Bin Xie scite author profile

We combine proximity labeling and single molecule binding assays to discover transmembrane protein interactions in cells. We first screen for candidate binding partners by tagging the extracellular and cytoplasmic regions of a “bait” protein with BioID biotin ligase and identify proximal proteins that are biotin tagged on both their extracellular and intracellular regions. We then test direct binding interactions between proximal proteins and the bait, using single molecule atomic force microscope binding assays. Using this approach, we identify binding partners for the extracellular region of E-cadherin, an essential cell–cell adhesion protein. We show that the desmosomal proteins desmoglein-2 and desmocollin-3, the focal adhesion protein integrin-α2β1, the receptor tyrosine kinase ligand ephrin-B1, and the classical cadherin P-cadherin, all directly interact with E-cadherin ectodomains. Our data shows that combining extracellular and cytoplasmic proximal tagging with a biophysical binding assay increases the precision with which transmembrane ectodomain interactors can be identified.

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Mapping Transmembrane Binding Partners for E-Cadherin Ectodomains

Shafraz

Xie

Yamada

et al. 2021

Biophysical Journal

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Molecular mechanism for strengthening E-cadherin adhesion using a monoclonal antibody

Xie

Maker

Priest

et al. 2022

Preprint

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E-cadherin (Ecad) is an essential cell-cell adhesion protein with tumor suppression properties. The adhesive state of Ecad can be modified by the monoclonal antibody 19A11, which has potential applications in reducing cancer metastasis. Using x-ray crystallography, we determine the structure of 19A11 Fab bound to Ecad and show that the antibody binds to the first extracellular domain of Ecad near its primary adhesive motif - the strand-swap dimer interface. Molecular dynamics simulations and single molecule atomic force microscopy demonstrate that 19A11 interacts with Ecad in two distinct modes, one that strengthens the strand-swap dimer and one that does not alter adhesion. We show that adhesion is strengthened by the formation of a salt bridge between 19A11 and Ecad, which in turn stabilizes the swapped β-strand and its complimentary binding pocket. Our results identify mechanistic principles for engineering antibodies to enhance Ecad adhesion.

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Molecular mechanism for strengthening E-cadherin adhesion using a monoclonal antibody

Xie

Maker

Priest

et al. 2022

Proc. Natl. Acad. Sci. U.S.A.

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E-cadherin (Ecad) is an essential cell–cell adhesion protein with tumor suppression properties. The adhesive state of Ecad can be modified by the monoclonal antibody 19A11, which has potential applications in reducing cancer metastasis. Using X-ray crystallography, we determine the structure of 19A11 Fab bound to Ecad and show that the antibody binds to the first extracellular domain of Ecad near its primary adhesive motif: the strand–swap dimer interface. Molecular dynamics simulations and single-molecule atomic force microscopy demonstrate that 19A11 interacts with Ecad in two distinct modes: one that strengthens the strand–swap dimer and one that does not alter adhesion. We show that adhesion is strengthened by the formation of a salt bridge between 19A11 and Ecad, which in turn stabilizes the swapped β-strand and its complementary binding pocket. Our results identify mechanistic principles for engineering antibodies to enhance Ecad adhesion.

show abstract

Molecular mechanisms for strengthening E-cadherin adhesion using a monoclonal antibody

Xie

Priest

Maker

et al. 2022

Biophysical Journal

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Bin Xie

Mapping transmembrane binding partners for E-cadherin ectodomains

Mapping Transmembrane Binding Partners for E-Cadherin Ectodomains

Molecular mechanism for strengthening E-cadherin adhesion using a monoclonal antibody

Molecular mechanism for strengthening E-cadherin adhesion using a monoclonal antibody

Molecular mechanisms for strengthening E-cadherin adhesion using a monoclonal antibody

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