Three-step scalable production of extracellular vesicles from pancreatic beta cells in stirred tank bioreactors promotes cell maturation and release of ectosomes with preserved immunomodulatory properties

Abstract

Small extracellular vesicles (sEV) released by healthy beta cells are promising candidates for diabetes therapy thanks to their aptitude to modulate inflammation, to induce or maintain pancreatic function and to prevent pathogenic mechanisms. To advance the clinical development of therapeutics, there is a crucial need for scalable production methods. Stirred tank bioreactors (STR) are widely used in the industry due to their ability to provide homogeneous gas and nutrient supply, online monitoring, and efficient scale up. Anchorage-dependent cells can be cultured in STR on microcarriers or as spheroids, but may experience shear stress, which can affect sEV phenotype and function. Using pancreatic beta cells, this study identifies critical cell culturing parameters, including culture mode (monolayer vs. spheroids), medium formulation (with or without serum, glucose control), and process parameters (stirring, duration, cell density). The findings show that small spheroid culture promotes beta cell maturation without decreasing the yield of sEV per cell, despite a reduced cell surface exchange area. However, stirring increased expression of cellular stress markers and decreased cell viability. Set up of a three-step bioprocess allowed to maximize cell viability and sEV yields at high cell density over short production duration. sEV produced under these conditions maintained high purity, membrane integrity, and the aptitude to reduce T-lymphocyte proliferation and IFN-γ cytokine secretion in a mixed lymphocyte reaction. Flow cytometry analysis revealed lower CD63/CD81 ratios in STR, indicating enhanced ectosome production. Switch from high glucose expansion to low glucose production medium further allowed to direct sorting of the antigen insulin into beta-sEV. This study demonstrates the feasibility of producing functional sEV from mature beta cells cultured as small spheroids, suitable for upscale. Production of sEV in STR may be particularly beneficial for ectosome-enriched compound loading for therapeutic applications.