Ilia Tikhomirov scite author profile

Nimotuzumab is an EGFR-targeting antibody that has demonstrated encouraging clinical results in the absence of severe side-effects observed with other approved anti-EGFR antibodies. We investigated whether different clinical behavior of nimotuzumab is related to its bivalent/monovalent binding profile. Binding properties of nimotuzumab and cetuximab, the most development of anti-EGFR antibodies, were studied in vitro using chip surfaces and cells with varying EGFR expression levels. Experimental observations demonstrated that in contrast to cetuximab, the intrinsic properties of nimotuzumab required bivalent binding for stable attachment to the cellular surface, leading to nimotuzumab selectively binding to cells that express moderate to high EGFR expression levels. At these conditions, both antibodies bound bivalently, and accumulated to similar degrees. When EGFR density is low, nimotuzumab monovalent interaction was transient, whereas cetuximab continued to interact strongly with the receptors. We compared the in vitro anti-tumor efficacy of nimotuzumab and cetuximab. Cetuximab decreased the cell viability and induced apoptosis for all the tested cell lines, effects which did not depend on EGFR expression level. In contrast, nimotuzumab also provoked significant anti-cellular effects, but its anti-tumor capacity decreased together with EGFR expression level. Cetuximab Fab fragment was able to impact tumor cell survival, whereas nimotuzumab fragment totally lost this effect. Tumor-xenograft experiments using cells with a high EGFR expression revealed similar tumor growth inhibiting effects for both antibodies. This study suggests an explanation for nimotuzumab clinical profile, whereby anti-tumor activity is obtained in absence of severe toxicities due to its properties of bivalent binding to EGFR.

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111In-Bn-DTPA-nimotuzumab with/without modification with nuclear translocation sequence (NLS) peptides: an Auger electron-emitting radioimmunotherapeutic agent for EGFR-positive and trastuzumab (Herceptin)-resistant breast cancer

Fasih

Fonge

Cai

et al. 2012

Breast Cancer Res Treat

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Increased expression of epidermal growth factor receptors (EGFR) in breast cancer (BC) is often associated with trastuzumab (Herceptin)-resistant forms of the disease and represents an attractive target for novel therapies. Nimotuzumab is a humanized IgG(1) monoclonal antibody that is in clinical trials for treatment of EGFR-overexpressing malignancies. We show here that nimotuzumab derivatized with benzylisothiocyanate diethylenetriaminepentaacetic acid for labelling with the subcellular range Auger electron-emitter, (111)In and modified with nuclear translocation sequence (NLS) peptides ((111)In-NLS-Bn-DTPA-nimotuzumab) was bound, internalized and transported to the nucleus of EGFR-positive BC cells. Emission of Auger electrons in close proximity to the nucleus caused multiple DNA double-strand breaks which diminished the clonogenic survival (CS) of MDA-MB-468 cells that have high EGFR density (2.4 × 10(6) receptors/cell) to less than 3 %. (111)In-Bn-DTPA-nimotuzumab without NLS peptide modification was sevenfold less effective for killing MDA-MB-468 cells. (111)In-Bn-DTPA-nimotuzumab with/without NLS peptide modification were equivalently cytotoxic to MDA-MB-231 and TrR1 BC cells that have moderate EGFR density (5.4 × 10(5) or 4.2 × 10(5) receptors/cell, respectively) reducing their CS by twofold. MDA-MB-231 cells have intrinsic trastuzumab resistance due to low HER2 density, whereas TrR1 cells have acquired resistance despite HER2 overexpression. Biodistribution and microSPECT/CT imaging revealed that (111)In-NLS-Bn-DTPA-nimotuzumab exhibited more rapid elimination from the blood and lower tumour uptake than (111)In-Bn-DTPA-nimotuzumab. Tumour uptake of the radioimmunoconjugates in mice with MDA-MB-468 xenografts was high (8-16 % injected dose/g) and was blocked by administration of an excess of unlabelled nimotuzumab, demonstrating EGFR specificity. We conclude that (111)In-Bn-DTPA-nimotuzumab with/without NLS peptide modification are promising Auger electron-emitting radioimmunotherapeutic agents for EGFR-positive BC, but (111)In-Bn-DTPA-nimotuzumab may be preferred due to its higher tumour uptake in vivo.

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Binding and functional profiling of antibody mutants guides selection of optimal candidates as antibody drug conjugates

et al. 2019

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An increasingly appreciated conundrum in the discovery of antibody drug conjugates (ADCs) is that an antibody that was selected primarily for strong binding to its cancer target may not serve as an optimal ADC. In this study, we performed mechanistic cell-based experiments to determine the correlation between antibody affinity, avidity, internalization and ADC efficacy. We used structure-guided design to assemble a panel of antibody mutants with predicted Her2 affinities ranging from higher to lower relative to the parent antibody, Herceptin. These antibodies were ranked for binding via SPR and via flow-cytometry on high-Her2 SKOV3 cells and low-Her2 MCF7 cells, the latter acting as a surrogate for low-Her2 normal cells. A subpanel of variants, representative of different Her2-binding affinities (2 strong, 2 moderate and 3 weak), were further screened via high-content imaging for internalization efficacies in high versus low-Her2 cells. Finally, these antibodies were evaluated in ADC cytotoxicity screening assays (using DM1 and MMAE secondary antibodies) and as antibody-drug conjugates (DM1 and PNU159682). Our results identified specific but weak Her2-binding variants as optimal candidates for developing DM1 and PNU ADCs since they exhibited high potencies (low to sub-nM) in high-Her2 SKOV3 cells and low toxicities in low-Her2 cells. The 2 strong-affinity variants were highly potent in SKOV3 cells but also showed significant toxicities in low-Her2 cells and therefore are predicted to be toxic in normal tissues. Our findings show that pharmacological profiling of an antibody library in multiple binding and functional assays allows for selection of optimal ADCs.

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Development of AVID100, a novel antibody–drug conjugate for the treatment of EGFR expressing solid tumors

O’Connor-McCourt¹,

Koropatnick²,

Maleki³

et al. 2016

European Journal of Cancer

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Abstract 1778: Nimotuzumab, a humanized antiepidermal growth factor receptor antibody, interacts with EGFRvIII

Jaramillo

Grothé

Baardsnes

et al. 2010

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Introduction: Glioblastomas frequently overexpress a variant form of EGFR, called variant III (EGFRvIII), which has an in-frame deletion of an 801-bp sequence in the extracellular domain. EGFRvIII does not bind EGF ligand but exhibits constitutive kinase activity that results in enhanced transformation, reduced apoptosis, and resistance to therapy. Nimotuzumab (Nmab) is an EGFR-targeting antibody that has demonstrated encouraging results in early clinical trials treating adult and pediatric brain tumors. Here we present data characterizing the interaction of Nmab with EGFRvIII. Methods: Binding of Nmab to the extracellular domain of wtEGFR and EGFRvIII was first characterized by SPR biosensor analysis: Nmab was captured via its Fc domain and varying concentrations of EGFRvIII and EGFRwt were flowed. Flow cytometry analysis was subsequently performed using a parental U87MG glioblastoma cell line and derivatives which were engineered to overexpress either wtEGFR or EGFRvIII. Results: Nmab bound EGFRvIII and EGFRwt with similar affinity, which was in the 10−8 M range. This KD is consistent with the previously reported affinity constant of Nmab for EGFRwt (Telavera et al, 2009). Binding was further analyzed by flow cytometry. Nmab bound both EGFRwt and EGFRvIII expressed on the surface of parental U87MG, U87MG EGFRvIII and U87MG wtEGFR cells. Additional data concerning effects of Nmab on EGFRvIII expressing cell lines will be presented. Conclusion: Nmab binds to wtEGFR and EGFRvIII with similar affinity, which supports development of the antibody as a therapeutic for glioblastoma. In U87MG glioblastoma cells, synergistic activity of Nmab in combination with radiotherapy has been previously reported (Diaz Miqueli et al, 2009). Nmab is currently being tested in an advanced randomized study in the first line setting for the treatment of adult glioma. Nmab is being tested in combination with radiation plus temozolomide, vs radiation plus temozolomide alone, with preliminary results expected in the second half of 2010. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 101st Annual Meeting of the American Association for Cancer Research; 2010 Apr 17-21; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2010;70(8 Suppl):Abstract nr 1778.

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Ilia Tikhomirov

Bivalent binding by intermediate affinity of nimotuzumab: A contribution to explain antibody clinical profile

111In-Bn-DTPA-nimotuzumab with/without modification with nuclear translocation sequence (NLS) peptides: an Auger electron-emitting radioimmunotherapeutic agent for EGFR-positive and trastuzumab (Herceptin)-resistant breast cancer

Binding and functional profiling of antibody mutants guides selection of optimal candidates as antibody drug conjugates

Development of AVID100, a novel antibody–drug conjugate for the treatment of EGFR expressing solid tumors

Abstract 1778: Nimotuzumab, a humanized antiepidermal growth factor receptor antibody, interacts with EGFRvIII

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