Polymersome

In biotechnology, polymersomes[1] are a class of artificial vesicles, tiny hollow spheres that enclose a solution. Polymersomes are made using amphiphilic synthetic block copolymers to form the vesicle membrane, and have radii ranging from 50 nm to 5 μm or more.[2] Most reported polymersomes contain an aqueous solution in their core and are useful for encapsulating and protecting sensitive molecules, such as drugs, enzymes, other proteins and peptides, and DNA and RNA fragments. The polymersome membrane provides a physical barrier that isolates the encapsulated material from external materials, such as those found in biological systems.

Synthosomes are polymersomes engineered to contain channels (transmembrane proteins) that allow certain chemicals to pass through the membrane, into or out of the vesicle. This allows for the collection or enzymatic modification of these substances.[3]

The term "polymersome" for vesicles made from block copolymers was coined in 1999.[1] Polymersomes are similar to liposomes, which are vesicles formed from naturally occurring lipids. While having many of the properties of natural liposomes, polymersomes exhibit increased stability and reduced permeability. Furthermore, the use of synthetic polymers enables designers to manipulate the characteristics of the membrane and thus control permeability, release rates, stability and other properties of the polymersome.

  1. ^ a b Discher B M; Won Y Y; Ege D S; Lee J C; Bates F S; Discher D E; Hammer D A Science (1999), 284(5417), 1143-6.
  2. ^ Cite error: The named reference Discher2002 was invoked but never defined (see the help page).
  3. ^ Onaca, Ozana; Madhavan Nallani; Saskia Ihle; Alexander Schenk; Ulrich Schwaneberg (August 2006). "Functionalized nanocompartments (Synthosomes): limitations and prospective applications in industrial biotechnology". Biotechnology Journal. 1 (7–8): 795–805. doi:10.1002/biot.200600050. PMID 16927262. S2CID 28644222.