Abstract 2000: Role of O-GlcNAc conjugation and TS translational repression in 5-FU/LV resistance in CRC and CF10 response

Abstract Rationale: Fluoropyrimidine drugs (FPs; e.g., 5-FU) are widely used to treat colorectal cancer (CRC), the 3rd leading cause of cancer-related mortality. However, acquired resistance to 5-FU is a principal cause of treatment failure in the metastatic setting. Further, previous studies selected for cells resistant to single agent 5-FU however 5-FU is invariably used clinically in combination with the reduced folate leucovorin (LV). Our studies focus on resistance mechanisms upon treatment with 5-FU+LV in folate-restricted media and test if CF10, a novel polymeric FP being developed in our laboratory displays activity in CRC cells resistant to 5-FU+LV. Experimental: We selected CRC cells (HCT-116, LS174T, HCT15, MC38) resistant to 5-FU+LV by selecting for survival upon culture in folate-restricted media with stepwise increased concentrations of 5-FU+LV over 5 months. Since elevated thymidylate synthase (TS) levels were observed in multiple studies selecting CRC cells for 5-FU resistance, we performed Western blot on cell lysates from parental and (5-FU+LV)-R cells. Since Myc and p53 expression are regulated in part via translational inhibition by TS binding to these mRNAs we also compared Myc and p53 levels in parental and (5-FU+LV)-R cells by Western blot. Further, since TS, Myc, and p53 protein stability are all regulated in part via O-GlcNAc conjugation we tested if OGT levels were changed in (5-FU+LV)-R cells. Resistance factors for CF10 were also determined in (5-FU+LV)-R cells. Results: A surprising result was that basal TS levels were reduced in (5-FU+LV)-R cells relative to the parental cells. We also observed that TS levels were increased in both parental and (5-FU+LV)-R cells by 5-FU+LV treatment however the effect was much greater in (5-FU+LV)-R cells. We observed strongly decreased p53 and Myc levels in the (5-FU+LV)-R cells. CF10 treatment further decreased p53 and Myc levels in parental cells, but increased p53 and further decreased Myc in (5-FU+LV)-R cells. In contrast, 5-FU alone treatment in (5-FU+LV)-R cells increased Myc and decreased p53 levels and further decreased in combination with LV. CF10 retained strong activity in (5-FU+LV)-R cells. Conclusions: Overall, we have validated that cancer cells can be cultured under conditions with human-like folate levels and selected for resistance to 5-FU+LV under folate-restricted conditions. The causes of 5-FU+LV resistance are multi-factorial and include TS overexpression induced by 5-FU+LV treatment that may be mediated by O-GlcNAc conjugation. We demonstrated that CF10 is more potent than 5-FU, and importantly its potency advantage is enhanced in cells selected for 5-FU+LV resistance. Our studies support CF10 translation for treatment of metastatic CRC in patients with progressive disease following treatment with combination therapy that includes 5-FU+LV. Citation Format: Charles C. Okechukwu, Xue Ma, William H. Gmeiner. Role of O-GlcNAc conjugation and TS translational repression in 5-FU/LV resistance in CRC and CF10 response [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 2000.