Micelles in anticancer drug delivery

In recent years, the development of micelle-based carriers for cancer chemotherapy has been the object of growing scientific interest, both in academia and the pharmaceutical industry. Micelles have attracted attention in drug formulation and targeting, given that they provide a set of unique features. The core/shell structure accounts for their qualities as efficient drug delivery systems. The core provides a reservoir where hydrophobic drugs can be dissolved, and the corona confers hydrophilicity to the overall system. Sequestration of anticancer drugs in the inner core can protect them from premature degradation and allow their accumulation at tumoral sites. Micelles can be subdivided into two different groups according to their molecular weights: low-molecular-weight surfactant micelles and polymeric micelles. Although surfactant micelles such as polyethoxylated castor oil (e.g. Cremophor® EL) are commonly used to solubilize hydrophobic anticancer drugs such as paclitaxel, they have often been associated with serious adverse effects. Polymeric micelles may offer several advantages over surfactant micelles in terms of drug loading, adverse effects, stability, and targeting of tumors. Indeed, polymeric micelles can increase the circulation time of cytostatics and induce substantial changes in their biodistribution, including tumor accumulation via the enhanced permeation and retention effect. In addition, some recent studies have demonstrated that amphiphilic block copolymers (e.g. poloxamers) used for the preparation of polymeric micelles could increase the activity of several cytostatics by reversing multidrug resistance. This review first describes and compares surfactant micelle and polymeric micelle systems, already commercialized or under investigation, used to administer cytostatics. Secondly, their in vitro interactions with neoplastic cells and tissues are discussed in terms of cellular uptake and pharmacologic activity. In particular, the pharmacokinetics and biodistribution of micelles, along with the factors affecting their delivery to tumoral sites, are thoroughly discussed. Finally, in vivo studies reporting the anticancer activity and toxicity of drugs associated with micelles are reviewed.