AIM: The monoclonal antibody cetuximab, targeting the epidermal growth factor receptor (EGFR), is a promising molecular targeting agent to be used in combination with radiation for anticancer therapy. In this study, effects of cetuximab in combination with alpha-emitting radioimmunotherapy (RIT) in a panel of cultured human squamous cell carcinomas (SCCs) were assessed. METHODS: SCC cell lines were characterized and treated with cetuximab in combination with anti-CD44v6 RIT using the astatinated chimeric monoclonal antibody U36 ((211)At-cMAb U36). Effects on (211)At-cMAb U36 uptake, internalization and cell proliferation were then assessed in SCC cells. RESULTS: Cetuximab in combination with (211)At-cMAb U36 mediated increased growth inhibition compared to RIT or cetuximab alone in two cell lines. However, cetuximab also mediated radioprotective effects compared to RIT alone in two cell lines. The radioprotective effects occurred in the cell lines in which cetuximab clearly inhibited cell growth during radiation exposure. Cetuximab treatment also influenced (211)At-cMAb-U36 uptake and internalization, suggesting interactions between CD44v6 and EGFR. CONCLUSIONS: Results from this study demonstrate the vast importance of further clarifying the mechanisms of cetuximab and radiation response, and the relationship between EGFR and suitable RIT targets. This is important not only in order to avoid potential radioprotective effects, but also in order to find and utilize potential synergistic effects from these combinations.
AIM: The monoclonal antibody cetuximab, targeting the epidermal growth factor receptor (EGFR), is a promising molecular targeting agent to be used in combination with radiation for anticancer therapy. In this study, effects of cetuximab in combination with alpha-emitting radioimmunotherapy (RIT) in a panel of cultured humansquamous cell carcinomas (SCCs) were assessed. METHODS: SCC cell lines were characterized and treated with cetuximab in combination with anti-CD44v6 RIT using the astatinated chimeric monoclonal antibody U36 ((211)At-cMAb U36). Effects on (211)At-cMAb U36 uptake, internalization and cell proliferation were then assessed in SCC cells. RESULTS:Cetuximab in combination with (211)At-cMAb U36 mediated increased growth inhibition compared to RIT or cetuximab alone in two cell lines. However, cetuximab also mediated radioprotective effects compared to RIT alone in two cell lines. The radioprotective effects occurred in the cell lines in which cetuximab clearly inhibited cell growth during radiation exposure. Cetuximab treatment also influenced (211)At-cMAb-U36 uptake and internalization, suggesting interactions between CD44v6 and EGFR. CONCLUSIONS: Results from this study demonstrate the vast importance of further clarifying the mechanisms of cetuximab and radiation response, and the relationship between EGFR and suitable RIT targets. This is important not only in order to avoid potential radioprotective effects, but also in order to find and utilize potential synergistic effects from these combinations.
Authors: Anna-Karin Haylock; Diana Spiegelberg; Anja C Mortensen; Ram K Selvaraju; Johan Nilvebrant; Olof Eriksson; Vladimir Tolmachev; Marika V Nestor Journal: Int J Oncol Date: 2015-12-14 Impact factor: 5.650