Designer lipids for drug delivery: From heads to tails

脂质体 药物输送 药品 化学 体内 免疫原性 聚乙二醇化 靶向给药 脂质双层融合 纳米技术 药理学 免疫系统 生物物理学 生物化学 生物 材料科学 生物技术 免疫学 有机化学
作者
Aditya Kohli,Paul H. Kierstead,Vincent J. Venditto,Colin Walsh,Francis C. Szoka
出处
期刊:Journal of Controlled Release [Elsevier BV]
卷期号:190: 274-287 被引量:162
标识
DOI:10.1016/j.jconrel.2014.04.047
摘要

For four decades, liposomes composed of both naturally occurring and synthetic lipids have been investigated as delivery vehicles for low molecular weight and macromolecular drugs. These studies paved the way for the clinical and commercial success of a number of liposomal drugs, each of which required a tailored formulation; one liposome size does not fit all drugs! Instead, the physicochemical properties of the liposome must be matched to the pharmacology of the drug. An extensive biophysical literature demonstrates that varying lipid composition can influence the size, membrane stability, in vivo interactions, and drug release properties of a liposome. In this review we focus on recently described synthetic lipid headgroups, linkers and hydrophobic domains that can provide control over the intermolecular forces, phase preference, and macroscopic behavior of liposomes. These synthetic lipids further our understanding of lipid biophysics, promote targeted drug delivery and improve liposome stability. We further highlight the immune reactivity of novel synthetic headgroups as a key design consideration. For instance it was originally thought that synthetic PEGylated lipids were immunologically inert; however, it's been observed that under certain conditions PEGylated lipids induce humoral immunity. Such immune activation may be a limitation to the use of other engineered lipid headgroups for drug delivery. In addition to the potential immunogenicity of engineered lipids, future investigations on liposome drugs in vivo should pay particular attention to the location and dynamics of payload release.
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