Mapping part of the functional epitope for ligand binding on the receptor for urokinase-type plasminogen activator by site-directed mutagenesis

H Gårdsvoll; K Danø; M Ploug

Mapping part of the functional epitope for ligand binding on the receptor for urokinase-type plasminogen activator by site-directed mutagenesis

70 Citations (Scopus)

Abstract

The urokinase-type plasminogen activator receptor (uPAR) is a glycolipid anchored multidomain member of the Ly-6/uPAR protein domain superfamily. Studies by site-directed photoaffinity labeling, chemical cross-linking, and ligand-induced protection against chemical modification have highlighted the possible involvement of uPAR domain I and particularly loop 3 thereof in ligand binding (Ploug, M. (1998) Biochemistry 37, 16494-16505). Guided by these results we have now performed an alanine scanning analysis of this region in uPAR by site-directed mutagenesis and subsequently measured the effects thereof on the kinetics of uPA binding in real-time by surface plasmon resonance. Only four positions in loop 3 of uPAR domain I exhibited significant changes in the contribution to the free energy of uPA binding (DeltaDeltaG >/= 1.3 kcal mol(-1)) upon single-site substitutions to alanine (i.e. Arg(53), Leu(55), Tyr(57), and Leu(66)). The energetic impact of these four alanine substitutions was not caused by gross structural perturbations, since all monoclonal antibodies tested having conformation-dependent epitopes on this domain exhibited unaltered binding kinetics. These sites together with a three-dimensional structure for uPAR may provide an appropriate target for rational drug design aimed at developing new receptor binding antagonists with potential application in cancer therapy.

Original language	English
Journal	The Journal of Biological Chemistry
Volume	274
Issue number	53
Pages (from-to)	37995-8003
Number of pages	9
ISSN	0021-9258
Publication status	Published - 31 Dec 1999
Externally published	Yes

Keywords

Amino Acid Sequence
Base Sequence
DNA Primers
Epitope Mapping
Humans
Kinetics
Ligands
Models, Molecular
Molecular Sequence Data
Mutagenesis, Site-Directed
Receptors, Cell Surface
Receptors, Urokinase Plasminogen Activator
Thermodynamics
Urokinase-Type Plasminogen Activator
Journal Article
Research Support, Non-U.S. Gov't

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title = "Mapping part of the functional epitope for ligand binding on the receptor for urokinase-type plasminogen activator by site-directed mutagenesis",

abstract = "The urokinase-type plasminogen activator receptor (uPAR) is a glycolipid anchored multidomain member of the Ly-6/uPAR protein domain superfamily. Studies by site-directed photoaffinity labeling, chemical cross-linking, and ligand-induced protection against chemical modification have highlighted the possible involvement of uPAR domain I and particularly loop 3 thereof in ligand binding (Ploug, M. (1998) Biochemistry 37, 16494-16505). Guided by these results we have now performed an alanine scanning analysis of this region in uPAR by site-directed mutagenesis and subsequently measured the effects thereof on the kinetics of uPA binding in real-time by surface plasmon resonance. Only four positions in loop 3 of uPAR domain I exhibited significant changes in the contribution to the free energy of uPA binding (DeltaDeltaG >/= 1.3 kcal mol(-1)) upon single-site substitutions to alanine (i.e. Arg(53), Leu(55), Tyr(57), and Leu(66)). The energetic impact of these four alanine substitutions was not caused by gross structural perturbations, since all monoclonal antibodies tested having conformation-dependent epitopes on this domain exhibited unaltered binding kinetics. These sites together with a three-dimensional structure for uPAR may provide an appropriate target for rational drug design aimed at developing new receptor binding antagonists with potential application in cancer therapy.",

keywords = "Amino Acid Sequence, Base Sequence, DNA Primers, Epitope Mapping, Humans, Kinetics, Ligands, Models, Molecular, Molecular Sequence Data, Mutagenesis, Site-Directed, Receptors, Cell Surface, Receptors, Urokinase Plasminogen Activator, Thermodynamics, Urokinase-Type Plasminogen Activator, Journal Article, Research Support, Non-U.S. Gov't",

author = "H G{\aa}rdsvoll and K Dan{\o} and M Ploug",

year = "1999",

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language = "English",

volume = "274",

pages = "37995--8003",

journal = "The Journal of Biological Chemistry",

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TY - JOUR

T1 - Mapping part of the functional epitope for ligand binding on the receptor for urokinase-type plasminogen activator by site-directed mutagenesis

AU - Gårdsvoll, H

AU - Danø, K

AU - Ploug, M

PY - 1999/12/31

Y1 - 1999/12/31

N2 - The urokinase-type plasminogen activator receptor (uPAR) is a glycolipid anchored multidomain member of the Ly-6/uPAR protein domain superfamily. Studies by site-directed photoaffinity labeling, chemical cross-linking, and ligand-induced protection against chemical modification have highlighted the possible involvement of uPAR domain I and particularly loop 3 thereof in ligand binding (Ploug, M. (1998) Biochemistry 37, 16494-16505). Guided by these results we have now performed an alanine scanning analysis of this region in uPAR by site-directed mutagenesis and subsequently measured the effects thereof on the kinetics of uPA binding in real-time by surface plasmon resonance. Only four positions in loop 3 of uPAR domain I exhibited significant changes in the contribution to the free energy of uPA binding (DeltaDeltaG >/= 1.3 kcal mol(-1)) upon single-site substitutions to alanine (i.e. Arg(53), Leu(55), Tyr(57), and Leu(66)). The energetic impact of these four alanine substitutions was not caused by gross structural perturbations, since all monoclonal antibodies tested having conformation-dependent epitopes on this domain exhibited unaltered binding kinetics. These sites together with a three-dimensional structure for uPAR may provide an appropriate target for rational drug design aimed at developing new receptor binding antagonists with potential application in cancer therapy.

AB - The urokinase-type plasminogen activator receptor (uPAR) is a glycolipid anchored multidomain member of the Ly-6/uPAR protein domain superfamily. Studies by site-directed photoaffinity labeling, chemical cross-linking, and ligand-induced protection against chemical modification have highlighted the possible involvement of uPAR domain I and particularly loop 3 thereof in ligand binding (Ploug, M. (1998) Biochemistry 37, 16494-16505). Guided by these results we have now performed an alanine scanning analysis of this region in uPAR by site-directed mutagenesis and subsequently measured the effects thereof on the kinetics of uPA binding in real-time by surface plasmon resonance. Only four positions in loop 3 of uPAR domain I exhibited significant changes in the contribution to the free energy of uPA binding (DeltaDeltaG >/= 1.3 kcal mol(-1)) upon single-site substitutions to alanine (i.e. Arg(53), Leu(55), Tyr(57), and Leu(66)). The energetic impact of these four alanine substitutions was not caused by gross structural perturbations, since all monoclonal antibodies tested having conformation-dependent epitopes on this domain exhibited unaltered binding kinetics. These sites together with a three-dimensional structure for uPAR may provide an appropriate target for rational drug design aimed at developing new receptor binding antagonists with potential application in cancer therapy.

KW - Amino Acid Sequence

KW - Base Sequence

KW - DNA Primers

KW - Epitope Mapping

KW - Humans

KW - Kinetics

KW - Ligands

KW - Models, Molecular

KW - Molecular Sequence Data

KW - Mutagenesis, Site-Directed

KW - Receptors, Cell Surface

KW - Receptors, Urokinase Plasminogen Activator

KW - Thermodynamics

KW - Urokinase-Type Plasminogen Activator

KW - Journal Article

KW - Research Support, Non-U.S. Gov't

M3 - Journal article

C2 - 10608868

SN - 0021-9258

VL - 274

SP - 37995

EP - 38003

JO - The Journal of Biological Chemistry

JF - The Journal of Biological Chemistry

IS - 53

ER -

Mapping part of the functional epitope for ligand binding on the receptor for urokinase-type plasminogen activator by site-directed mutagenesis

Abstract

Keywords

UN SDGs

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