uPAR as anti-cancer target: evaluation of biomarker potential, histological localization, and antibody-based therapy

Ida K Lund; Martin Illemann; Tine Thurison; Ib J Christensen; Gunilla Høyer-Hansen

uPAR as anti-cancer target: evaluation of biomarker potential, histological localization, and antibody-based therapy

Ida K Lund, Martin Illemann, Tine Thurison, Ib J Christensen, Gunilla Høyer-Hansen

61 Citations (Scopus)

Abstract

Degradation of proteins in the extracellular matrix is crucial for the multistep process of cancer invasion and metastasis. Compelling evidence has demonstrated the urokinase receptor (uPAR) and its cognate ligand, the urokinase plasminogen activator (uPA), to play critical roles in the concerted action of several proteolytic systems in generation of a high proteolytic potential required for tissue remodeling processes. uPAR is additionally cleaved by uPA on the cell surface, liberating domain I, resulting in abrogated pericellular proteolysis. The expression of both uPAR and uPA is significantly up-regulated during cancer progression and is primarily confined to the tumor-associated stromal compartment. Furthermore, both uPAR and uPA have proven to be prognostic markers in several types of cancer; high levels indicating poor survival. The cleaved forms of uPAR are also prognostic markers, and a potential diagnostic and predictive impact of the different uPAR forms has been reported. Hence, pericellular proteolysis seems to be a suitable target for anti-cancer therapy and numerous approaches have been pursued. Targeting of this process may be achieved by preventing the binding of uPA to uPAR on the cell surface and/or by direct inhibition of the catalytic activity of uPA. Both strategies have been pursued and inhibition of these functions has shown effect in xenogenic cancer models. Pericellular proteolysis has also been inhibited in vivo in mouse models of wound healing and hepatic fibrinolysis using mouse monoclonal antibodies (mAbs) against mouse uPA or uPAR. These reagents will target uPA and uPAR in both stromal cells and cancer cells, and their therapeutic potential can now be assessed in syngenic mouse cancer models.

Original language	English
Journal	Current Drug Targets
Volume	12
Issue number	12
Pages (from-to)	1744-60
Number of pages	17
ISSN	1389-4501
Publication status	Published - Nov 2011

Keywords

Animals
Antibodies, Neoplasm
Antineoplastic Agents
Female
Humans
Male
Molecular Targeted Therapy
Neoplasm Proteins
Neoplasms
Receptors, Urokinase Plasminogen Activator
Signal Transduction
Tumor Markers, Biological
Urokinase-Type Plasminogen Activator

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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title = "uPAR as anti-cancer target: evaluation of biomarker potential, histological localization, and antibody-based therapy",

abstract = "Degradation of proteins in the extracellular matrix is crucial for the multistep process of cancer invasion and metastasis. Compelling evidence has demonstrated the urokinase receptor (uPAR) and its cognate ligand, the urokinase plasminogen activator (uPA), to play critical roles in the concerted action of several proteolytic systems in generation of a high proteolytic potential required for tissue remodeling processes. uPAR is additionally cleaved by uPA on the cell surface, liberating domain I, resulting in abrogated pericellular proteolysis. The expression of both uPAR and uPA is significantly up-regulated during cancer progression and is primarily confined to the tumor-associated stromal compartment. Furthermore, both uPAR and uPA have proven to be prognostic markers in several types of cancer; high levels indicating poor survival. The cleaved forms of uPAR are also prognostic markers, and a potential diagnostic and predictive impact of the different uPAR forms has been reported. Hence, pericellular proteolysis seems to be a suitable target for anti-cancer therapy and numerous approaches have been pursued. Targeting of this process may be achieved by preventing the binding of uPA to uPAR on the cell surface and/or by direct inhibition of the catalytic activity of uPA. Both strategies have been pursued and inhibition of these functions has shown effect in xenogenic cancer models. Pericellular proteolysis has also been inhibited in vivo in mouse models of wound healing and hepatic fibrinolysis using mouse monoclonal antibodies (mAbs) against mouse uPA or uPAR. These reagents will target uPA and uPAR in both stromal cells and cancer cells, and their therapeutic potential can now be assessed in syngenic mouse cancer models.",

keywords = "Animals, Antibodies, Neoplasm, Antineoplastic Agents, Female, Humans, Male, Molecular Targeted Therapy, Neoplasm Proteins, Neoplasms, Receptors, Urokinase Plasminogen Activator, Signal Transduction, Tumor Markers, Biological, Urokinase-Type Plasminogen Activator",

author = "Lund, {Ida K} and Martin Illemann and Tine Thurison and Christensen, {Ib J} and Gunilla H{\o}yer-Hansen",

year = "2011",

month = nov,

language = "English",

volume = "12",

pages = "1744--60",

journal = "Current Drug Targets",

issn = "1389-4501",

publisher = "Bentham Science Publishers",

number = "12",

}

TY - JOUR

T1 - uPAR as anti-cancer target

T2 - evaluation of biomarker potential, histological localization, and antibody-based therapy

AU - Lund, Ida K

AU - Illemann, Martin

AU - Thurison, Tine

AU - Christensen, Ib J

AU - Høyer-Hansen, Gunilla

PY - 2011/11

Y1 - 2011/11

N2 - Degradation of proteins in the extracellular matrix is crucial for the multistep process of cancer invasion and metastasis. Compelling evidence has demonstrated the urokinase receptor (uPAR) and its cognate ligand, the urokinase plasminogen activator (uPA), to play critical roles in the concerted action of several proteolytic systems in generation of a high proteolytic potential required for tissue remodeling processes. uPAR is additionally cleaved by uPA on the cell surface, liberating domain I, resulting in abrogated pericellular proteolysis. The expression of both uPAR and uPA is significantly up-regulated during cancer progression and is primarily confined to the tumor-associated stromal compartment. Furthermore, both uPAR and uPA have proven to be prognostic markers in several types of cancer; high levels indicating poor survival. The cleaved forms of uPAR are also prognostic markers, and a potential diagnostic and predictive impact of the different uPAR forms has been reported. Hence, pericellular proteolysis seems to be a suitable target for anti-cancer therapy and numerous approaches have been pursued. Targeting of this process may be achieved by preventing the binding of uPA to uPAR on the cell surface and/or by direct inhibition of the catalytic activity of uPA. Both strategies have been pursued and inhibition of these functions has shown effect in xenogenic cancer models. Pericellular proteolysis has also been inhibited in vivo in mouse models of wound healing and hepatic fibrinolysis using mouse monoclonal antibodies (mAbs) against mouse uPA or uPAR. These reagents will target uPA and uPAR in both stromal cells and cancer cells, and their therapeutic potential can now be assessed in syngenic mouse cancer models.

AB - Degradation of proteins in the extracellular matrix is crucial for the multistep process of cancer invasion and metastasis. Compelling evidence has demonstrated the urokinase receptor (uPAR) and its cognate ligand, the urokinase plasminogen activator (uPA), to play critical roles in the concerted action of several proteolytic systems in generation of a high proteolytic potential required for tissue remodeling processes. uPAR is additionally cleaved by uPA on the cell surface, liberating domain I, resulting in abrogated pericellular proteolysis. The expression of both uPAR and uPA is significantly up-regulated during cancer progression and is primarily confined to the tumor-associated stromal compartment. Furthermore, both uPAR and uPA have proven to be prognostic markers in several types of cancer; high levels indicating poor survival. The cleaved forms of uPAR are also prognostic markers, and a potential diagnostic and predictive impact of the different uPAR forms has been reported. Hence, pericellular proteolysis seems to be a suitable target for anti-cancer therapy and numerous approaches have been pursued. Targeting of this process may be achieved by preventing the binding of uPA to uPAR on the cell surface and/or by direct inhibition of the catalytic activity of uPA. Both strategies have been pursued and inhibition of these functions has shown effect in xenogenic cancer models. Pericellular proteolysis has also been inhibited in vivo in mouse models of wound healing and hepatic fibrinolysis using mouse monoclonal antibodies (mAbs) against mouse uPA or uPAR. These reagents will target uPA and uPAR in both stromal cells and cancer cells, and their therapeutic potential can now be assessed in syngenic mouse cancer models.

KW - Animals

KW - Antibodies, Neoplasm

KW - Antineoplastic Agents

KW - Female

KW - Humans

KW - Male

KW - Molecular Targeted Therapy

KW - Neoplasm Proteins

KW - Neoplasms

KW - Receptors, Urokinase Plasminogen Activator

KW - Signal Transduction

KW - Tumor Markers, Biological

KW - Urokinase-Type Plasminogen Activator

M3 - Journal article

C2 - 21707477

SN - 1389-4501

VL - 12

SP - 1744

EP - 1760

JO - Current Drug Targets

JF - Current Drug Targets

IS - 12

ER -

uPAR as anti-cancer target: evaluation of biomarker potential, histological localization, and antibody-based therapy

Abstract

Keywords

UN SDGs

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