Abstract A54: Inhibition of FOXM1 by thiostrepton increases sensitivity to 5-fluorouracil (5-FU) by downregulating thymidylate synthase (TS) in colorectal cancer

2015 
Background: 5-Fluorouracil (5-FU) is one of the most commonly used chemotherapy drugs for the treatment of colorectal cancer in the adjuvant and metastatic disease settings. One of the main targets of 5-FU is the enzyme thymidylate synthase (TS). High expression levels of TS in colorectal tumors removed from patients have been associated with drug resistance. The Forkhead box transcription factor M1 (FOXM1) has been demonstrated to regulate several aspects in cancer cells including: cell cycle progression, apoptosis, and cell survival. FOXM1 is over expressed in many types of cancers, including colorectal, and has been implicated in drug resistance in breast cancer. Thiostrepton is a thiazole antibiotic which selectively inhibits FOXM1. The relationship between FOXM1/TS and 5-FU resistance has not previously been established and may present a new treatment strategy. Purpose: In this study we sought to determine 1) the role of FOXM1 in regulation of TS, 2) whether inhibition of FOXM1 using thiostrepton or transient knockdown using a small interfering RNA would inhibit the TS expression in colorectal cancer cells, 3) whether combined therapy with 5-FU and thiostrepton would have a synergistic effect on cell survival, and 4) the effect of treatment with thiostrepton/ 5-FU/ combined thiostrepton and 5-FU on cellular migration and colony formation. Methods and results: HCT116, DLD1, and HT29 cells were treated with 0.5ug/ml 5-FU. TS and FOXM1 protein and mRNA expression were determined using Western blot and RTPCR. 5-FU treatment resulted in an initial increase (6h) followed by a decrease (48h) of both TS and FOXM1 in p53 wild type HCT116 cells, in p53 mutant DLD1 and HT29 cells whilst an initial increase was observed in both FOXM1 and TS there was no subsequent decrease. SRB assay was used to quantify the IC50 of 5-FU in HCT116, DLD1 and HT29 and was found to be 0.67±.23, 0.68±.22 and 3.09±.39 respectively. Transient knockdown of FOXM1 led to a significant decrease of TS in mRNA but not protein in HCT116 cells. For thiostrepton the IC50 was found to be 0.60uM, 1.07uM, and 3.54uM, in HCT116, DLD1 and HT29 cells, respectively. Combination of 5-FU and thiostrepton showed synergistic effects in all 3 colon cancer cell lines. Chromatin immunoprecipitation (ChIP) was performed in HCT116 and DLD1 cell lines to determine if FOXM1 binds to the TS promoter region (0 - 2000bp upstream of the TS transcription start site). 3 negative primers were designed further to 2000bp upstream region. ChIP data revealed enrichment for FOXM1 at the TS promoter (0-1500 bp upstream) and no enrichment observed in the negative control. Inhibition of FOXM1 by thiostrepton led to a drop in enrichment in the TS promoter region. These results confirmed the role of FOXM1 in TS regulation. Chip Sequencing (ChIP-seq) was then performed to study further FOXM1 targets and binding sites of FOXM1 to other well-known 5-FU targets such as thymidine phosphorylase (TP) and thymidine kinase 1 (TK-1). The FOXM1 specific ChIP-seq libraries and corresponding input controls were sequenced on the Illumina Hi Seq 2000. ChIP-seq confirmed that FOXM1 significantly binds to both these factors. FOXM1 binding to cell cycle regulatory genes E2F2 and E2F3 was also shown in both cell lines. Combination treatment of 5-FU and thiostrepton significantly decreases colony formation in HCT116, DLD1 and HT29 cell lines. 5-FU and thiostrepton combination also decreases migration in HCT116 cells. Conclusion: FOXM1 regulates the 5-FU target gene TS, and inhibition of FOXM1 acts enhances the cytotoxic effect of 5-FU in colorectal cancer cells and warrants further investigation as a new treatment strategy. Citation Format: Vidhya Varghese, Luca Magnani, Narumi Harada, Lam W. Eric, Laura Kenny. Inhibition of FOXM1 by thiostrepton increases sensitivity to 5-fluorouracil (5-FU) by downregulating thymidylate synthase (TS) in colorectal cancer. [abstract]. In: Proceedings of the AACR Precision Medicine Series: Drug Sensitivity and Resistance: Improving Cancer Therapy; Jun 18-21, 2014; Orlando, FL. Philadelphia (PA): AACR; Clin Cancer Res 2015;21(4 Suppl): Abstract nr A54.
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