Abstract
The signaling capacity of seven-transmembrane/G-protein-coupled receptors (7TM/GPCRs) can be regulated through ligand-mediated receptor trafficking. Classically, the recycling of internalized receptors is associated with resensitization, whereas receptor degradation terminates signaling. We have shown previously that the incretin glucagon-like peptide-1 receptor (GLP-1R) internalizes fast and is primarily resensitized through recycling back to the cell surface. GLP-1R is expressed in pancreatic islets together with the closely related glucose-dependent insulinotropic polypeptide (GIPR) and glucagon (GCGR) receptors. The interaction and cross-talk between coexpressed receptors is a wide phenomenon of the 7TM/GPCR superfamily. Numerous reports show functional consequences for signaling and trafficking of the involved receptors. On the basis of the high structural similarity and tissue coexpression, we here investigated the potential cross-talk between GLP-1R and GIPR or GCGR in both trafficking and signaling pathways. Using a real-time time-resolved FRET-based internalization assay, we show that GLP-1R, GIPR, and GCGR internalize with differential properties. Remarkably, upon coexpression of the internalizing GLP-1R and the non-internalizing GIPR, GLP-1-mediated GLP-1R internalization was impaired in a GIPR concentration-dependent manner. As a functional consequence of such impaired internalization capability, GLP-1-mediated GLP-1R signaling was abrogated. A similar compromised signaling was found when GLP-1R internalization was abrogated by a dominant-negative version of dynamin (dynamin-1 K44E), which provides a mechanistic link between GLP-1R trafficking and signaling. This study highlights the importance of receptor internalization for full functionality of GLP-1R. Moreover, cross-talk between the two incretin receptors GLP-1R and GIPR is shown to alter receptor trafficking with functional consequences for GLP-1R signaling.
Highlights
Receptor trafficking and cross-talk regulate 7TM/GPCR signaling capacity
On the pancreatic -cell, glucagon-like peptide-1 (GLP-1) exhibits its insulinotropic function via the GLP-1 receptor (GLP-1R), which is a member of the family B seven-transmembrane/Gprotein-coupled receptors (7TM/GPCRs), together with the incretin glucose-dependent insulinotropic polypeptide (GIPR) and glucagon (GCGR) receptors [3]
Real-time Internalization of GCGR and GIPR in Comparison with glucagon-like peptide-1 receptor (GLP-1R)—Utilizing a novel time-resolved FRET-based real-time internalization assay, we previously showed that GLP-1R is a potent and fast internalizing receptor [13]
Summary
Receptor trafficking and cross-talk regulate 7TM/GPCR signaling capacity. Results: Inhibition of GLP-1R internalization in the presence of GIPR reduces GLP-1R signaling. Cross-talk between the two incretin receptors GLP-1R and GIPR is shown to alter receptor trafficking with functional consequences for GLP-1R signaling. On the pancreatic -cell, GLP-1 exhibits its insulinotropic function via the GLP-1 receptor (GLP-1R), which is a member of the family B seven-transmembrane/Gprotein-coupled receptors (7TM/GPCRs), together with the incretin glucose-dependent insulinotropic polypeptide (GIPR) and glucagon (GCGR) receptors [3]. Heteromerization between GLP-1R and the closely related GIPR has been reported to result in cross-talk with functional consequences for GLP-1R signaling [16, 17]. Because GLP-1R, GCGR, and GIPR are all (i) members of the family B 7TM/GPCRs based on their structural and sequential similarity, (ii) involved in blood glucose homeostasis regulation, and (iii) expressed in pancreatic islets [3], a functional cross-talk between these receptors could be anticipated. We investigated the functional consequences of GLP-1R cross-talk with the closely related GCGR and GIPR
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