Optimizing Enzyme-Responsive Polymersomes for Protein-Based Therapies
Dorian Foster, Alaura Cakley, Jessica Larsen
Abstract
Aims: Stimuli-responsive polymersomes are promising tools for protein-based therapies, but require deeper understanding and optimization of their pathology-responsive behavior. Materials & methods: Hyaluronic acid (HA)–poly(b-lactic acid) (PLA) polymersomes self-assembled from block copolymers of varying molecular weights of HA were compared for their physical properties, degradation and intracellular behavior. Results: Major results showed increasing enzyme-responsivity associated with decreasing molecular weight. The major formulation differences were as follows: the HA(5 kDa)–PLA formulation exhibited the most pronounced release of encapsulated proteins, while the HA(7 kDa)–PLA formulation showed the most different release behavior from neutral. Conclusion: We have discovered design rules for HA–PLA polymersomes for protein delivery, with lower molecular weight leading to higher encapsulation efficiency, greater release and greater intracellular uptake.