Modulation of pH Sensitivity of Surface Charge and Aggregation Stability of Protein-Coated Lipid Droplets by Chitosan Addition

The impact of a cationic polyelectrolyte on the pH sensitivity of the electrical charge and aggregation stability of protein-coated lipid droplets was examined. One percent (w/w) corn oil-in-water emulsions containing lipid droplets coated by β-lactoglobulin [0.05% (w/w) β-Lg, 10 mM acetate buffer, pH 3] were prepared in the absence (“primary” emulsions) and presence (“secondary” emulsions) of chitosan (0 to 0.05 wt%). The pH (3 to 8) of these emulsions was adjusted, and the particle charge, particle size, creaming stability, and microstructure were measured. Chitosan adsorbed to the β-Lg-coated droplets from pH 4.5 to 7.5, which was attributed to electrostatic attraction between the cationic polyelectrolyte and anionic patches on the droplet surfaces. Droplets coated by β-Lg–chitosan had better stability to flocculation than those coated by β-Lg alone around the isoelectric point of the adsorbed proteins (pH 4.5 to 5.5), which was attributed to increased electrostatic and steric repulsion between the droplets. We have shown that chitosan may be used to modulate the electrical characteristics and stability of protein-coated lipid droplets, which may be useful in the design and formation of delivery systems for use in the food, pharmaceutical, and other industries.