Lydia Santell scite author profile

Binding of hepatocyte growth factor (HGF) to the receptor tyrosine kinase MET is implicated in the malignant process of multiple cancers, making disruption of this interaction a promising therapeutic strategy. However, targeting MET with bivalent antibodies can mimic HGF agonism via receptor dimerization. To address this limitation, we have developed onartuzumab, an Escherichia coliderived, humanized, and affinity-matured monovalent monoclonal antibody against MET, generated using the knob-into-hole technology that enables the antibody to engage the receptor in a one-to-one fashion. Onartuzumab potently inhibits HGF binding and receptor phosphorylation and signaling and has antibody-like pharmacokinetics and antitumor activity. Biochemical data and a crystal structure of a ternary complex of onartuzumab antigen-binding fragment bound to a MET extracellular domain fragment, consisting of the MET Sema domain fused to the adjacent Plexins, Semaphorins, Integrins domain (MET Sema-PSI), and the HGF β-chain demonstrate that onartuzumab acts specifically by blocking HGF α-chain (but not β-chain) binding to MET. These data suggest a likely binding site of the HGF α-chain on MET, which when dimerized leads to MET signaling. Onartuzumab, therefore, represents the founding member of a class of therapeutic monovalent antibodies that overcomes limitations of antibody bivalency for targets impacted by antibody crosslinking.scatter factor | HGFR | MetMAb | OA5D5

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Peptide exosite inhibitors of factor VIIa as anticoagulants

Dennis¹,

Eigenbrot²,

Skelton³

et al. 2000

Nature

201

202

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Potent anticoagulants have been derived by targeting the tissue factor-factor VIIa complex with naive peptide libraries displayed on M13 phage. The peptides specifically block the activation of factor X with a median inhibitory concentration of 1 nM and selectively inhibit tissue-factor-dependent clotting. The peptides do not bind to the active site of factor VIIa; rather, they work by binding to an exosite on the factor VIIa protease domain, and non-competitively inhibit activation of factor X and amidolytic activity. One such peptide (E-76) has a well defined structure in solution determined by NMR spectroscopy that is similar to the X-ray crystal structure when complexed with factor VIIa. These structural and functional studies indicate an allosteric 'switch' mechanism of inhibition involving an activation loop of factor VIIa and represent a new framework for developing inhibitors of serine proteases.

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The Factor VII Zymogen Structure Reveals Reregistration of β Strands during Activation

Eigenbrot¹,

Kirchhofer²,

Dennis³

et al. 2001

Structure

113

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Structural and Functional Basis of the Serine Protease-like Hepatocyte Growth Factor β-Chain in Met Binding and Signaling

Kirchhofer¹,

Yao

Peek³

et al. 2004

Journal of Biological Chemistry

109

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Conformational Lability in Serine Protease Active Sites: Structures of Hepatocyte Growth Factor Activator (HGFA) Alone and with the Inhibitory Domain from HGFA Inhibitor-1B

Shia¹,

Stamos²,

Kirchhofer³

et al. 2005

Journal of Molecular Biology

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Lydia Santell

Monovalent antibody design and mechanism of action of onartuzumab, a MET antagonist with anti-tumor activity as a therapeutic agent

Peptide exosite inhibitors of factor VIIa as anticoagulants

The Factor VII Zymogen Structure Reveals Reregistration of β Strands during Activation

Structural and Functional Basis of the Serine Protease-like Hepatocyte Growth Factor β-Chain in Met Binding and Signaling

Conformational Lability in Serine Protease Active Sites: Structures of Hepatocyte Growth Factor Activator (HGFA) Alone and with the Inhibitory Domain from HGFA Inhibitor-1B

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