Alix (AIP1) is a vasopressin receptor (V2R)-interacting protein that increases lysosomal degradation of the V2R

2007 ◽  
Vol 292 (5) ◽  
pp. F1303-F1313 ◽  
Author(s):  
Xianhua Yi ◽  
Richard Bouley ◽  
Herbert Y. Lin ◽  
Shaliha Bechoua ◽  
Tian-xiao Sun ◽  
...  
Keyword(s):  
Fluorescent Protein ◽  
Human Kidney ◽  
Lysosomal Degradation ◽  
Interacting Protein ◽  
Parathyroid Hormone Receptor ◽  
Gfp Fluorescence ◽  
Green Fluorescent ◽  
G Protein Coupled ◽  
Regulatory Event

The vasopressin type 2 receptor (V2R) is a G protein-coupled receptor that plays a central role in renal water reabsorption. Termination of ligand (vasopressin) stimulation is an important physiological regulatory event, but few proteins that interact with the V2R during downregulation after vasopressin (VP) binding have been identified. Using yeast two-hybrid screening of a human kidney cDNA library, we show that a 100-kDa protein called ALG-2-interacting protein X (Alix) interacts with the last 29 amino acids of the V2R COOH terminus. This was confirmed by pull-down assays using a GST-V2R-COOH-tail fusion protein. Alix was immunolocalized in principal cells of the kidney, which also express the V2R. The function of the Alix-V2R interaction was studied by transfecting Alix into LLC-PK1 epithelial cells expressing V2R-green fluorescent protein (GFP). Under basal conditions, V2R-GFP localized mainly at the plasma membrane. On VP treatment, V2R-GFP was internalized into perinuclear vesicles in the nontransfected cells. In contrast, V2R-GFP fluorescence was virtually undetectable 2 h after exposure to VP in cells that coexpressed Alix. Western blotting using an anti-GFP antibody showed marked degradation of the V2R after 2 h in the presence of VP and Alix, a time point at which little or no degradation was detected in the absence of Alix. In contrast, little or no degradation of the parathyroid hormone receptor was detectable in the presence or absence of Alix and/or the PTH ligand. The VP-induced disappearance of V2R-GFP was abolished by chloroquine, a lysosomal degradation inhibitor, but not by MG132, a proteosome inhibitor. These data suggest that Alix increases the rate of lysosomal degradation of V2R and may play an important regulatory role in the VP response by modulating V2R downregulation.

scholarly journals Heterologous downregulation of vasopressin type 2 receptor is induced by transferrin

2013 ◽  
Vol 304 (5) ◽  
pp. F553-F564 ◽  
Author(s):  
Richard Bouley ◽  
Paula Nunes ◽  
Billy Andriopoulos ◽  
Margaret McLaughlin ◽  
Matthew J. Webber ◽  
...  
Keyword(s):  
Fluorescent Protein ◽  
Dominant Negative ◽  
Target Cells ◽  
Intracellular Camp ◽  
Coated Pits ◽  
Parathyroid Hormone Receptor ◽  
Body Fluid Homeostasis ◽  
Green Fluorescent ◽  
G Protein Coupled

Vasopressin (VP) binds to the vasopressin type 2 receptor (V2R) to trigger physiological effects including body fluid homeostasis and blood pressure regulation. Signaling is terminated by receptor downregulation involving clathrin-mediated endocytosis and V2R degradation. We report here that both native and epitope-tagged V2R are internalized from the plasma membrane of LLC-PK1 kidney epithelial cells in the presence of another ligand, transferrin (Tf). The presence of iron-saturated Tf (holo-Tf; 4 h) reduced V2R binding sites at the cell surface by up to 33% while iron-free (apo-Tf) had no effect. However, no change in green fluorescent protein-tagged V2R distribution was observed in the presence of bovine serum albumin, atrial natriuretic peptide, or ANG II. Conversely, holo-Tf did not induce the internalization of another G protein-coupled receptor, the parathyroid hormone receptor. In contrast to the effect of VP, Tf did not increase intracellular cAMP or modify aquaporin-2 distribution in these cells, although addition of VP and Tf together augmented VP-induced V2R internalization. Tf receptor coimmunoprecipitated with V2R, suggesting that they interact closely, which may explain the additive effect of VP and Tf on V2R endocytosis. Furthermore, Tf-induced V2R internalization was abolished in cells expressing a dominant negative dynamin (K44A) mutant, indicating the involvement of clathrin-coated pits. We conclude that Tf can induce heterologous downregulation of the V2R and this might desensitize VP target cells without activating downstream V2R signaling events. It also provides new insights into urine-concentrating defects observed in rat models of hemochromatosis.

scholarly journals Enhanced Green Fluorescent Protein (GFP) fluorescence after polyelectrolyte caging

2006 ◽  
Vol 14 (21) ◽  
pp. 9815 ◽  
Author(s):  
Alberto Diaspro ◽  
Silke Krol ◽  
Barbara Campanini ◽  
Fabio Cannone ◽  
Giuseppe Chirico
Keyword(s):  
Green Fluorescent Protein ◽  
Enhanced Green Fluorescent Protein ◽  
Fluorescent Protein ◽  
Gfp Fluorescence ◽  
Green Fluorescent

scholarly journals Visualizing Microtubule-Dependent Vasopressin Type 2 Receptor Trafficking Using a New High-Affinity Fluorescent Vasopressin Ligand

Endocrinology ◽  
2011 ◽  
Vol 152 (10) ◽  
pp. 3893-3904 ◽  
Author(s):  
Sylvia Chen ◽  
Matthew J. Webber ◽  
Jean-Pierre Vilardaga ◽  
Ashok Khatri ◽  
Dennis Brown ◽  
...  
Keyword(s):  
Fluorescent Protein ◽  
Receptor Trafficking ◽  
Epifluorescence Microscopy ◽  
Intracellular Camp ◽  
Green Fluorescent ◽  
Perinuclear Area ◽  
Major Target ◽  
High Binding Affinity ◽  
Dependent Mechanism

The vasopressin receptor type 2 (V2R) is the major target of vasopressin (VP) in renal epithelial cells. Although it is known that VP induces V2R internalization, accumulation in the perinuclear area, and degradation, the V2R intracellular trafficking pathways remain elusive. We visualized this process by developing a new fluorescent VP analog tagged by tetramethylrhodamine (TMR)-[Lys-(PEG)2-Suc-TMR8]VP or (VPTMR). This ligand is fully functional as revealed by its high binding affinity toward V2R [(Kd) =157 ± 52 nm] and ability to increase intracellular cAMP 32-fold. VPTMR induced V2R internalization in LLC-PK1 cells expressing either a FLAG-tagged receptor (FLAG-V2R) or V2R C-terminally tagged with green fluorescent protein (GFP) (V2R-GFP). After internalization, VPTMR and V2R-GFP colocalized in the perinuclear area, suggesting that the hormone and receptor traffic along the same pathway. VPTMR and V2R colocalized initially with the early endosome markers EEA1 and Rab5, and later with the recycling and late endosome markers Rab11 and Rab25. Epifluorescence microscopy of LLC-PK1 cells expressing GFP-tagged microtubules (MT) showed that VPTMR-containing vesicles travel along the MT network, and even remain attached to MT during the metaphase and anaphase of mitosis. Colchicine, a MT-depolymerizing agent, abolished perinuclear accumulation of VPTMR, and Western blot analysis showed that VP-induced V2R-GFP degradation is markedly retarded, but not abolished, by colchicine (10 μM). We conclude that the new VPTMR ligand is suitable for dissecting V2R and VP internalization and trafficking in cells, and that V2R trafficking and down-regulation is an MT-dependent mechanism.

scholarly journals G protein–coupled receptor/arrestin3 modulation of the endocytic machinery

2002 ◽  
Vol 156 (4) ◽  
pp. 665-676 ◽  
Author(s):  
Francesca Santini ◽  
Ibragim Gaidarov ◽  
James H. Keen
Keyword(s):  
G Protein ◽  
Fluorescent Protein ◽  
De Novo ◽  
Membrane Skeleton ◽  
Live Cells ◽  
G Protein Coupled Receptor ◽  
Cortical Actin ◽  
Endocytic Machinery ◽  
Green Fluorescent ◽  
G Protein Coupled

Nonvisual arrestins (arr) modulate G protein–coupled receptor (GPCR) desensitization and internalization and bind to both clathrin (CL) and AP-2 components of the endocytic coated pit (CP). This raises the possibility that endocytosis of some GPCRs may be a consequence of arr-induced de novo CP formation. To directly test this hypothesis, we examined the behavior of green fluorescent protein (GFP)-arr3 in live cells expressing β2-adrenergic receptors and fluorescent CL. After agonist stimulation, the diffuse GFP-arr3 signal rapidly became punctate and colocalized virtually completely with preexisting CP spots, demonstrating that activated complexes accumulate in previously formed CPs rather than nucleating new CP formation. After arr3 recruitment, CP appeared larger: electron microscopy analysis revealed an increase in both CP number and in the occurrence of clustered CPs. Mutant arr3 proteins with impaired binding to CL or AP-2 displayed reduced recruitment to CPs, but were still capable of inducing CP clustering. In contrast, though constitutively present in CPs, the COOH-terminal moiety of arr3, which contains CP binding sites but lacks receptor binding, did not induce CP clustering. Together, these results indicate that recruitment of functional arr3–GPCR complexes to CP is necessary to induce clustering. Latrunculin B or 16°C blocked CP rearrangements without affecting arr3 recruitment to CP. These results and earlier studies suggest that discrete CP zones exist on cell surfaces, each capable of supporting adjacent CPs, and that the cortical actin membrane skeleton is intimately involved with both the maintenance of existing CPs and the generation of new structures.

scholarly journals The Predicted G-Protein-Coupled Receptor GPR-1 Is Required for Female Sexual Development in the Multicellular Fungus Neurospora crassa

2006 ◽  
Vol 5 (9) ◽  
pp. 1503-1516 ◽  
Author(s):  
Svetlana Krystofova ◽  
Katherine A. Borkovich
Keyword(s):  
Neurospora Crassa ◽  
G Protein ◽  
Sexual Development ◽  
Fluorescent Protein ◽  
Protein Fusion ◽  
Phenotypic Analysis ◽  
Reproductive Structures ◽  
Epistasis Analysis ◽  
Green Fluorescent ◽  
G Protein Coupled

ABSTRACTG-protein-coupled receptors (GPCRs) control important aspects of asexual and sexual development in eukaryotic organisms. We have identified a predicted GPCR in the filamentous fungusNeurospora crassawith similarity to cyclic AMP-receptor like GPCRs fromDictyostelium discoideumand GCR1 fromArabidopsis thaliana. Expression ofgpr-1is highest in female reproductive structures, and deletion ofgpr-1leads to defects during sexual development. Unfertilized female structures (protoperithecia) fromΔgpr-1strains are weakly pigmented, small, and submerged in the agar. The perithecia produced after fertilization have deformed beaks that lack ostioles, the openings through which ascospores are discharged. Localization studies using a GPR-1-green fluorescent protein fusion protein showed that GPR-1 is targeted to female reproductive structures. Genetic epistasis experiments with the three Gα genes were inconclusive due to the early block in mating exhibited by Δgna-1strains. Phenotypic analysis of mutants from a high-throughputN. crassaknockout project allowed identification of BEK-1, a homeodomain transcription factor that is a potential target of GPR-1. The perithecial defects ofΔbek-1strains are similar to those of theΔgpr-1strain, and epistasis analysis indicates thatbek-1could function downstream ofgpr-1during postfertilization events. The effect must be posttranscriptional, asbek-1transcript levels are not affected inΔgpr-1strains. The lack of ostioles inΔgpr-1and Δbek-1mutants has an undesirable effect on the ability to spread progeny (ascospores) by the normal ejection mechanism and would severely compromise the fitness of these strains in nature.

scholarly journals A Plasmid Selection System in Lactococcus lactis and Its Use for Gene Expression in L. lactis and Human Kidney Fibroblasts

2002 ◽  
Vol 68 (10) ◽  
pp. 5051-5056 ◽  
Author(s):  
Jacob Glenting ◽  
Søren M. Madsen ◽  
Astrid Vrang ◽  
Anders Fomsgaard ◽  
Hans Israelsen
Keyword(s):  
Lactococcus Lactis ◽  
Fluorescent Protein ◽  
Human Kidney ◽  
Heterologous Proteins ◽  
Selection System ◽  
Erythromycin Resistance ◽  
Homoserine Dehydrogenase ◽  
Mammalian Expression ◽  
Genes Encoding ◽  
Green Fluorescent

ABSTRACT We report the development of a nonantibiotic and nonpathogenic host-plasmid selection system based on lactococcal genes and threonine complementation. We constructed an auxotrophic Lactococcus lactis MG1363Δthr strain which carries deletions in two genes encoding threonine biosynthetic enzymes. To achieve plasmid-borne complementation, we then constructed the minimal cloning vector, pJAG5, based on the genes encoding homoserine dehydrogenase-homoserine kinase (the hom-thrB operon) as a selective marker. Using strain MG1363Δthr, selection and maintenance of cells carrying pJAG5 were obtained in threonine-free defined media. Compared to the commonly used selection system based on erythromycin resistance, the designed complementation system offers a competitive and stable plasmid selection system for the production of heterologous proteins in L. lactis. The potential of pJAG5 to deliver genes for expression in eukaryotes was evaluated by insertion of a mammalian expression unit encoding a modified green fluorescent protein. The successful delivery and expression of genes in human kidney fibroblasts indicated the potential of the designed nonantibiotic host-plasmid system for use in genetic immunization.

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