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2011
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Dual IGF-I/II-Neutralizing Antibody MEDI-573 Potently Inhibits IGF Signaling and Tumor Growth.
Dual IGF-I/II-Neutralizing Antibody MEDI-573 Potently Inhibits IGF Signaling and Tumor Growth.
Gao, J., Chesebrough, J.W., Cartlidge, S.A., Ricketts, S.A., Incognito, L., Veldman-Jones, M., Blakey, D.C., Tabrizi, M., Jallal, B., Trail, P.A., Coats, S., Bosslet, K., Chang, Y.S.
Journal
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Cancer Res.
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Species
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Analytes Measured
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Akt
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IGF-1R
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IR
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IRS-1
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Matrix Tested
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Cell lysates
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Abstract
Insulin-like growth factors (IGF), IGF-I and IGF-II, are small polypeptides involved in regulating cell proliferation, survival, differentiation, and transformation. IGF activities are mediated through binding and activation of IGF-1R or insulin receptor isoform A (IR-A). The role of the IGF-1R pathway in promoting tumor growth and survival is well documented. Overexpression of IGF-II and IR-A is reported in multiple types of cancer and is proposed as a potential mechanism for cancer cells to develop resistance to IGF-1R-targeting therapy. MEDI-573 is a fully human antibody that neutralizes both IGF-I and IGF-II and inhibits IGF signaling through both the IGF-1R and IR-A pathways. Here, we show that MEDI-573 blocks the binding of IGF-I and IGF-II to IGF-1R or IR-A, leading to the inhibition of IGF-induced signaling pathways and cell proliferation. MEDI-573 significantly inhibited the in vivo growth of IGF-I- or IGF-II-driven tumors. Pharmacodynamic analysis demonstrated inhibition of IGF-1R phosphorylation in tumors in mice dosed with MEDI-573, indicating that the antitumor activity is mediated via inhibition of IGF-1R signaling pathways. Finally, MEDI-573 significantly decreased (18)F-fluorodeoxyglucose ((18)F-FDG) uptake in IGF-driven tumor models, highlighting the potential utility of (18)F-FDG-PET as a noninvasive pharmacodynamic readout for evaluating the use of MEDI-573 in the clinic. Taken together, these results demonstrate that the inhibition of IGF-I and IGF-II ligands by MEDI-573 results in potent antitumor activity and offers an effective approach to selectively target both the IGF-1R and IR-A signaling pathways.
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