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IBEC Seminar: Giuseppe Battaglia
Friday, February 3, 2017 @ 10:00 am–11:00 am
Bionic nanoscopic carriers for precision drug deliveryGiuseppe Battaglia, Department of Chemistry and Department of Chemical Engineering, University College London
Getting across biological barriers and deliver therapeutic cargo to the right site is indeed a very challenging task that requires the judicious combination of physiological information with carrier engineering. In the last decade, we have approached this problem, applying a constructionist approach where we mimic biological complexity in the form of design principles to produce functional bionic units from simple building blocks and their interactions. We combine synthetic and supramolecular chemistry to tune inter/intramolecular interactions and self-assembly processes to form dynamic soft materials. Among the different bionic efforts, we have focussed our attention to possibly one of the few that encompasses polymerisation, compartmentalisation and positional self-assembly in the same unit; Polymersomes. These are vesicles formed by the self-assembly of amphiphilic block copolymers in water. We have equipped polymersomes with the critical elements to address the challenges for getting across biological barriers. They have surface engineered to control both attractive (binding) and repulsive (anti-fouling) interaction with proteins and receptors to create systems that can avoid opsonisation and yet target specific cell populations. We have engineered their mechanical properties so as to be flexible and able to penetrate dense tissues exploiting size-exclusion percolation patterns. We have equipped them with both asymmetric topology and enzymes to control their fluid-dynamics and diffusion so as to create chemotactic and active propulsion toward endogenous signalling molecules. Finally, we have engineered their shape and size to guide cellular endocytosis as well as to escape the endocytic sorting accessing and delivering cargo within the cell interior.
I will present our design efforts discussing each structural and functional elements as a function of the respective biological challenge, I will conclude presenting applications where these precision systems are being applied to address challenges in oncology, immunology and neurology.