Use of the essential autophagy protein beclin 1 to regulate DNA damage response and predict response to chemoradiation in rectal cancer.

Abstract

492 Background: Beclin 1 interacts with its cofactor UVRAG to promote autophagy, a cellular degradation process induced by cellular stress. While cells with defective autophagy are prone to genomic instability, it is unknown whether Beclin 1 and/or UVRAG can regulate DNA damage/repair. Methods: Colorectal cancer cell lines (HT-29, DLD1) with Beclin 1 or UVRAG siRNA were irradiated ± 5-FU. DNA damage (pATM, pH2Ax, 53BP1, RAD51), cell death (annexin V, caspase-3, clonogenic survival), and centrosome number (γ-tubulin staining), were determined. Beclin 1 protein expression was analyzed in pretreatment endoscopic biopsies from 96 rectal carcinoma patients who received radiation + 5-FU followed by surgery. Results: Beclin 1 or UVRAG knockdown was shown to enhance DNA double-strand breaks (DSBs) and cell death induced by radiation ± 5-FU. Suppression of either gene increased the percentage of irradiated cells with nuclear foci expressing 53BP1 (nonhomologous end joining), but not RAD51 (homologous recombination). Beclin 1 was shown to regulate UVRAG, and a UVRAG deletion mutant defective in Beclin 1 binding decreased protection against radiation-induced DSBs. Knockdown of Beclin 1 or UVRAG increased centrosome number in irradiated cells. While autophagy inhibition by ATG5 or LC3 siRNA enhanced radiation-induced DSBs, they did not alter centrosome number suggesting independence from autophagy. In rectal carcinomas, high vs low level Beclin 1 expression was detected in 56 (58.3%) and 40 (41.7%) tumors, respectively. Pre-treatment Beclin 1 was not associated with clinicopathological variables. However, high vs low Beclin 1 predicted a significantly reduced pathological response (macroscopic vs. microscopic or no residual tumor) to chemoradiation (high: 14.2% vs. low: 40%; p = 0.017). High vs low Beclin 1 was independently associated with poorer overall survival (HR, 4.30; 95% CI, 1.42-16.47; p = 0.009). Conclusions: Beclin 1 and UVRAG confer protection against radiation-induced DNA damage and maintain centrosome stability. The ability of Beclin 1 overexpression to confer resistance to chemoradiation, suggests its potential utility as a predictive biomarker in rectal cancer.