EGF Activates Its Receptor by Removing Interactions that Autoinhibit Ectodomain Dimerization

Ferguson, Kathryn M.; Berger, Mitchell B.; Mendrola, Jeannine M.; Cho, Hyun Soo; Leahy, Daniel J.; Lemmon, Mark A.

doi:10.1016/s1097-2765(03)00047-9

Cited by 684 publications

(810 citation statements)

References 47 publications

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“…The events leading to dimerization of EGFR upon ligand binding are now well understood, as the crystal structure of the extracellular domain of EGFR bound to ligand has been solved (Garrett et al, 2002;Ogiso et al, 2002). Upon binding ligand, the extracellular domain changes conformation from a closed to an extended configuration, thereby freeing a dimerization loop and allowing receptor dimerization (Ogiso et al, 2002;Burgess et al, 2003;Ferguson et al, 2003) (see Figure 2). As the …”

Section: Structure and Activation Of The Egfrmentioning

confidence: 99%

Direct interaction of Cbl with pTyr 1045 of the EGF receptor (EGFR) is required to sort the EGFR to lysosomes for degradation

Grøvdal

Stang

Sorkin

et al. 2004

Experimental Cell Research

159

142

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Section: Structure and Activation Of The Egfrmentioning

confidence: 99%

Direct interaction of Cbl with pTyr 1045 of the EGF receptor (EGFR) is required to sort the EGFR to lysosomes for degradation

Grøvdal

Stang

Sorkin

et al. 2004

Experimental Cell Research

159

142

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“…However, HER2 possesses tyrosine kinase activity, and seems to be the major signaling partner for EGFR family members through the formation of heteromeric complexes (2). Heterodimerization between two EGFR family members requires ligand binding (3,4), but the crystal structure of a truncated HER2 ectodomain suggests that HER2 is constitutively in the activated conformation and readily interacts with HER3 mostly and other EGFR family members (5). Overexpression of HER2 promotes ligand-independent formation of a HER2/HER3 receptor complex, a major oncogenic driver in HER2-overexpressing breast tumor cells (6).…”

Section: Introductionmentioning

confidence: 99%

Superior Antitumor Activity of a Novel Bispecific Antibody Cotargeting Human Epidermal Growth Factor Receptor 2 and Type I Insulin-like Growth Factor Receptor

Chen¹,

Zhang²,

Li³

et al. 2014

Molecular Cancer Therapeutics

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The humanized anti-HER2 monoclonal antibody (mAb) trastuzumab (Herceptin; Genentech) effectively inhibits human epidermal growth factor receptor 2 (HER2)-positive breast tumors. However, many patients responding to treatment often develop resistance. Cross-talk between type I insulin-like growth factor receptor (IGF-IR) and HER2 and elevated IGF-IR signaling have been implicated in tumor cell resistance to trastuzumab therapy. Previously, we reported that the anti-IGF-IR mAb m590 inhibits proliferation and migration of breast cancer MCF-7 cells in vitro. Here, we generated a "knobs-into-holes" bispecific antibody (Bi-Ab) against HER2 and IGF-IR by engineering trastuzumab and m590. We compared the effects of Bi-Ab treatment in vitro and in SKOV-3 HER2-and IGF-IR-overexpressing cancer xenograft mouse model with those of m590 and trastuzumab treatment alone or in combination. Bi-Ab effectively inhibited proliferation of HER2-and IGF-IR-overexpressing ovarian cancer SKOV-3 cells in vitro by ablating receptor phosphorylation and downstream PI3K/Akt and mitogen-activated protein kinase signaling. Bi-Ab more effectively inhibited cancer growth in SKOV-3 HER2-and IGF-IR-overexpressing cancer xenograft mouse model than m590 and trastuzumab alone or in combination. Mice bearing SKOV-3 HER2-and IGF-IR-overexpressing xenografts showed extensive and sustainable tumor regression when treated with Bi-Ab. Our results suggest that Bi-Ab has superior antitumor activity compared with monospecific antibodies, and cotargeting HER2 and IGF-IR may be clinically beneficial in minimizing the acquired resistance to trastuzumab therapy. Mol Cancer Ther; 13(1); 90-100. Ó2013 AACR.

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“…All EGFR receptors contain three different regions: an extracellular (ectodomain, ECD) ligand-binding region, a single membrane-spanning domain and a cytoplasmatic tyrosine kinase domain. The extracellular EGFR domains have been crystallographically elucidated by several research groups [3][4][5][6][7][8][9][10]. The x-ray structure-based models show the appearance of two large homologous domains (L) and two cysteinerich domains (CR), in the order L1-CR1-L2-CR2 which is simply known as I-II-III-IV domains, (see Scheme 1).…”

mentioning

confidence: 99%

Conformational flexibility of the ErbB2 ectodomain and trastuzumab antibody complex as revealed by molecular dynamics and principal component analysis

et al. 2012

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Human epidermal growth factor receptor 2 (ErbB2) is a transmembrane oncoprotein that is over expressed in breast cancer. A successful therapeutic treatment is a monoclonal antibody called trastuzumab which interacts with the ErbB2 extracellular domain (ErbB2-ECD). A better understanding of the detailed structure of the receptor-antibody interaction is indeed of prime interest for the design of more effective anticancer therapies. In order to discuss the flexibility of the complex ErbB2-ECD/ trastuzumab, we present, in this study, a multi-nanosecond molecular dynamics simulation (MD) together with an analysis of fluctuations, through a principal component analysis (PCA) of this system. Previous to this step and in order to validate the simulations, we have performed a detailed analysis of the variable antibody domain interactions with the extracellular domain IV of ErbB2. This structure has been statically elucidated by x-ray studies. Indeed, the simulation results are in excellent agreement with the available experimental information during the full trajectory. The PCA shows eigenvector fluctuations resulting in a hinge motion in which domain II and C H domains approach each other. This move is likely stabilized by the formation of H-bonds and salt bridge interactions between residues of the dimerization arm in the domain II and trastuzumab residues located in the C H domain. Finally, we discuss the flexibility of the MD/PCA model in relation with the static x-ray structure. A movement of the antibody toward the dimerization domain of the ErbB2 receptor is reported for the first time. This finding could have important consequences on the biological action of the monoclonal antibody.Keywords Extracellular ErbB2 receptor . Herceptin . Molecular dynamics . Principal component analysis . Trastuzumab IntroductionThe human epidermal growth factor receptors (EGFR) HER1 (ErbB1, EGFR), HER2 (ErbB2), HER3 (ErbB3) and HER4 (ErbB4) belong to the family of receptor tyrosine kinase proteins. These receptors are engaged in the regulation of many processes such as cell proliferation, differentiation and apoptosis. Loss of regulation of these receptors has a great impact in a number of human diseases, such as cancer [1,2]. All EGFR receptors contain three different regions: an extracellular (ectodomain, ECD) ligand-binding region, a single membrane-spanning domain and a cytoplasmatic tyrosine kinase domain. The extracellular EGFR domains have been crystallographically elucidated by several research groups [3][4][5][6][7][8][9][10]. The x-ray structure-based models show the appearance of two large homologous domains (L) and two cysteinerich domains (CR), in the order L1-CR1-L2-CR2 which is simply known as I-II-III-IV domains, (see Scheme 1).Electronic supplementary material The online version of this article

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EGF Activates Its Receptor by Removing Interactions that Autoinhibit Ectodomain Dimerization

Cited by 684 publications

References 47 publications

Direct interaction of Cbl with pTyr 1045 of the EGF receptor (EGFR) is required to sort the EGFR to lysosomes for degradation

Direct interaction of Cbl with pTyr 1045 of the EGF receptor (EGFR) is required to sort the EGFR to lysosomes for degradation

Superior Antitumor Activity of a Novel Bispecific Antibody Cotargeting Human Epidermal Growth Factor Receptor 2 and Type I Insulin-like Growth Factor Receptor

Conformational flexibility of the ErbB2 ectodomain and trastuzumab antibody complex as revealed by molecular dynamics and principal component analysis

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