Plant hairy roots for the production of extracellular vesicles with antitumor bioactivity

Plant extracellular vesicles (EVs) concentrate and deliver different types of bioactive molecules in human cells and are excellent candidates for a next-generation drug delivery system. However, the lack of standard protocols for plant EV production and the natural variations of their biomolecular cargo pose serious limitation to their use as therapeutics. To overcome these issues, we set up a versatile and standardized procedure to purify plant EVs from hairy root (HR) cultures, a versatile biotechnological system, already successfully employed as source of bioactive molecules with pharmaceutical and nutraceutical relevance. Herewith, we report that HR of Salvia dominica represent an excellent platform for the production of plant EVs. In particular, EVs derived from S. dominica HRs are small round-shaped vesicles carrying typical EV-associated proteins such as cytoskeletal components, chaperon proteins and integral membrane proteins including the tetraspanin TET-7. Interestingly, the HR-derived EVs showed selective and strong pro-apoptotic activity in pancreatic and mammary cancer cells. These results reveal that plant hairy roots may be considered a new promising tool in plant biotechnology for the production of extracellular vesicles for human health. Extracellular vesicles isolated from Salvia dominica hairy roots have a small round-shaped morphology and carry typical EV-associated proteins, and demonstrate pro-apoptotic activity in pancreatic and breast cancer cells

Automated summary

This study establishes a versatile and standardized method to purify plant extracellular vesicles (EVs) from hairy root cultures, and identifies Salvia dominica hairy roots as an excellent platform for EV production. The EVs derived from these roots show selective and strong pro-apoptotic activity in pancreatic and mammary cancer cells.