Phosphorylation analysis of G protein-coupled receptor by mass spectrometry: identification of a phosphorylation site in V2 vasopressin receptor.

Phosphorylation plays vital roles in the regulation and function of the V2 vasopressin receptor (V2R), a G protein-coupled receptor (GPCR) that is responsible for maintaining water homeostasis in the kidney. Through a combination of immunoaffinity purification, immobilized metal affinity chromatography, and nanoflow liquid chromatography tandem mass spectrometry, we identified a novel phosphorylation site (Ser(255)) in the third intracellular loop of human V2R. We showed that the third intracellular loop could be phosphorylated in vitro by protein kinase A, but not by Akt kinase, although sequence motif analysis predicated otherwise.

A role for ADP-ribosylation factor 6 in the processing of G-protein-coupled receptors.

After agonist-induced internalization, the vasopressin V2 receptor (V2R) does not recycle to the plasma membrane. The ADP-ribosylation factor (ARF) proteins initiate vesicular intracellular traffic by promoting the recruitment of adaptor proteins; thus, we sought to determine whether ARF6 could promote V2R recycling. Neither the agonist-induced internalization nor the recycling of the V2R was regulated by ARF6, but a constitutively active mutant of ARF6 reduced cell-surface V2Rs 10-fold in the absence of agonist treatment.

A role for K268 in V2R folding.

The V2 vasopressin receptor, a member of the rhodopsin subfamily of GPCRs, mediates arginine vasopressin control of water reabsorption in the kidney by activating Gs. Requirement of the third intracellular loop of the V2R for G(s) activation was identified by introducing V2R segments into the Gq coupled V1aR [Liu, J. and Wess, J.

XLalphas, the extra-long form of the alpha-subunit of the Gs G protein, is significantly longer than suspected, and so is its companion Alex.

Because of the use of alternate exons 1, mammals express two distinct forms of Gsalpha-subunits: the canonical 394-aa Gsalpha present in all tissues and a 700+-aa extra-long alphas (XLalphas) expressed in a more restricted manner. Both subunits transduce receptor signals into stimulation of adenylyl cyclase. The XL exon encodes the XL domain of XLalphas and, in a parallel ORF, a protein called Alex.

An expanded V2 receptor retention signal.

Following ligand-promoted internalization the human type 2 vasopressin receptor (hV2R) is not recycled to the cell surface after removal of the agonist. A retention motif consisting of a serine triplet present in the cytoplasmic tail was previously found to require for retention, but serine 357, and threonines 359, 360 located upstream were not examined. Evidence is now presented that substitution of these amino acids did not change V2 internalization although it reduced the levels of arginine vasopressin (AVP)-induced phosphorylation as compared to the wild type (WT).

GIP, a G-protein-coupled receptor interacting protein.

A novel protein was cloned while screening for partners interacting with the second intracellular loop of the V2 vasopressin receptor (V2R). The protein was named GIP as in G-protein-coupled receptor Interacting Protein; the corresponding gene was located on the 17th chromosome where three exons encode for a 379-amino-acid protein.GIP subcellular localization was studied by immunocytochemistry and also using a biotinylating agent.

V2R structure and diabetes insipidus.

For most audiences, the term "diabetes" conjures thoughts of high levels of blood glucose and of the symptoms that characterize diabetes mellitus. In the last few years, a spirited campaign spear-headed by the families of affected individuals has made progress in educating nonprofessional and medical communities about diabetes insipidus (DI), the other disease characterized by polyuria (i.e.