Ionizing Radiation Increases Death Receptor 5 (DR5)-Mediated Cell Death, but Not Death Receptor 4 (DR4)-Mediated Cell Death in 3D Tumor Spheroids

Tumor necrosis factor (TNF)-related apoptosis-inducing ligand (TRAIL) is a potential therapeutic for cancer patients due to its tumor specificity. However, TRAIL resistance in cancer cells limits its development in clinical trials. Given that ionizing radiation (IR) is an established method of inducing DNA damage for cancer during radiotherapy, we applied a combined treatment of IR and TRAIL. Our study shows that the combination treatment of IR and TRAIL promoted cell death due to IR upregulating both DR4/DR5 receptors on the surface of human lung carcinoma cell line H460 and human colon cancer cell line DLD-1 2D cells. However, when cultured as 3D spheroids, we observed that IR enhanced DR5-specific TRAIL-induced cell death but attenuated DR4-specific TRAIL-induced cell death. The immunohistochemical analysis of 3D cell spheroid sections indicates that it is due to a lack of DR4 overexpression by IR. Our findings elucidate a potential explanation for the failure of the combination treatment of radiotherapy with TRAIL in clinical trials. Additionally, our findings advocate the potential efficacy of employing DR5-specific TRAIL in combination with radiation as a promising therapeutic strategy.