Cryopreservable and tumorigenic three-dimensional tumor culture in porous poly(lactic-co-glycolic acid) microsphere

In vitro tumor models that mimic in vivo conditions may be ideal for screening anticancer drugs and their formulations and developing tumors in animal models. Three-dimensional (3-D) culture of cancer cells on polymeric scaffolds can be an option for such models. In the present study, porous poly(lactic acid-co-glycolic acid) (PLGA) microsphere was used both as a cancer cell culture substrate to expand cells and as a cancer cell transplantation vehicle for tumor construction in mice. MCF-7 cells cultured on porous PLGA microspheres in stirred suspension bioreactors expanded by 2.8-fold over seven days and maintained viability. At three months after inoculation with 2 × 106 cells/site, the tumor formation by MCF-7 cells cultured on microspheres was much more effective (4 tumors/5 mice) than its counterpart cultured on plates (1/5). More importantly, cell viability and metabolic activity were not significantly changed even after one freeze–thaw cycle of the 3-D culture. MCF-7 cells cultured on the microspheres and the cells in 3-D after cryopreservation were more resistant to doxorubicin than MCF-7 cells cultured on plates.