Proton Pump Inhibitors Modulate Transport Of Doxorubicin And Its Liposomal Form Into 2D And 3D Breast Cancer Cell Cultures

PURPOSE: The purpose of our study was to evaluate the influence of two PPIs (omeprazole (OME) and lansoprazole (LANSO)) on weakly basic anticancer drug doxorubicin (DOX) and pegylated liposomal doxorubicin (PLD) delivery to monolayer-cultured 4T1 murine breast cancer cells and tumor spheroids. METHODS: The effect of PPIs on cell viability was evaluated by MTT assay. 3D cell cultures (spheroids) were formed using 3D bioprinting method. DOX and PLD penetration into cancer cells and spheroids at pH 6.0 and 7.4 was assessed using fluorescence microscopy. RESULTS: Both OME and LANSO did not reduce the viability of 4T1 cells at 100 μM and lower concentrations, and therefore, in further experiments, 100 μM of PPIs was used. At pH 7.4, both tested PPIs did not enhance DOX (5 µM) and PLD (concentration corresponding to 5 µM DOX) delivery into 2D cell cultures. However, in acidic conditions, both PPIs increased the amount of drug in cancer cells and their nucleus. At physiological pH they were not effective at improving DOX delivery into spheroids, but after 2 hrs of incubation, OME slightly increased PLD delivery into edge and middle zones. At pH 6.0, both tested PPIs significantly enhanced DOX and PLD transport into spheroids, but the positive effect on delivery was observed only within the first 4 hrs of incubation. CONCLUSION: Both OME and LANSO increased DOX and PLD penetration into monolayer-cultured cells at acidic conditions but did not show a positive effect on drug delivery at physiological pH. Also, pretreatment with tested PPIs slightly increased DOX and PLD delivery in the edge and middle zones of tumor spheroids. Thus, OME and LANSO are promising transport modulators of weakly basic drugs.