ATP stimulates GRK-3 phosphorylation and β-arrestin-2-dependent internalization of P2X7 receptor

The objective of this study was to understand the mechanisms involved in P2X7 receptor activation. Treatments with ATP or with the P2X7 receptor-specific ligand 2',3'-O-(4-benzoylbenzoyl)adenosine 5'-triphosphate (BzATP) induced pore formation, but the effect was slower in CaSki cells...

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Veröffentlicht in:American Journal of Physiology: Cell Physiology 2005-06, Vol.57 (6), p.C1342-C1356
Hauptverfasser: FENG, Ying-Hong, LIQIN WANG, QIFANG WANG, XIN LI, ROBIN ZENG, GORODESKI, George I
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Sprache:eng
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Zusammenfassung:The objective of this study was to understand the mechanisms involved in P2X7 receptor activation. Treatments with ATP or with the P2X7 receptor-specific ligand 2',3'-O-(4-benzoylbenzoyl)adenosine 5'-triphosphate (BzATP) induced pore formation, but the effect was slower in CaSki cells expressing endogenous P2X7 receptor than in human embryonic kidney (HEK)-293 cells expressing exogenous P2X7 receptor (HEK-293-hP2X7-R). In both types of cells Western blots revealed expression of three forms of the receptor: the functional 85-kDa form present mainly in the membrane and 65- and 18-kDa forms expressed in both the plasma membrane and the cytosol. Treatments with ATP transiently decreased the 85-kDa form and increased the 18-kDa form in the membrane, suggesting internalization, degradation, and recycling of the receptor. In CaSki cells ATP stimulated phosphorylation of the 85-kDa form on tyrosine and serine residues. Phosphorylation on threonine residues increased with added ATP, and it increased ATP requirements for phosphorylation on tyrosine and serine residues, suggesting a dominant-negative effect. In both CaSki and in HEK-293-hP2X7-R cells ATP also increased binding of the 85-kDa form to G protein-coupled receptor kinase (GRK)-3, {beta}-arrestin-2, and dynamin, and it stimulated {beta}-arrestin-2 redistribution into submembranous regions of the cell. These results suggest a novel mechanism for P2X7 receptor action, whereby activation involves a GRK-3-, {beta}-arrestin-2-, and dynamin-dependent internalization of the receptor into clathrin domains, followed in part by receptor degradation as well as receptor recycling into the plasma membrane. [PUBLICATION ABSTRACT]
ISSN:0363-6143
1522-1563