In-situ vaccination using dual responsive organelle targeted nanoreactors

The poor translation of nanomedicines from bench to bedside can be attributed to (i) lack of a delivery system with precise drug compositions with no batch-to-batch variations, (ii) off-target or undesirable release of payload, and (iii) lack of a method to monitor the fate of the specific drug of interest, which often has to be modified with a fluorescent tag or replaced with a model drug which can be tracked. To overcome these translation hurdles, we developed dual responsive organelle targeted nanoreactors (DRONEs) with precise drug composition, site specific payload release and which enable accurate in-vivo monitoring. DRONEs consist of a polyprodrug inner core composed of a dual responsive backbone containing a photosensitizer (Protoporphyrin IX) grafted with functionalized polyethylene glycol (PEG) outer shell to prolong blood circulation and a tumour homing pro-apoptotic peptide (CGKRK D [KLAKLAK] 2 ) (THP). DRONEs can significantly reduce the tumour burden in an orthotopic glioblastoma model due to its BBB penetrating and tumour homing capabilities. DRONEs exhibit good safety profile and biocompatibility along with a reliable route of elimination. DRONEs showed great potential as an in-situ vaccine which can not only eliminate the tumour but also trigger an adaptive immune response which would provide long-term anti-tumoural immunity.