PWE-256 Enhanced radiosensitivity of colorectal cancer cells by targeting BCL-3

Introduction Colorectal cancer remains the second most common cause of cancer related death in the UK. The successful management of rectal cancer has improved significantly with changes to surgical technique and the addition of pre-operative chemo-radiotherapy. A significant proportion of patients f...

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Bibliographic Details
Published inGut Vol. 64; no. Suppl 1; p. A325
Main Authors Chambers, AC, Gash, K, Collard, T, Paraskeva, C, Williams, A, Thomas, M
Format Journal Article
LanguageEnglish
Published London BMJ Publishing Group LTD 01.06.2015
Subjects
AKT protein
Apoptosis
Bcl-3 protein
Cancer therapies
Carcinogenesis
Cell activation
Cell survival
Colorectal cancer
Colorectal carcinoma
Drug discovery
Medical prognosis
NF-κB protein
Patients
Radiation therapy
Radiosensitivity
Rectum
Signal transduction
siRNA
Stem cells
Transfection
Tumors
Western blotting
γ Radiation
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Summary:Introduction Colorectal cancer remains the second most common cause of cancer related death in the UK. The successful management of rectal cancer has improved significantly with changes to surgical technique and the addition of pre-operative chemo-radiotherapy. A significant proportion of patients fail to respond to neo-adjuvant therapy. BCL-3 expression (an NF-KB homodimeric binding protein) is associated with poor prognosis in colorectal cancer patients,1and has been shown to drive expression of Cancer Stem Cell (CSC) markers in colorectal cancer.2,3,4Importantly evidence shows that CSCs contribute to tumour development and therapeutic resistance.5It was hypothesised that expression of BCL-3 could be driving cell survival after radiation, and therefore represent a novel biomarker for therapeutic response. Method Established colorectal cells lines LS174T and HCA7 were cultured in flasks/plates. Suppression of BCL-3 expression was achieved by transfection with short interfering RNA (siRNA), cells were irradiated with 1-2.5Gy γ-radiation (Cs-137 source). Cell yield and apoptosis were determined. Cell viability was assessed using a crystal violet assay, protein analysis by Western Blotting. Results BCL-3 suppression results in reduced cell yield and increased apoptosis in LS174T and HCA7 cells. Suppression of BCL-3 expression combined with γ-irradiation results in a significant decrease in cell viability of both LS174T (40% reduction in cell viability at 1Gy, p = 0.028; 54% reduction in cell viability at 2.5Gy, p = 0.005) and HCA7 cells (33% reduction in cell viability at 1Gy, p = 0.017; 50% reduction in cell viability at 2.5Gy, p = 0.031). Conclusion We have shown for the first time that suppressing BCL-3 expression results in radio-sensitisation in an in-vitro colorectal cancer model, the mechanisms of which are currently under investigation. Work is underway to validate this research with in-vivo tissue samples; the aim is to determine whether BCL-3 expression levels correlate with therapeutic response to radiotherapy in rectal cancer patients and whether BCL-3 levels could be used to stratify patient treatment. Disclosure of interest None Declared. References Puvvada SD et al. Oncology. 2010;78:181-188 Al-Kharusi, MR et al. Carcinogenesis. 2013;34:1150-1157 Smartt, HJ et al. Gut. 2012;61:1306-1314 Urban BC et al. BCL-3 promotes colorectal tumour cell survival through activation of the AKT signalling pathway. In revision. 2015 Pattabiraman, DR et al. Nature reviews. Drug discovery. 2014;13:497-512
ISSN:0017-5749
1468-3288
DOI:10.1136/gutjnl-2015-309861.702