Combination of the pro-apoptotic TRAIL-receptor antibody mapatumumab with ionizing radiation strongly increases long-term tumor control under ambient and hypoxic conditions.

PURPOSE: Mapatumumab, an agonistic tumor necrosis factor-related apoptosis inducing ligand-receptor antibody, exerts highly synergistic apoptotic effects in vitro and in short-term growth delay assays when combined with irradiation. Because it remained unclear in how far these effects influence local tumor control, long-term experiments using a colorectal xenograft model were undertaken.
MATERIAL AND METHODS: Experiments were performed with irradiation (5 x 3 Gy, d1-5) and mapatumumab (10 mg/kg) in Colo205-xenograft-bearing NMRI (nu/nu) nude mice. Graded top up doses were delivered on the tumor-bearing hind leg under ambient and hypoxic conditions; follow-up was 270 days. Growth delay and local tumor control were end points of the study. Statistical analysis of the experiments included calculation of tumor regrowth and local tumor control.
RESULTS: After combined treatment, a pronounced tumor regrowth-delay was observed when compared with irradiation alone. Long-term experiments revealed a highly significant increase in local tumor control for ambient (p = 0.00076) and hypoxic treatment (p = 0.000069).
CONCLUSIONS: The present data demonstrate for the first time that combination of a pro-apoptotic antibody with irradiation results in evidently reduced tumor regrowth times and subsequently highly increased local tumor control under normoxic and hypoxic conditions in a xenograft mouse model.