beta-arrestin control of late endosomal sorting facilitates decoy receptor function and chemokine gradient formation.
Publication year
2012Source
Development, 139, 16, (2012), pp. 2897-902ISSN
Annotation
01 augustus 2012
Publication type
Article / Letter to editor
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Organization
Cell Biology (UMC)
Journal title
Development
Volume
vol. 139
Issue
iss. 16
Page start
p. 2897
Page end
p. 902
Subject
NCMLS 5: Membrane transport and intracellular motility ONCOL 3: Translational researchAbstract
A crucial regulator of Cxcl12 is the decoy receptor Cxcr7, which controls the level of the chemokine in the tissue. The molecular mechanisms that enable Cxcr7 to function as an efficient molecular sink are not known. Using zebrafish primordial germ cells as a model, we identify a novel role for beta-arrestins in controlling the intracellular trafficking of Cxcr7. beta-arrestins facilitate the recycling of Cxcr7 from late endosomal compartments back to the plasma membrane, whereas the internalized ligand undergoes lysosomal degradation. beta-arrestins thus function in regulating chemokine gradient formation, allowing responding cells to discriminate between alternative migration targets in vivo.
This item appears in the following Collection(s)
- Academic publications [248188]
- Faculty of Medical Sciences [94077]
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