We previously reported on head and neck tumor xenografts that the tumor regression induced by a triple combination of irradiation (RT), anti-EGFR and anti-angiogenic therapies was followed, after treatment arrest, by tumor re-growth characterized by activation of the AKT signaling pathway. Since mTOR is the main AKT-related messenger, the aim of this study was to add the mTOR inhibitor temsirolimus to a tri-therapy with RT plus anti-EGFR and anti-angiogenic drugs in order to improve anti-tumor effects. The human head and neck cancer cell line CAL33 (over-expressing EGFR and secreting VEGF-A) was xenografted in nude mice. Treatment (20 mice per treatment group) was administered for 2 weeks and consisted of either vehicle (control), temsirolimus (5mg/kg i.p. five times a week), tri-therapy with RT (6 Gy three times a week) combined with cetuximab (0.5mg/kg i.p. five times a week) and bevacizumab (5mg/kg i.p. five times a week) or the temsirolimus-tri-therapy association. The time to reach a tumor volume of 2000 mm(3) was significantly different between the four treatment groups (Log Rank p<0.0001), with a median of 29.5, 44.5, 67.0 and 70.0 days for control, temsirolimus, tri-therapy and combination groups, respectively. The combination of temsirolimus plus tri-therapy produced the longest growth-inhibiting effects (tri-therapy versus combination, p=0.01). No significant interaction was observed between temsirolimus and the tri-therapy, suggesting that temsirolimus, on the one hand, and RT-cetuximab-bevacizumab, on the other, exert additive effects on tumor growth inhibition. These decreases observed on tumor growth were corroborated by the parallel decreases observed on tumor proliferation (Ki67) and on anti-apoptotic markers (Bcl2). These results suggest that temsirolimus exhibits synergistic antiproliferative effects when administered in combination with irradiation, anti-EGFR and anti-angiogenic therapies in head and neck cancer patients.
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