The forces between two mica surfaces covered with an adsorbed layer of protein (mucin BSM) across aqueous solution were measured as a function of distance. Parallel adsorption measurements were performed with radiolabeled mucin. The analysis of the force/distance curves for different mucin surface densities and ionic strengths have shown that (1) in all the studied cases, steric repulsive exponentially varying forces were observed, which increased with the mucin surface density. (2) For a low coverage of the mica surfaces by mucin, bridging effects give rise to large-distance attractive interactions. They disappear at high coverages of the mica surfaces. (3) The mucin macromolecules are more rigid at physiological salt concentrations than at low ionic strengths.