LPHN2 inhibits vascular permeability by differential control of endothelial cell adhesion

Chiara Camillo; Nicola Facchinello; Giulia Villari; Giulia Mana; Noemi Gioelli; Chiara Sandri; Matteo Astone; Dora Tortarolo; Fabiana Clapero; Dafne Gays; Roxana E. Oberkersch; Marco Arese; Luca Tamagnone; Donatella Valdembri; Massimo M. Santoro; Guido Serini

doi:10.1083/jcb.202006033

LPHN2 inhibits vascular permeability by differential control of endothelial cell adhesion

Chiara Camillo, Nicola Facchinello, Giulia Villari, Giulia Mana, Noemi Gioelli, Chiara Sandri, Matteo Astone, Dora Tortarolo, Fabiana Clapero, Dafne Gays, Roxana E. Oberkersch, Marco Arese, Luca Tamagnone, Donatella Valdembri, Massimo M. Santoro, Guido Serini

Risultato della ricerca: Contributo in rivista › Articolo in rivista

Abstract

Dynamic modulation of endothelial cell-to-cell and cell-to-extracellular matrix (ECM) adhesion is essential for blood vessel patterning and functioning. Yet the molecular mechanisms involved in this process have not been completely deciphered. We identify the adhesion G protein-coupled receptor (ADGR) Latrophilin 2 (LPHN2) as a novel determinant of endothelial cell (EC) adhesion and barrier function. In cultured ECs, endogenous LPHN2 localizes at ECM contacts, signals through cAMP/Rap1, and inhibits focal adhesion (FA) formation and nuclear localization of YAP/TAZ transcriptional regulators, while promoting tight junction (TJ) assembly. ECs also express an endogenous LPHN2 ligand, fibronectin leucine-rich transmembrane 2 (FLRT2), that prevents ECM-elicited EC behaviors in an LPHN2-dependent manner. Vascular ECs of lphn2a knock-out zebrafish embryos become abnormally stretched, display a hyperactive YAP/TAZ pathway, and lack proper intercellular TJs. Consistently, blood vessels are hyperpermeable, and intravascularly injected cancer cells extravasate more easily in lphn2a null animals. Thus, LPHN2 ligands, such as FLRT2, may be therapeutically exploited to interfere with cancer metastatic dissemination.

Lingua originale	English
pagine (da-a)	1-21
Numero di pagine	21
Rivista	THE JOURNAL OF CELL BIOLOGY
Volume	220
DOI	https://doi.org/10.1083/jcb.202006033
Stato di pubblicazione	Pubblicato - 2021

Keywords

CELL-TO-CELL INTERACTIONS
ENDOTHELIAL, VASCULAR PERMEABILITY
LPHN2

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Camillo, C., Facchinello, N., Villari, G., Mana, G., Gioelli, N., Sandri, C., Astone, M., Tortarolo, D., Clapero, F., Gays, D., Oberkersch, R. E., Arese, M., Tamagnone, L., Valdembri, D., Santoro, M. M., & Serini, G. (2021). LPHN2 inhibits vascular permeability by differential control of endothelial cell adhesion. THE JOURNAL OF CELL BIOLOGY, 220, 1-21. https://doi.org/10.1083/jcb.202006033

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title = "LPHN2 inhibits vascular permeability by differential control of endothelial cell adhesion",

abstract = "Dynamic modulation of endothelial cell-to-cell and cell-to-extracellular matrix (ECM) adhesion is essential for blood vessel patterning and functioning. Yet the molecular mechanisms involved in this process have not been completely deciphered. We identify the adhesion G protein-coupled receptor (ADGR) Latrophilin 2 (LPHN2) as a novel determinant of endothelial cell (EC) adhesion and barrier function. In cultured ECs, endogenous LPHN2 localizes at ECM contacts, signals through cAMP/Rap1, and inhibits focal adhesion (FA) formation and nuclear localization of YAP/TAZ transcriptional regulators, while promoting tight junction (TJ) assembly. ECs also express an endogenous LPHN2 ligand, fibronectin leucine-rich transmembrane 2 (FLRT2), that prevents ECM-elicited EC behaviors in an LPHN2-dependent manner. Vascular ECs of lphn2a knock-out zebrafish embryos become abnormally stretched, display a hyperactive YAP/TAZ pathway, and lack proper intercellular TJs. Consistently, blood vessels are hyperpermeable, and intravascularly injected cancer cells extravasate more easily in lphn2a null animals. Thus, LPHN2 ligands, such as FLRT2, may be therapeutically exploited to interfere with cancer metastatic dissemination.",

keywords = "CELL-TO-CELL INTERACTIONS, ENDOTHELIAL, VASCULAR PERMEABILITY, LPHN2, CELL-TO-CELL INTERACTIONS, ENDOTHELIAL, VASCULAR PERMEABILITY, LPHN2",

author = "Chiara Camillo and Nicola Facchinello and Giulia Villari and Giulia Mana and Noemi Gioelli and Chiara Sandri and Matteo Astone and Dora Tortarolo and Fabiana Clapero and Dafne Gays and Oberkersch, {Roxana E.} and Marco Arese and Luca Tamagnone and Donatella Valdembri and Santoro, {Massimo M.} and Guido Serini",

year = "2021",

doi = "10.1083/jcb.202006033",

language = "English",

volume = "220",

pages = "1--21",

journal = "THE JOURNAL OF CELL BIOLOGY",

issn = "0021-9525",

publisher = "Rockefeller University Press:1114 First Avenue, Fourth Floor:New York, NY 10021:(212)327-8572, EMAIL: [email protected], INTERNET: http://www.rockefeller.edu/rupress, Fax: (212)327-7944",

}

Camillo, C, Facchinello, N, Villari, G, Mana, G, Gioelli, N, Sandri, C, Astone, M, Tortarolo, D, Clapero, F, Gays, D, Oberkersch, RE, Arese, M, Tamagnone, L, Valdembri, D, Santoro, MM & Serini, G 2021, 'LPHN2 inhibits vascular permeability by differential control of endothelial cell adhesion', THE JOURNAL OF CELL BIOLOGY, vol. 220, pagg. 1-21. https://doi.org/10.1083/jcb.202006033

TY - JOUR

T1 - LPHN2 inhibits vascular permeability by differential control of endothelial cell adhesion

AU - Camillo, Chiara

AU - Facchinello, Nicola

AU - Villari, Giulia

AU - Mana, Giulia

AU - Gioelli, Noemi

AU - Sandri, Chiara

AU - Astone, Matteo

AU - Tortarolo, Dora

AU - Clapero, Fabiana

AU - Gays, Dafne

AU - Oberkersch, Roxana E.

AU - Arese, Marco

AU - Tamagnone, Luca

AU - Valdembri, Donatella

AU - Santoro, Massimo M.

AU - Serini, Guido

PY - 2021

Y1 - 2021

N2 - Dynamic modulation of endothelial cell-to-cell and cell-to-extracellular matrix (ECM) adhesion is essential for blood vessel patterning and functioning. Yet the molecular mechanisms involved in this process have not been completely deciphered. We identify the adhesion G protein-coupled receptor (ADGR) Latrophilin 2 (LPHN2) as a novel determinant of endothelial cell (EC) adhesion and barrier function. In cultured ECs, endogenous LPHN2 localizes at ECM contacts, signals through cAMP/Rap1, and inhibits focal adhesion (FA) formation and nuclear localization of YAP/TAZ transcriptional regulators, while promoting tight junction (TJ) assembly. ECs also express an endogenous LPHN2 ligand, fibronectin leucine-rich transmembrane 2 (FLRT2), that prevents ECM-elicited EC behaviors in an LPHN2-dependent manner. Vascular ECs of lphn2a knock-out zebrafish embryos become abnormally stretched, display a hyperactive YAP/TAZ pathway, and lack proper intercellular TJs. Consistently, blood vessels are hyperpermeable, and intravascularly injected cancer cells extravasate more easily in lphn2a null animals. Thus, LPHN2 ligands, such as FLRT2, may be therapeutically exploited to interfere with cancer metastatic dissemination.

AB - Dynamic modulation of endothelial cell-to-cell and cell-to-extracellular matrix (ECM) adhesion is essential for blood vessel patterning and functioning. Yet the molecular mechanisms involved in this process have not been completely deciphered. We identify the adhesion G protein-coupled receptor (ADGR) Latrophilin 2 (LPHN2) as a novel determinant of endothelial cell (EC) adhesion and barrier function. In cultured ECs, endogenous LPHN2 localizes at ECM contacts, signals through cAMP/Rap1, and inhibits focal adhesion (FA) formation and nuclear localization of YAP/TAZ transcriptional regulators, while promoting tight junction (TJ) assembly. ECs also express an endogenous LPHN2 ligand, fibronectin leucine-rich transmembrane 2 (FLRT2), that prevents ECM-elicited EC behaviors in an LPHN2-dependent manner. Vascular ECs of lphn2a knock-out zebrafish embryos become abnormally stretched, display a hyperactive YAP/TAZ pathway, and lack proper intercellular TJs. Consistently, blood vessels are hyperpermeable, and intravascularly injected cancer cells extravasate more easily in lphn2a null animals. Thus, LPHN2 ligands, such as FLRT2, may be therapeutically exploited to interfere with cancer metastatic dissemination.

KW - CELL-TO-CELL INTERACTIONS

KW - ENDOTHELIAL, VASCULAR PERMEABILITY

KW - LPHN2

KW - CELL-TO-CELL INTERACTIONS

KW - ENDOTHELIAL, VASCULAR PERMEABILITY

KW - LPHN2

UR - http://hdl.handle.net/10807/185375

U2 - 10.1083/jcb.202006033

DO - 10.1083/jcb.202006033

M3 - Article

SN - 0021-9525

VL - 220

SP - 1

EP - 21

JO - THE JOURNAL OF CELL BIOLOGY

JF - THE JOURNAL OF CELL BIOLOGY

ER -

LPHN2 inhibits vascular permeability by differential control of endothelial cell adhesion

Abstract

Keywords

OSS delle Nazioni Unite

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