Roles of hydrophobicity and charge density on the dynamics of polyelectrolyte complex formation and stability under modeled physicochemical blood conditions

To improve the understanding of the physicochemical behavior of polyplexes (DNA-polycation complexes) and to avoid the complexity of blood, the formation and stability of polyelectrolyte complexes of degradable polycations and polyanions, we previously studied under pH, temperature, and ionic strength typical of human blood. In this study, the investigation is extended to polycationic macromolecules added into mixtures of polyanions selected to mimic polyanionic species present in blood. The poly(l-lysine) polycation was added to binary mixtures of degradable polyanions with different charge densities and hydrophobicity. The polyanions were poly(l-lysine citramide imide), poly(l-lysine citramide), and poly(l-lysine citramide) partially esterified with heptyl groups. We found selectivity and fractionation in the molar mass, which depended on the structural characteristics of the polyanions. The affinity of polycationic poly(l-lysine) macromolecules to polyanions increased in the following order: poly(l-lys...