Title : Regulation of
GIP and
GLP1 receptor cell surface expression by N-glycosylation and
receptor heteromerization
Abstract :
- In response to a meal, Glucose-dependent Insulinotropic Polypeptide ( GIP ) and Glucagon-like Peptide-1 ( GLP-1 ) are released from gut endocrine cells into the circulation and interact with their cognate G-protein coupled receptors ( GPCRs )
- Receptor activation results in tissue-selective pleiotropic responses that include augmentation of glucose-induced insulin secretion from pancreatic beta cells
- N-glycosylation and receptor oligomerization are co-translational processes that are thought to regulate the exit of functional GPCRs from the ER and their maintenance at the plasma membrane
- Despite the importance of these regulatory processes, their impact on functional expression of GIP and GLP-1 receptors has not been well studied
- Like many family B GPCRs , both the GIP and GLP-1 receptors possess a large extracellular N-terminus with multiple consensus sites for Asn-linked (N)-glycosylation
- Here, we show that each of these Asn residues is glycosylated when either human receptor is expressed in Chinese hamster ovary cells
- N-glycosylation enhances cell surface expression and function in parallel but exerts stronger control over the GIP receptor than the GLP-1 receptor
- N-glycosylation mainly lengthens receptor half-life by reducing degradation in the endoplasmic reticulum
- N-glycosylation is also required for expression of the GIP receptor at the plasma membrane and efficient GIP potentiation of glucose-induced insulin secretion from the INS-1 pancreatic beta cell line
- Functional expression of a GIP receptor mutant lacking N-glycosylation is rescued by co-expressed wild type GLP1 receptor , which, together with data obtained using Bioluminescence Resonance Energy Transfer, suggests formation of a GIP- GLP1 receptor heteromer
Output (sent_index, trigger,
protein,
sugar,
site):
- 6. glycosylated, , -, -, Asn residues
- 9. N-glycosylation, , GIP receptor, -, -
Output(Part-Of) (sent_index,
protein,
site):
*Output_Site_Fusion* (sent_index,
protein,
sugar,
site):