Efficacy of anti‐insulin‐like growth factor I receptor monoclonal antibody cixutumumab in mesothelioma is highly correlated with insulin growth factor‐I receptor sites/cell

Insulin growth factor‐I receptor (IGF‐IR) is expressed in mesothelioma and therefore an attractive target for therapy. The antitumor activity of cixutumumab, a humanized monoclonal antibody to IGF‐IR, in mesothelioma and relationship to IGF‐IR expression was investigated using eight early passage tumor cells obtained from patients, nine established cell lines and an in vivo human mesothelioma tumor xenograft model. Although IGF‐IR expression at the mRNA and protein level was present in all mesothelioma cells, using a quantitative ELISA immunoassay, there was considerable variability of IGF‐IR expression ranging from 1 to 14 ng/mg of lysate. Using flow cytometry, the number of IGF‐IR surface receptors varied from ≈2,000 to 50,000 sites/cell. Cells expressing >10,000 sites/cell had greater than 10% growth inhibition when treated with cixutumumab (100 μg/ml). Cixutumumab also induced antibody‐dependent cell‐mediated toxicity (>10% specific lysis) in cell lines, which had >20,000 IGF‐IR sites/cell. Treatment with cixutumumab decreased phosphorylation of IGF‐IR, Akt and Erk in cell lines, H226 and H28 having 24,000 and 51,000 IGF‐IR sites/cell, respectively, but not in the cell line H2052 with 3,000 IGF‐IR sites/cell. In vivo , cixutumumab treatment delayed growth of H226 mesothelioma tumor xenografts in mice and improved the overall survival of these mice compared to mice treated with saline ( p < 0.004). Our results demonstrate that the antitumor efficacy of cixutumumab including inhibition of IGF‐IR downstream signaling is highly correlated with IGF‐IR sites/cell. A phase II clinical trial of cixutumumab is currently ongoing for the treatment of patients with mesothelioma.