Interactions of liposomes and lipid-based carrier systems with blood proteins: Relation to clearance behaviour in vivo

Liposomes and lipid-based drug delivery systems have been used extensively over the last decade to improve the pharmacological and therapeutic activity of a wide variety of drugs. More recently, this class of carrier systems has been used for the delivery of relatively large DNA and RNA-based drugs, including plasmids, antisense oligonucleotides and ribozymes. Despite recent successes in prolonging the circulation times of liposomes, virtually all lipid compositions studied to date are removed from the plasma compartment within 24h after administration by the cells and tissues of the reticuloendothelial system (RES). Plasma proteins have long been thought to play a critical role in this process but only a few efforts were made to evaluate the relevant importance of plasma protein-liposome interactions in the clearance process. Strategies to increase the bioavailability of liposomal drugs have included altering lipid compositions and charge, increasing lipid doses, and incorporating surface coatings. All of these modifications can influence membrane-protein interactions. In this article, we will focus on our experiences with liposome-blood protein interactions and how alterations in the chemical and physical properties of the carrier system influence the interactions with blood proteins and circulation times.