The binding of surface proteins from Staphylococcus aureus to human bronchial mucins

Abstract

Colonization by Staphylococcus aureus is frequently observed in obstructive lung diseases, particularly in cystic fibrosis. It has been shown that the bacteria bind to mucins, the main constituent of bronchial secretions. The binding mechanism, however, remains unclear. We have investigated the interactions of two strains of S. aureus, one mucoid and one nonmucoid, with human bronchial mucins. Using a solution phase assay, the binding capacity of the two strains to radiolabelled bronchial mucins was assessed. The bacterial constituents were released by lysostaphin lysis and the surface components of the nonmucoid strain were extracted with the use of a detergent (3-([3-cholamidopropyl] dimethylammonio)-1-propane sulphonate (CHAPS)). All were analysed for mucin-binding using an overlay assay. The amount of mucins bound to the nonmucoid strain was threefold greater than that of the mucoid strain. In the lysostaphin extract from the mucoid strain, only a 57 kDa protein faintly bound 125I-labelled mucins, whereas three mucin-binding proteins (52, 57 and 71 kDa) were identified from the nonmucoid strain. Two surface proteins, one major at 60 kDa and one minor at 71 kDa, bound radiolabelled bronchial mucins and their binding was almost completely inhibited by ovine submaxillary mucin. These results indicate: 1) differences in the mucin-binding capacity from one strain of S. aureus to another; and 2) the presence of external and internal adhesins binding to human respiratory mucins in the nonmucoid strain.