Post-translational Proteolytic Processing of the Calcium-independent Receptor of [alpha]-Latrotoxin (CIRL), a Natural Chimera of the Cell Adhesion Protein and the G Protein-coupled Receptor. ROLE OF THE G PROTEIN-COUPLED RECEPTOR PROTEOLYSIS SITE (GPS) MOTIF

The calcium-independent receptor of [alpha]-latrotoxin (CIRL), a neuronal cell surface receptor implicated in the regulation of exocytosis, is a natural chimera of the cell adhesion protein and the G protein-coupled receptor (GPCR). In contrast with canonic GPCRs, CIRL consists of two heterologous n...

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Veröffentlicht in:	The Journal of biological chemistry 2002-11, Vol.277 (48), p.46518-46526
Hauptverfasser:	Krasnoperov, V, Lu, Y, Buryanovsky, L, Neubert, T A, Ichtchenko, K, Petrenko, A G
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creator	Krasnoperov, V Lu, Y Buryanovsky, L Neubert, T A Ichtchenko, K Petrenko, A G
description	The calcium-independent receptor of [alpha]-latrotoxin (CIRL), a neuronal cell surface receptor implicated in the regulation of exocytosis, is a natural chimera of the cell adhesion protein and the G protein-coupled receptor (GPCR). In contrast with canonic GPCRs, CIRL consists of two heterologous non-covalently bound subunits, p120 and p85, due to endogenous proteolytic processing of the receptor precursor in the endoplasmic reticulum. Extracellularly oriented p120 contains hydrophilic cell adhesion domains, whereas p85 resembles a generic GPCR. We determined that the site of the CIRL cleavage is located within a juxtamembrane Cys- and Trp-rich domain of the N-terminal extracellular region of CIRL. Mutations in this domain make CIRL resistant to the cleavage and impair its trafficking. Therefore, we have named it GPS for G protein-coupled receptor proteolysis site. The GPS motif is found in homologous adhesion GPCRs and thus defines a novel receptor family. We postulate that the proteolytic processing and two-subunit structure is a common characteristic feature in the family of GPS-containing adhesion GPCRs.
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ROLE OF THE G PROTEIN-COUPLED RECEPTOR PROTEOLYSIS SITE (GPS) MOTIF</title><source>EZB-FREE-00999 freely available EZB journals</source><source>Alma/SFX Local Collection</source><creator>Krasnoperov, V ; Lu, Y ; Buryanovsky, L ; Neubert, T A ; Ichtchenko, K ; Petrenko, A G</creator><creatorcontrib>Krasnoperov, V ; Lu, Y ; Buryanovsky, L ; Neubert, T A ; Ichtchenko, K ; Petrenko, A G</creatorcontrib><description>The calcium-independent receptor of [alpha]-latrotoxin (CIRL), a neuronal cell surface receptor implicated in the regulation of exocytosis, is a natural chimera of the cell adhesion protein and the G protein-coupled receptor (GPCR). In contrast with canonic GPCRs, CIRL consists of two heterologous non-covalently bound subunits, p120 and p85, due to endogenous proteolytic processing of the receptor precursor in the endoplasmic reticulum. Extracellularly oriented p120 contains hydrophilic cell adhesion domains, whereas p85 resembles a generic GPCR. We determined that the site of the CIRL cleavage is located within a juxtamembrane Cys- and Trp-rich domain of the N-terminal extracellular region of CIRL. Mutations in this domain make CIRL resistant to the cleavage and impair its trafficking. Therefore, we have named it GPS for G protein-coupled receptor proteolysis site. The GPS motif is found in homologous adhesion GPCRs and thus defines a novel receptor family. 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title	Post-translational Proteolytic Processing of the Calcium-independent Receptor of [alpha]-Latrotoxin (CIRL), a Natural Chimera of the Cell Adhesion Protein and the G Protein-coupled Receptor. ROLE OF THE G PROTEIN-COUPLED RECEPTOR PROTEOLYSIS SITE (GPS) MOTIF
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