Binding of benzo(a)pyrene, ellipticine, and cis-parinaric acid to beta-lactoglobulin: influence of protein modifications.

The binding of benzo(a)pyrene, ellipticine, and cis-parinaric acid to native, esterified, and alkylated beta-lactoglobulin was followed by enhancement of the ligand fluorescence. Three studied ligands bind to native or modified beta-lactoglobulin in apparent molar ratios varying between 1/8 and 2/1, with apparent dissociation constants in the range of 10(-8) M for ligand/beta-lactoglobulin complexes. The studied, chemically modified beta-lactoglobulin derivatives display higher binding affinities for all studied ligands, cis-parinaric acid excluded. The reductive alkylation of epsilon-NH2 lysyl residues of beta-lactoglobulin increases the apparent molar ratios of benzo(a)pyrene and cis-parinaric acid, and decreases it for ellipticine. The esterified and native beta-lactoglobulin complexed to the investigated ligands display similar stoichiometries. Dynamic light scattering study of ligand-beta-lactoglobulin complexes in solution shows the formation of aggregates: the apparent hydrodynamic radius value of beta-lactoglobulin dimer (3.4 nm) reaches 49, 46, and 74 nm upon addition and binding of benzo(a)pyrene, ellipticine, and cis-parinaric acid, respectively.