Migration of dendritic cells: Physical principles, molecular mechanisms, and functional implications

Mélina L. Heuzé; Pablo Vargas; Mélanie Chabaud; Maël Le Berre; Yan Jun Liu; Olivier Collin; Paola Solanes; Raphaël Voituriez; Matthieu Piel; Ana Maria Lennon-Duménil

doi:10.1111/imr.12108

Migration of dendritic cells: Physical principles, molecular mechanisms, and functional implications

Mélina L. Heuzé
, Pablo Vargas
, Mélanie Chabaud
, Maël Le Berre
, Yan Jun Liu
, Olivier Collin
, Paola Solanes
, Raphaël Voituriez
, Matthieu Piel
, Ana Maria Lennon-Duménil

Research output: Contribution to journal › Article › peer-review

Abstract

Dendritic cells (DCs) constitute a complex cell population that resides in both peripheral tissues and lymphoid organs. Their major function in tissues is to patrol their environment in search of danger-associated antigens to transport to lymph nodes and present to T lymphocytes. This process constitutes the first step of the adaptive immune response and relies on specific DC properties, including a high endocytic capacity as well as efficient motility in confined three-dimensional environments. Although cell motility has been widely studied, little is known on how the geometric characteristics of the environment influence DC migration and function. In this review, we give an overview of the basic physical principles and molecular mechanisms that control DC migration under confinement and discuss how such mechanisms impact the environment-patrolling capacity of DCs.

Original language	English
Pages (from-to)	240-254
Number of pages	15
Journal	Immunological Reviews
Volume	256
Issue number	1
DOIs	https://doi.org/10.1111/imr.12108
Publication status	Published - 1 Nov 2013
Externally published	Yes

Keywords

Confinement
Dendritic cells
Migration
Sampling

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10.1111/imr.12108

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abstract = "Dendritic cells (DCs) constitute a complex cell population that resides in both peripheral tissues and lymphoid organs. Their major function in tissues is to patrol their environment in search of danger-associated antigens to transport to lymph nodes and present to T lymphocytes. This process constitutes the first step of the adaptive immune response and relies on specific DC properties, including a high endocytic capacity as well as efficient motility in confined three-dimensional environments. Although cell motility has been widely studied, little is known on how the geometric characteristics of the environment influence DC migration and function. In this review, we give an overview of the basic physical principles and molecular mechanisms that control DC migration under confinement and discuss how such mechanisms impact the environment-patrolling capacity of DCs.",

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T2 - Physical principles, molecular mechanisms, and functional implications

AU - Heuzé, Mélina L.

AU - Vargas, Pablo

AU - Chabaud, Mélanie

AU - Le Berre, Maël

AU - Liu, Yan Jun

AU - Collin, Olivier

AU - Solanes, Paola

AU - Voituriez, Raphaël

AU - Piel, Matthieu

AU - Lennon-Duménil, Ana Maria

PY - 2013/11/1

Y1 - 2013/11/1

N2 - Dendritic cells (DCs) constitute a complex cell population that resides in both peripheral tissues and lymphoid organs. Their major function in tissues is to patrol their environment in search of danger-associated antigens to transport to lymph nodes and present to T lymphocytes. This process constitutes the first step of the adaptive immune response and relies on specific DC properties, including a high endocytic capacity as well as efficient motility in confined three-dimensional environments. Although cell motility has been widely studied, little is known on how the geometric characteristics of the environment influence DC migration and function. In this review, we give an overview of the basic physical principles and molecular mechanisms that control DC migration under confinement and discuss how such mechanisms impact the environment-patrolling capacity of DCs.

AB - Dendritic cells (DCs) constitute a complex cell population that resides in both peripheral tissues and lymphoid organs. Their major function in tissues is to patrol their environment in search of danger-associated antigens to transport to lymph nodes and present to T lymphocytes. This process constitutes the first step of the adaptive immune response and relies on specific DC properties, including a high endocytic capacity as well as efficient motility in confined three-dimensional environments. Although cell motility has been widely studied, little is known on how the geometric characteristics of the environment influence DC migration and function. In this review, we give an overview of the basic physical principles and molecular mechanisms that control DC migration under confinement and discuss how such mechanisms impact the environment-patrolling capacity of DCs.

KW - Confinement

KW - Dendritic cells

KW - Migration

KW - Sampling

UR - https://www.scopus.com/pages/publications/84885333309

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M3 - Article

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AN - SCOPUS:84885333309

SN - 0105-2896

VL - 256

SP - 240

EP - 254

JO - Immunological Reviews

JF - Immunological Reviews

IS - 1

ER -

Migration of dendritic cells: Physical principles, molecular mechanisms, and functional implications

Abstract

Keywords

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