Abstract 1008: Cell density-related variability in chemotherapeutic resistance patterns in human cancer cells

Abstract

Abstract Assessment of chemosensitivity and resistance varies with cancer cell of origin, drug and culture conditions. However, it is also not uncommon to find multiple different IC50 values for the same chemotherapeutic treatments acting on the same tumor cell lines. The aim of this research was to investigate this discrepancy in phenotypes and elucidate relevant variables that influence them. We assessed chemosensivity as a function of tumor cell density by plating TOV-21G ovarian, HT29 colorectal, and U2OS osteosarcoma cell lines in 96-well plates at various seeding densities per well and treated them with various concentrations of cisplatin, 5-fluorouracil (5-FU), and etoposide, respectively. CellTiter Glo assays were performed at 72 hours of treatment to determine IC50. Cisplatin IC50 for TOV-21G cells plated at 50,000, 20,000, 10,000, 5,000, 2,000, 1,000, and 500 cells/well were 12.00 μM, 5.47 μM, 3.16 μM, 2.45 μM, 2.54 μM, 2.83 μM, and 2.66 μM, respectively. Etoposide IC50 for U2OS cells plated at the same seeding densities were 6.50 μM, 5.19 μM, 3.23 μM, 2.98 μM, 2.49 μM, 2.13 μM, and 1.88 μM, respectively. IC50 values for HT29 cells treated with 5-FU at 2,000, 1,000, and 500 cells/well were 35.89 μM, 19.74 μM, and 13.42 μM, respectively. TOV-21G, U2OS, and HT29 cells all showed differences in IC50 values depending on cell plating density. TOV-21G and U2OS cells both showed a gradual decrease and plateau in IC50 as the cancer cell density decreased from 50,000 cells/well to 500 cells/well. HT29 cells displayed a sharper IC50 decrease as the cell density decreased from 2,000 cells/well to 500 cells/well. Our experiments demonstrate that IC50 values are not static at 72 hours and that tumor cell density is an important variable in influencing observed tumor resistance to traditionally effective drugs. As the density of cancer cells increases, the cells develop more resistance to the associated chemotherapy and require higher quantities of drug to achieve the same level of growth inhibition. We are currently exploring underlying molecular mechanisms that may influence these changes in IC50 including cell survival signaling proteins, cell-cell contact or growth factors that may influence cell density-related chemoresistance. Citation Format: Thomas Brown, Ujwal Punyamurtula, Jill Strandberg, Wafik S. El-Deiry. Cell density-related variability in chemotherapeutic resistance patterns in human cancer cells [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 1008.