Abstract
Abstract HER3 is a member of the Human Epidermal Growth Factor Receptor (HER) family. HER3 is a kinase dead receptor, but by forming heterodimers with other HER family receptors, HER3 works as amplifier for PI3 kinase driven tumorigenesis. It has been reported that tumors treated with EGFR-, HER2- or cMET-targeted therapies can escape via HER3 activation or upregulation. HER3 is expressed in a large variety of tumors for example in non-small cell lung cancer (NSCLC), head and neck, colorectal, gastric, pancreatic, breast, ovarian and prostate cancer. Anti-HER3 antibodies can work via various mechanisms including: (1) blocking ligand (HRGs) binding to the receptor, (2) blocking heterodimerization with other HER family members (HER1, 2 and 4), (3) downregulation of the receptor from the cell surface, and (4) engaging immune effector functions such as antibody-dependent cellular cytotoxicity (ADCC). The first three mechanisms lead to inhibition of HER3 phosphorylation and downstream signaling thereby resulting in tumor cell growth inhibition, while ADCC is a mechanism of direct target cell killing triggered by cross-linking of Fc receptors on immune effector cells (e.g. NK cells, macrophages). GE-huMab-HER3 is a novel humanized and glycoengineered IgG1 antibody that binds to HER3 with high affinity. This antibody prevents ligand binding and receptor heterodimerization thereby blocking receptor phosphorylation. In various tumor xenograft models treatment with this antibody leads to substantial tumor growth inhibition. E.g. GE-huMab-HER3 treatment achieved >50% tumor growth inhibition in 10 out of 17 NSCLC models and in some cases even resulted in complete tumor remission. However, these xenograft experiments only reveal part of this antibody's therapeutic potential. A unique feature of GE-huMab-HER3 that differentiates it from other anti-HER3 antibodies, including AMG 888 and MM-121, is its ability to bind to human FcgRIIIa on immune effector cells with a 50-fold higher affinity than standard IgG1 antibodies, a property conferred by the engineered glycosylation of the antibody Fc region. Consequently, GE-huMab-HER3 exhibits superior potency and efficacy in ADCC, as shown in vitro using recombinant A549 cells and in vivo by its Fc mediated greater anti-tumor effect in A549 orthotopic mouse models compared to a non-glyco-engineered variant of the antibody, WT-huMab-HER3. The combination of strong signaling inhibition and enhanced ADCC capability renders GE-huMabHER3 a highly potent HER3-targeting agent. Phase I clinical testing of this promising novel compound is ongoing. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 103rd Annual Meeting of the American Association for Cancer Research; 2012 Mar 31-Apr 4; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2012;72(8 Suppl):Abstract nr 2508. doi:1538-7445.AM2012-2508
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