Chemokines at large: in-vivo mechanisms of their transport, presentation and clearance

Ian G Colditz; Martin A Schneider; Monika Pruenster; Antal Rot

Chemokines at large: in-vivo mechanisms of their transport, presentation and clearance

Ian G Colditz, Martin A Schneider, Monika Pruenster, Antal Rot

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

Abstract

Compelling evidence implicates chemokines in the induction of leukocyte emigration from blood into tissues. This arguably most fundamental effect of chemokines is accomplished by triggering cognate classical G-protein-coupled chemokine receptors on the leukocyte surface. In vitro, these same receptors mediate leukocyte migration; however, the mechanisms of chemokine-induced migration differ between in-vivo and in-vitro settings. Leukocyte egress from blood is greatly influenced by haemodynamic conditions and requires full cooperation of endothelial cells. The behaviour of chemokines in their "native habitat" in vivo is controlled by their interaction with several accessory molecules which influence immobilisation, transport, clearance and degradation of chemokines and thereby determine the sites and duration of their action. Here we discuss peculiarities of the in vivo actions of chemokines, the mechanisms of chemokine interaction with receptors and auxiliary molecules including interceptors, glycosaminoglycans and enzymes and illustrate how these interactions influence the outcome of chemokine activities in vivo.

Original language	English
Pages (from-to)	688-93
Number of pages	6
Journal	Thrombosis and haemostasis
Volume	97
Issue number	5
Publication status	Published - May 2007

Keywords

Animals
Biological Transport, Active
Chemokines
Chemotaxis, Leukocyte
Endothelial Cells
Humans
Leukocytes
Models, Immunological
Signal Transduction

Cite this

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title = "Chemokines at large: in-vivo mechanisms of their transport, presentation and clearance",

abstract = "Compelling evidence implicates chemokines in the induction of leukocyte emigration from blood into tissues. This arguably most fundamental effect of chemokines is accomplished by triggering cognate classical G-protein-coupled chemokine receptors on the leukocyte surface. In vitro, these same receptors mediate leukocyte migration; however, the mechanisms of chemokine-induced migration differ between in-vivo and in-vitro settings. Leukocyte egress from blood is greatly influenced by haemodynamic conditions and requires full cooperation of endothelial cells. The behaviour of chemokines in their {"}native habitat{"} in vivo is controlled by their interaction with several accessory molecules which influence immobilisation, transport, clearance and degradation of chemokines and thereby determine the sites and duration of their action. Here we discuss peculiarities of the in vivo actions of chemokines, the mechanisms of chemokine interaction with receptors and auxiliary molecules including interceptors, glycosaminoglycans and enzymes and illustrate how these interactions influence the outcome of chemokine activities in vivo.",

keywords = "Animals, Biological Transport, Active, Chemokines, Chemotaxis, Leukocyte, Endothelial Cells, Humans, Leukocytes, Models, Immunological, Signal Transduction",

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year = "2007",

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TY - JOUR

T1 - Chemokines at large

T2 - in-vivo mechanisms of their transport, presentation and clearance

AU - Colditz, Ian G

AU - Schneider, Martin A

AU - Pruenster, Monika

AU - Rot, Antal

PY - 2007/5

Y1 - 2007/5

N2 - Compelling evidence implicates chemokines in the induction of leukocyte emigration from blood into tissues. This arguably most fundamental effect of chemokines is accomplished by triggering cognate classical G-protein-coupled chemokine receptors on the leukocyte surface. In vitro, these same receptors mediate leukocyte migration; however, the mechanisms of chemokine-induced migration differ between in-vivo and in-vitro settings. Leukocyte egress from blood is greatly influenced by haemodynamic conditions and requires full cooperation of endothelial cells. The behaviour of chemokines in their "native habitat" in vivo is controlled by their interaction with several accessory molecules which influence immobilisation, transport, clearance and degradation of chemokines and thereby determine the sites and duration of their action. Here we discuss peculiarities of the in vivo actions of chemokines, the mechanisms of chemokine interaction with receptors and auxiliary molecules including interceptors, glycosaminoglycans and enzymes and illustrate how these interactions influence the outcome of chemokine activities in vivo.

AB - Compelling evidence implicates chemokines in the induction of leukocyte emigration from blood into tissues. This arguably most fundamental effect of chemokines is accomplished by triggering cognate classical G-protein-coupled chemokine receptors on the leukocyte surface. In vitro, these same receptors mediate leukocyte migration; however, the mechanisms of chemokine-induced migration differ between in-vivo and in-vitro settings. Leukocyte egress from blood is greatly influenced by haemodynamic conditions and requires full cooperation of endothelial cells. The behaviour of chemokines in their "native habitat" in vivo is controlled by their interaction with several accessory molecules which influence immobilisation, transport, clearance and degradation of chemokines and thereby determine the sites and duration of their action. Here we discuss peculiarities of the in vivo actions of chemokines, the mechanisms of chemokine interaction with receptors and auxiliary molecules including interceptors, glycosaminoglycans and enzymes and illustrate how these interactions influence the outcome of chemokine activities in vivo.

KW - Animals

KW - Biological Transport, Active

KW - Chemokines

KW - Chemotaxis, Leukocyte

KW - Endothelial Cells

KW - Humans

KW - Leukocytes

KW - Models, Immunological

KW - Signal Transduction

M3 - Article

C2 - 17479178

SN - 0340-6245

VL - 97

SP - 688

EP - 693

JO - Thrombosis and haemostasis

JF - Thrombosis and haemostasis

IS - 5

ER -