmonary surfactant protein A is an oligomer of 18 polypeptide chains which are associated by triple helix formation in the collagen-like domain and interchain disulfide bridges at the NH2 terminus. The roles of the intermolecular bond at Cys6 and the collagen-like domain (Gly8-Pro80) in the interactions of SP-A with phospholipids and alveolar type II cells were investigated using mutant forms of the protein. Wild type SP-A (SP-Ahyp), SP-A with the substitution Cys6 → Ser to prevent disulfide formation (SP-Ahyp,C6S), and SP-A with the collagen-domain deleted (SP-AΔG8-P80) were synthesized in insect cells using recombinant baculoviruses. The SP-As were glycosylated and secreted from the invertebrate cells and the binding affinities of the wild type and mutant proteins for the mannose-Sepharose matrix used for purification were nearly identical. The SP-Ahyp and SP-AΔG8-P80 were at least nonameric in solution based on gel exclusion chromatography, and demonstrated extensive sulfhydryl-dependent oligomerization under nonreducing conditions. The SP-Ahyp,C6S was also oligomeric in solution and formed disulfide-dependent dimers, indicating the presence of at least one additional interchain disulfide bond. The SPAΔG8-P80 but not the SP-Ahyp,C6S aggregated lipid vesicles at 20 °C and augmented the surface tension lowering effect of extracts of natural surfactant. The SP-AΔG8-P80 competed poorly with native SP-A for receptor occupancy on isolated alveolar type II cells and was a potent but nonspecific (concanavalin A-like) inhibitor of surfactant secretion. In contrast, the SP-Ahyp,C6S partially competed for receptor occupancy and weakly inhibited surfactant secretion in a specific manner. Neither the SP-AΔG8-P80 nor the SP-Ahyp,C6S supported the association of phospholipid liposomes with type II cells. We conclude that: 1) the Cys6interchain disulfide bond of SP-A is required for aggregation of liposomes and for potent inhibition of surfactant secretion. 2) The collagen-like region is required for competition with125I-SP-A for receptor occupancy and specific inhibition of surfactant secretion in the presence of competing sugars. 3) Both the NH2-terminal disulfide and the collagen-like region are required to enhance the association of phospholipid vesicles with type II cells.