PURPOSE: Radiotherapy has a central role in the treatment of non-small cell lung cancer. Effectiveness of this modality, however, is often limited as resistance results from defects in cell death. EXPERIMENTAL DESIGN: We investigated whether simultaneous up-regulation of apoptosis, via Bcl-2 inhibitor ABT-737, and autophagy, via mammalian target of rapamycin inhibitor rapamycin, can be used to enhance radiosensitivity of H460 cells in vitro and growth delay in a xenograft model. RESULTS: In vitro studies confirmed that ABT-737 and rapamycin induce apoptosis and autophagy, respectively. ABT-737 induced cleaved caspase-3, a marker of apoptosis, and rapamycin correlated with an increase in punctate localization of green fluorescent protein-LC3, characteristic of autophagy. The combination ABT-737/rapamycin markedly enhanced sensitivity of H460 cells to radiation (dose enhancement ratio = 2.47; P = 0.002) in clonogenic assay. In addition, the combination ABT-737/rapamycin/radiation showed a dramatic tumor growth delay in a mouse xenograft model. In vivo immunohistochemistry staining showed that combination therapy yielded over a 100% increase in caspase-3 activity (apoptosis) and a 6-fold decrease in p62 protein level (indicative of autophagic flux) compared with radiation alone control group. Moreover, cell proliferation (Ki-67 staining) was reduced by 77% (P = 0.001) and vascular density (von Willebrand factor staining) by 67.5% (P = 0.09) compared with radiation alone. Additional in vitro studies in human umbilical vein endothelial cells indicated that combined therapy also significantly decreases tubule formation. CONCLUSION: These results suggest that concurrent induction of apoptosis and autophagy enhances radiation therapy both in vitro and in lung cancer xenograft models. Further investigations are warranted to assess the clinical potential of such strategy in lung cancer patients.
PURPOSE: Radiotherapy has a central role in the treatment of non-small cell lung cancer. Effectiveness of this modality, however, is often limited as resistance results from defects in cell death. EXPERIMENTAL DESIGN: We investigated whether simultaneous up-regulation of apoptosis, via Bcl-2 inhibitor ABT-737, and autophagy, via mammalian target of rapamycin inhibitor rapamycin, can be used to enhance radiosensitivity of H460 cells in vitro and growth delay in a xenograft model. RESULTS: In vitro studies confirmed that ABT-737 and rapamycin induce apoptosis and autophagy, respectively. ABT-737 induced cleaved caspase-3, a marker of apoptosis, and rapamycin correlated with an increase in punctate localization of green fluorescent protein-LC3, characteristic of autophagy. The combination ABT-737/rapamycin markedly enhanced sensitivity of H460 cells to radiation (dose enhancement ratio = 2.47; P = 0.002) in clonogenic assay. In addition, the combination ABT-737/rapamycin/radiation showed a dramatic tumor growth delay in a mouse xenograft model. In vivo immunohistochemistry staining showed that combination therapy yielded over a 100% increase in caspase-3 activity (apoptosis) and a 6-fold decrease in p62 protein level (indicative of autophagic flux) compared with radiation alone control group. Moreover, cell proliferation (Ki-67 staining) was reduced by 77% (P = 0.001) and vascular density (von Willebrand factor staining) by 67.5% (P = 0.09) compared with radiation alone. Additional in vitro studies in human umbilical vein endothelial cells indicated that combined therapy also significantly decreases tubule formation. CONCLUSION: These results suggest that concurrent induction of apoptosis and autophagy enhances radiation therapy both in vitro and in lung cancer xenograft models. Further investigations are warranted to assess the clinical potential of such strategy in lung cancerpatients.
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