The versatile potential of bacteriophage MS2-derived virus-like particles (VLPs) in medical biotechnology has been extensively studied during the last 30 years. Since the first reports showing that MS2 VLPs can be produced at high yield and relatively easily engineered, numerous applications have been proposed. Particular effort has been spent in developing MS2 VLPs as protective capsules and delivery platforms for diverse molecules, such as chemical compounds, proteins and nucleic acids. Among these, two are particularly noteworthy: as scaffolds displaying heterologous epitopes for vaccine development and as capsids for encapsulation of foreign RNA. In this review, we summarize the progress in developing MS2 VLPs for these two areas.
Keywords: RNA delivery; RT-PCR; bionano; capsid; drug delivery; phage; protein cage; protein engineering; vaccines.
Hollow, nanosized protein particles have many potential uses. If they can be appropriately engineered, they may for example be able to carry therapeutic cargoes to diseased cells or be used as a vaccine where appropriate antigens are mounted on their external surface. Many viruses offer a ready-made protein particle, the capsid, which can be made hollow by exclusion of the viral genetic material. MS2 is a virus that targets bacteria – a bacteriophage – which is well characterized and has been developed over many years for a number of applications. It has particular promise for development as a vaccine and for RNA delivery, both of which are reviewed here.