Stabilizing a Flexible Interdomain Hinge Region Harboring the SMB Binding Site Drives uPAR into Its Closed Conformation

Baoyu Zhao; Sonu Gandhi; Cai Yuan; Zhipu Luo; Rui Li; Henrik Gårdsvoll; Valentina de Lorenzi; Nicolai Sidenius; Mingdong Huang; Michael Ploug

doi:10.1016/j.jmb.2015.01.022

Stabilizing a Flexible Interdomain Hinge Region Harboring the SMB Binding Site Drives uPAR into Its Closed Conformation

Baoyu Zhao, Sonu Gandhi, Cai Yuan, Zhipu Luo, Rui Li, Henrik Gårdsvoll, Valentina de Lorenzi, Nicolai Sidenius, Mingdong Huang, Michael Ploug

13 Citations (Scopus)

Abstract

The urokinase-type plasminogen activator receptor (uPAR) is a multidomain glycolipid-anchored membrane protein, which facilitates extracellular matrix remodeling by focalizing plasminogen activation to cell surfaces via its high-affinity interaction with uPA. The modular assembly of its three LU (Ly6/uPAR-like) domains is inherently flexible and binding of uPA drives uPAR into its closed conformation, which presents the higher-affinity state for vitronectin thus providing an allosteric regulatory mechanism. Using a new class of epitope-mapped anti-uPAR monoclonal antibodies (mAbs), we now demonstrate that the reciprocal stabilization is indeed also possible. By surface plasmon resonance studies, we show that these mAbs and vitronectin have overlapping binding sites on uPAR and that they share Arg⁹¹ as hotspot residue in their binding interfaces. The crystal structure solved for one of these uPAR·mAb complexes at 3.0 Å clearly shows that this mAb preselects the closed uPAR conformation with an empty but correctly assembled large hydrophobic binding cavity for uPA. Accordingly, these mAbs inhibit the uPAR-dependent lamellipodia formation and migration on vitronectin-coated matrices irrespective of the conformational status of uPAR and its occupancy with uPA. This is the first study to the best of our knowledge, showing that the dynamic assembly of the three LU domains in uPAR^wt can be driven toward the closed form by an external ligand, which is not engaging the hydrophobic uPA binding cavity. As this binding interface is also exploited by the somatomedin B domain of vitronectin, therefore, this relationship should be taken into consideration when exploring uPAR-dependent cell adhesion and migration in vitronectin-rich environments.

Original language	English
Journal	Journal of Molecular Biology
Volume	427
Issue number	6B
Pages (from-to)	1389-1403
Number of pages	15
ISSN	0022-2836
DOIs	https://doi.org/10.1016/j.jmb.2015.01.022
Publication status	Published - 27 Mar 2015

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@article{f26eb70fd2a04eb49f28c2d3769e0056,

title = "Stabilizing a Flexible Interdomain Hinge Region Harboring the SMB Binding Site Drives uPAR into Its Closed Conformation",

abstract = "The urokinase-type plasminogen activator receptor (uPAR) is a multidomain glycolipid-anchored membrane protein, which facilitates extracellular matrix remodeling by focalizing plasminogen activation to cell surfaces via its high-affinity interaction with uPA. The modular assembly of its three LU (Ly6/uPAR-like) domains is inherently flexible and binding of uPA drives uPAR into its closed conformation, which presents the higher-affinity state for vitronectin thus providing an allosteric regulatory mechanism. Using a new class of epitope-mapped anti-uPAR monoclonal antibodies (mAbs), we now demonstrate that the reciprocal stabilization is indeed also possible. By surface plasmon resonance studies, we show that these mAbs and vitronectin have overlapping binding sites on uPAR and that they share Arg91 as hotspot residue in their binding interfaces. The crystal structure solved for one of these uPAR·mAb complexes at 3.0 {\AA} clearly shows that this mAb preselects the closed uPAR conformation with an empty but correctly assembled large hydrophobic binding cavity for uPA. Accordingly, these mAbs inhibit the uPAR-dependent lamellipodia formation and migration on vitronectin-coated matrices irrespective of the conformational status of uPAR and its occupancy with uPA. This is the first study to the best of our knowledge, showing that the dynamic assembly of the three LU domains in uPARwt can be driven toward the closed form by an external ligand, which is not engaging the hydrophobic uPA binding cavity. As this binding interface is also exploited by the somatomedin B domain of vitronectin, therefore, this relationship should be taken into consideration when exploring uPAR-dependent cell adhesion and migration in vitronectin-rich environments.",

author = "Baoyu Zhao and Sonu Gandhi and Cai Yuan and Zhipu Luo and Rui Li and Henrik G{\aa}rdsvoll and {de Lorenzi}, Valentina and Nicolai Sidenius and Mingdong Huang and Michael Ploug",

note = "Copyright {\textcopyright} 2015. Published by Elsevier Ltd.",

year = "2015",

month = mar,

day = "27",

doi = "10.1016/j.jmb.2015.01.022",

language = "English",

volume = "427",

pages = "1389--1403",

journal = "Journal of Molecular Biology",

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TY - JOUR

T1 - Stabilizing a Flexible Interdomain Hinge Region Harboring the SMB Binding Site Drives uPAR into Its Closed Conformation

AU - Zhao, Baoyu

AU - Gandhi, Sonu

AU - Yuan, Cai

AU - Luo, Zhipu

AU - Li, Rui

AU - Gårdsvoll, Henrik

AU - de Lorenzi, Valentina

AU - Sidenius, Nicolai

AU - Huang, Mingdong

AU - Ploug, Michael

PY - 2015/3/27

Y1 - 2015/3/27

N2 - The urokinase-type plasminogen activator receptor (uPAR) is a multidomain glycolipid-anchored membrane protein, which facilitates extracellular matrix remodeling by focalizing plasminogen activation to cell surfaces via its high-affinity interaction with uPA. The modular assembly of its three LU (Ly6/uPAR-like) domains is inherently flexible and binding of uPA drives uPAR into its closed conformation, which presents the higher-affinity state for vitronectin thus providing an allosteric regulatory mechanism. Using a new class of epitope-mapped anti-uPAR monoclonal antibodies (mAbs), we now demonstrate that the reciprocal stabilization is indeed also possible. By surface plasmon resonance studies, we show that these mAbs and vitronectin have overlapping binding sites on uPAR and that they share Arg91 as hotspot residue in their binding interfaces. The crystal structure solved for one of these uPAR·mAb complexes at 3.0 Å clearly shows that this mAb preselects the closed uPAR conformation with an empty but correctly assembled large hydrophobic binding cavity for uPA. Accordingly, these mAbs inhibit the uPAR-dependent lamellipodia formation and migration on vitronectin-coated matrices irrespective of the conformational status of uPAR and its occupancy with uPA. This is the first study to the best of our knowledge, showing that the dynamic assembly of the three LU domains in uPARwt can be driven toward the closed form by an external ligand, which is not engaging the hydrophobic uPA binding cavity. As this binding interface is also exploited by the somatomedin B domain of vitronectin, therefore, this relationship should be taken into consideration when exploring uPAR-dependent cell adhesion and migration in vitronectin-rich environments.

AB - The urokinase-type plasminogen activator receptor (uPAR) is a multidomain glycolipid-anchored membrane protein, which facilitates extracellular matrix remodeling by focalizing plasminogen activation to cell surfaces via its high-affinity interaction with uPA. The modular assembly of its three LU (Ly6/uPAR-like) domains is inherently flexible and binding of uPA drives uPAR into its closed conformation, which presents the higher-affinity state for vitronectin thus providing an allosteric regulatory mechanism. Using a new class of epitope-mapped anti-uPAR monoclonal antibodies (mAbs), we now demonstrate that the reciprocal stabilization is indeed also possible. By surface plasmon resonance studies, we show that these mAbs and vitronectin have overlapping binding sites on uPAR and that they share Arg91 as hotspot residue in their binding interfaces. The crystal structure solved for one of these uPAR·mAb complexes at 3.0 Å clearly shows that this mAb preselects the closed uPAR conformation with an empty but correctly assembled large hydrophobic binding cavity for uPA. Accordingly, these mAbs inhibit the uPAR-dependent lamellipodia formation and migration on vitronectin-coated matrices irrespective of the conformational status of uPAR and its occupancy with uPA. This is the first study to the best of our knowledge, showing that the dynamic assembly of the three LU domains in uPARwt can be driven toward the closed form by an external ligand, which is not engaging the hydrophobic uPA binding cavity. As this binding interface is also exploited by the somatomedin B domain of vitronectin, therefore, this relationship should be taken into consideration when exploring uPAR-dependent cell adhesion and migration in vitronectin-rich environments.

U2 - 10.1016/j.jmb.2015.01.022

DO - 10.1016/j.jmb.2015.01.022

M3 - Journal article

C2 - 25659907

SN - 0022-2836

VL - 427

SP - 1389

EP - 1403

JO - Journal of Molecular Biology

JF - Journal of Molecular Biology

IS - 6B

ER -

Stabilizing a Flexible Interdomain Hinge Region Harboring the SMB Binding Site Drives uPAR into Its Closed Conformation

Abstract

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