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ABSTRACT: The pleiotropic cytokine hormone, leptin, by activating its receptor OB-R, plays a major role in many biological processes including energy homeostasis, immune function, cell survival and proliferation. Abnormal leptin action is associated with obesity, autoimmune diseases and cancer. The pharmacological characterization of OB-R and the development of synthetic OB-R ligands are still in its infancy as currently available binding assays are not compatible with ligand saturation binding experiments and high throughput screening (HTS) approaches. We developed here a novel Homogeneous Time Resolved Fluorescence-based binding assay that overcomes these limitations. In this assay, fluorescently labeled leptin or leptin antagonist binds to the SNAP-tagged OB-R covalently labeled with terbium cryptate (Tb). Successful binding is monitored by measuring the energy transfer between the Tb energy donor and the fluorescently labeled leptin energy acceptor. Ligand binding saturation experiments revealed high affinity dissociation constants in the subnanomolar range with an excellent signal-to-noise ratio. The assay performed in a 384-well format shows high specificity and reproducibility, which makes it perfectly compatible with HTS applications to identify new OB-R agonists or antagonists. In addition, fluorescently labeled leptin and SNAP-tagged OB-R will be valuable tools for monitoring leptin and OB-R trafficking in cells and tissues.
Analytical Biochemistry 01/2013; · 3.00 Impact Factor
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ABSTRACT: Biosynthesis and function of G protein-coupled receptors (GPCR) are accompanied by multiple GPCR-associated protein complexes. Despite considerable sequence diversity, all GPCRs are assumed to share a common 7-transmembrane-spanning architecture giving rise to an extracellular, intracellular, and transmembrane interface for the interaction with protein partners recognizing either linear or structural receptor epitopes. Different purification techniques have been developed in the past to identify GPCR-associated proteins other than classically known interacting proteins like heterotrimeric G proteins and β-arrestins. These techniques use either entire receptors or receptor subdomains as baits. We are presenting here two proteomic approaches developed in our laboratory to purify protein complexes interacting either with receptor subdomains from cell or tissue lysates or with entire receptors from intact cells.
Methods in enzymology 01/2013; 521:329-45. · 1.90 Impact Factor
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ABSTRACT: To study whether sleep and circadian rhythm disturbances in patients with Huntington's disease (HD) arise from dysfunction of the body's master clock, the hypothalamic suprachiasmatic nucleus.
Postmortem cohort study.
Eight patients with HD and eight control subjects matched for sex, age, clock time and month of death, postmortem delay, and fixation time of paraffin-embedded hypothalamic tissue.
Using postmortem paraffin-embedded tissue, we assessed the functional integrity of the suprachiasmatic nucleus in patients with HD and control subjects by determining the expression of two major regulatory neuropeptides, vasoactive intestinal polypeptide and arginine vasopressin. Additionally, we studied melatonin 1 and 2 receptor expression. Compared with control subjects, the suprachiasmatic nucleus contained 85% fewer neurons immunoreactive for vasoactive intestinal polypeptide and 33% fewer neurons for arginine vasopressin in patients with HD (P = 0.002 and P = 0.027). The total amount of vasoactive intestinal polypeptide and arginine vasopressin messenger RNA was unchanged. No change was observed in the number of melatonin 1 or 2 receptor immunoreactive neurons.
These findings indicate posttranscriptional neuropeptide changes in the suprachiasmatic nucleus of patients with HD, and suggest that sleep and circadian rhythm disorders in these patients may at least partly arise from suprachiasmatic nucleus dysfunction. CITATION: van Wamelen DJ; Aziz NA; Anink JJ; van Steenhoven R; Angeloni D; Fraschini F; Jockers R; Roos RAC; Swaab DF. Suprachiasmatic nucleus neuropeptide expression in patients with Huntington's disease. SLEEP 2013;36(1):117-125.
Sleep 01/2013; 36(1):117-25. · 5.05 Impact Factor
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ABSTRACT: G protein-coupled receptors (GPCR), also called seven transmembrane domain (7TM) proteins, represent the largest family of membrane receptors with approximately 900 members in humans. Although a substantial number of 7TM proteins have been matched with endogenous ligands, for many of them no ligand has been identified raising questions about their function. Ligand-independent functions have been proposed for several of these so-called orphan 7TM proteins such as the modulation of the function of 7TM proteins with identified ligand through the formation of heteromeric complexes. Interestingly, viruses are using a similar strategy to hijack the host cell signaling machinery and to promote virus replication and dissemination. Indeed, to affect host cell function, several viruses encode orphan 7TM proteins that heteromerize either with other virally-encoded or with host-encoded 7TM proteins with identified ligands. This highlights the strategic importance of 7TM protein signaling and heteromerization for the regulation of cellular homeostasis.
Medecine sciences: M/S 10/2012; 28(10):864-9. · 0.64 Impact Factor
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ABSTRACT: The genomic organization of the LEPR gene is complex and generates three independent transcripts whose respective functions are still poorly understood.
We describe here a 7-year old patient with a homozygous 80 kb deletion in the chromosomal 1p31.3 region with early onset obesity, mental retardation and epilepsy. The deleted region comprises the proximal promoter and exons 1 and 2 of the LEPR gene and exons 5 to 19 of the DNAJC6 gene. The deletion leads to the deficiency of all canonical OB-R isoforms but maintains the B219 OB-R short isoforms controlled by the preserved second LEPR promoter. The DNAJC6 gene encodes auxilin-1, a protein required for clathrin-dependent recycling of synaptic vesicles in neurons that is possibly at the origin of the mental retardation and epilepsy phenotype. The obese phenotype and the absence of signaling-competent OB-R are consistent with previously reported individuals with OB-R deficiency. The deletion eliminates an additional transcript of the LEPR gene that encodes endospanin-1, a protein that has been genetically and biochemically linked to OB-R function.
Our study confirms the phenotype of individuals with OB-R deficiency and postulates the effects of auxilin-1 deficiency (mental retardation/epilepsy) and endospanin-1 deficiency (OB-R specific functions) in humans.
Molecular Genetics and Metabolism 05/2012; 106(3):345-50. · 3.19 Impact Factor
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ABSTRACT: Human cytomegalovirus (HCMV) encodes four 7-transmembrane-spanning (7TM) proteins, US28, US27, UL33, and UL78, which present important sequence homology with human chemokine receptors. Whereas US28 binds a large range of chemokines and disturbs host cell signaling at different levels, the others are orphans with largely unknown functions. Assembly of 2 different 7TM proteins into hetero-oligomeric complexes may profoundly change their respective functional properties. We show that HCMV-encoded UL33 and UL78 form heteromers with CCR5 and CXCR4 chemokine receptors in transfected human embryonic kidney 293T cells and monocytic THP-1 cells. Expression of UL33 and UL78 had pleiotropic, predominantly negative, effects on CCR5 and CXCR4 cell surface expression, ligand-induced internalization, signal transduction, and migration without modifying the chemokine binding properties of CCR5 and CXCR4. Importantly, the coreceptor activity of CCR5 and CXCR4 for HIV was largely impaired in the presence of UL33 and UL78 without affecting expression of the primary HIV entry receptor CD4 and its interaction with CCR5 and CXCR4. Collectively, we identified the first molecular function for the HCMV-encoded orphan UL33 and UL78 7TM proteins, namely the regulation of cellular chemokine receptors through receptor heteromerization.
Blood 04/2012; 119(21):4908-18. · 9.90 Impact Factor
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ABSTRACT: The human cytomegalovirus (HCMV) UL78 ORF is considered to encode an orphan 7-transmembrane receptor. However, until now, the UL78 protein (pUL78) has not been characterized. Here, we have investigated the expression of pUL78 and found it mainly associated with the endoplasmic reticulum. However, we provide evidence that pUL78 is also localized on the cell surface from where it is quickly endocytosed. Colocalization with adaptin and EEA-1 implies that at least a small amount of pUL78 is transported to the trans Golgi network and early endosomes. Using a bimolecular fluorescence complementation assay and co-immunoprecipitation experiments, we were able to find homomeric and heteromeric structure formations of pUL78 and the US28 protein, respectively. However, the absence of pUL78 had no effect on the accumulation of inositol phosphate triggered by the US28 protein. In summary, our results suggest that the UL78 protein of HCMV traffics between the cell surface and cytoplasm, from where it might be recycled via early endosomes.
Archives of Virology 02/2012; 157(5):935-49. · 2.11 Impact Factor
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ABSTRACT: Recent proteomic and biochemical evidence indicates that cellular -signaling is organized in protein modules. G protein-coupled receptors (GPCRs) are privileged entry points for extracellular signals that are transmitted through the plasma membrane into the cell. The adequate cellular response and signaling specificity is regulated by GPCR-associated protein modules. The composition of these modules is dynamic and might depend on receptor stimulation, the proteome of a given cellular context, the subcellular localization of receptor-associated modules, the formation of GPCR oligomers and the variation of expression levels of components of these modules under physiological, for example circadian rhythm, or pathological conditions. The current article will highlight the importance of GPCR-associated protein modules as a biochemical basis for signaling specificity.
Sub-cellular biochemistry 01/2012; 63:225-40.
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Amélie Bonnefond,
Nathalie Clément,
Katherine Fawcett,
Loïc Yengo,
Emmanuel Vaillant,
Jean-Luc Guillaume,
Aurélie Dechaume,
Felicity Payne,
Ronan Roussel,
Sébastien Czernichow, [......],
Guillaume Charpentier,
Martine Vaxillaire,
Ghislain Rocheleau,
Nicholas J Wareham,
Robert Sladek,
Mark I McCarthy,
Christian Dina,
Inês Barroso, Ralf Jockers,
Philippe Froguel
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ABSTRACT: Genome-wide association studies have revealed that common noncoding variants in MTNR1B (encoding melatonin receptor 1B, also known as MT(2)) increase type 2 diabetes (T2D) risk(1,2). Although the strongest association signal was highly significant (P < 1 × 10(-20)), its contribution to T2D risk was modest (odds ratio (OR) of ∼1.10-1.15)(1-3). We performed large-scale exon resequencing in 7,632 Europeans, including 2,186 individuals with T2D, and identified 40 nonsynonymous variants, including 36 very rare variants (minor allele frequency (MAF) <0.1%), associated with T2D (OR = 3.31, 95% confidence interval (CI) = 1.78-6.18; P = 1.64 × 10(-4)). A four-tiered functional investigation of all 40 mutants revealed that 14 were non-functional and rare (MAF < 1%), and 4 were very rare with complete loss of melatonin binding and signaling capabilities. Among the very rare variants, the partial- or total-loss-of-function variants but not the neutral ones contributed to T2D (OR = 5.67, CI = 2.17-14.82; P = 4.09 × 10(-4)). Genotyping the four complete loss-of-function variants in 11,854 additional individuals revealed their association with T2D risk (8,153 individuals with T2D and 10,100 controls; OR = 3.88, CI = 1.49-10.07; P = 5.37 × 10(-3)). This study establishes a firm functional link between MTNR1B and T2D risk.
Nature Genetics 01/2012; 44(3):297-301. · 35.53 Impact Factor
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David A Bechtold,
Anissa Sidibe,
Ben R C Saer,
Jian Li,
Laura E Hand,
Elena A Ivanova,
Veerle M Darras,
Julie Dam, Ralf Jockers,
Simon M Luckman,
Andrew S I Loudon
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ABSTRACT: The ability of mammals to maintain a constant body temperature has proven to be a profound evolutionary advantage, allowing members of this class to thrive in most environments on earth. Intriguingly, some mammals employ bouts of deep hypothermia (torpor) to cope with reduced food supply and harsh climates [1, 2]. During torpor, physiological processes such as respiration, cardiac function, and metabolic rate are severely depressed, yet the neural mechanisms that regulate torpor remain unclear [3]. Hypothalamic responses to energy signals, such as leptin, influence the expression of torpor [4-7]. We show that the orphan receptor GPR50 plays an important role in adaptive thermogenesis and torpor. Unlike wild-type mice, Gpr50(-/-) mice readily enter torpor in response to fasting and 2-deoxyglucose administration. Decreased thermogenesis in Gpr50(-/-) mice is not due to a deficit in brown adipose tissue, the principal site of nonshivering thermogenesis in mice [8]. GPR50 is highly expressed in the hypothalamus of several species, including man [9, 10]. In line with this, altered thermoregulation in Gpr50(-/-) mice is associated with attenuated responses to leptin and a suppression of thyrotropin-releasing hormone. Thus, our findings identify hypothalamic circuits involved in torpor and reveal GPR50 to be a novel component of adaptive thermogenesis in mammals.
Current biology: CB 12/2011; 22(1):70-7. · 10.99 Impact Factor
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Mark J Millan,
Clotilde Mannoury la Cour,
Benjamin Chanrion,
Delphine S Dupuis,
Benjamin Di Cara,
Valérie Audinot,
Didier Cussac,
Adrian Newman-Tancredi,
Maud Kamal,
Jean A Boutin, Ralf Jockers,
Philippe Marin,
Joël Bockaert,
Olivier Muller,
Anne Dekeyne,
Gilbert Lavielle
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ABSTRACT: Although most antidepressants suppress serotonin (5-HT) and/or noradrenaline reuptake, blockade of 5-HT(2C) receptors and α(2)-adrenoceptors likewise enhances monoaminergic transmission. These sites are targeted by the urea derivative N- [4-methoxy-3-(4-methylpiperazin-1-yl)phenyl]-1,2-dihydro-3-H-benzo[e]indole-3-carboxamide (S32212). S32212 was devoid of affinity for monoamine reuptake sites, yet displayed pronounced affinity (pK(i), 8.2) for constitutively active human 5-HT(2CINI) (h5-HT(2CINI)) receptors, behaving as an inverse agonist in reducing basal Gα(q) activation, [(3)H]inositol-phosphate production, and the spontaneous association of h5-HT(2CINI)-Renilla luciferase receptors with β-arrestin2-yellow fluorescent protein. Furthermore, upon 18-h pretreatment, S32212 enhanced the plasma membrane expression of h5-HT(2CINI) receptors as visualized by confocal microscopy and quantified by enzyme-linked immunosorbent assay. Its actions were prevented by the neutral antagonist 6-chloro-5-methyl-N-[6-(2-methylpyridin-3-yloxy)pyridin-3-yl]indoline-1-carboxamide (SB242,084), which also impeded the induction by long-term exposure to S32212 of otherwise absent Ca(2+) mobilization in mouse cortical neurones. In vivo, S32212 blunted the inhibitory influence of the 5-HT(2C) agonist 2-(3-chlorobenzyloxy)-6-(1-piperazinyl)pyrazine (CP809,101) on ventrotegmental dopaminergic neurones. S32212 also blocked 5-HT-induced Gα(q) and phospholipase C activation at the h5-HT(2A) and, less potently, h5-HT(2B) receptors and suppressed the discriminative stimulus properties of the 5-HT(2A) agonist 1-(2,5-dimethoxy-4-iodophenyl)-2-aminopropane in rats. S32212 manifested marked affinity for human α(2A)- (pK(i) 7.2), α(2B)- (pK(i) 8.2), and α(2C)- (pK(i) 7.4) adrenoceptors, at which it abolished noradrenaline-induced recruitment of Gα(i3), Gα(o), adenylyl cyclase, and extracellular-regulated kinase1/2. Moreover, S32212 dose-dependently abolished the discriminative stimulus effects of the α(2)-adrenoceptor agonist (S)-spiro[(1-oxa-2-amino-3-azacyclopent-2-ene)-4,2'-(1',2',3',4'-tetrahydronaphthalene)] (S18616). Finally, S32212 displayed negligible affinity for α(1A)-adrenoceptors, histamine H(1) receptors, and muscarinic M(1) receptors. In conclusion, S32212 behaves as an inverse agonist at h5-HT(2C) receptors and as an antagonist at human α(2)-adrenoceptors (and h5-HT(2A) receptors). Its promising profile in preclinical models potentially relevant to the treatment of depression is described in J Pharmacol Exp Ther 340:765-780, 2012.
Journal of Pharmacology and Experimental Therapeutics 12/2011; 340(3):750-64. · 3.83 Impact Factor
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ABSTRACT: G protein-coupled receptors (GPCRs) constitute a large family of seven transmembrane proteins that regulate major cellular functions. The important role of GPCRs in the neuroendocrine system is outlined by the great interest of pharmaceutical companies in developing new drugs targeting these receptors. GPCRs exist as monomers, but can also be organized in oligomeric structures composed of either homo- or heteromers. GPCR heteromerization may play an important role in modulating and fine-tuning GPCR function and signaling. The literature reports many examples of GPCR heteromers in vitro raising the question of the physiological relevance of these complexes in tissues. Considerable efforts are currently being directed towards conclusive evidence for the existence of GPCRs heteromers in vivo, a crucial step for the validation of the concept of GPCR heteromerization and future drug development. The present review will give a brief history of GPCR oligomerization and emphasize the importance and physiological relevance of GPCR heteromerization by discussing key examples of GPCR couples.
Neuroendocrinology 12/2011; 95(3):223-31. · 2.38 Impact Factor
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ABSTRACT: G protein-coupled receptors (GPCRs) can exist as dimers or as larger oligomeric clusters that enable intercommunication between different receptor protomers within the same complex. This phenomenon is observed at three distinct levels: (i) at the level of ligand binding where the activation of one protomer can allosterically inhibit or facilitate ligand binding to the second protomer; (ii) at the level of ligand-induced conformational switches, which occur between transmembrane domains of the two protomers; and (iii) within GPCR-associated protein complexes, either directly at the level of GPCR-interacting proteins or at further downstream levels of the complex. Intercommunication at these different levels introduces asymmetry within GPCR dimers wherein each protomer fulfills its specific task. In this review, we discuss how the asymmetric behavior of GPCRs highlights the advantage of oligomeric receptor organization and supports the functional relevance of GPCR dimerization.
Trends in Pharmacological Sciences 06/2011; 32(9):514-20. · 10.93 Impact Factor
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Céline Jousse,
Laurent Parry,
Sarah Lambert-Langlais,
Anne-Catherine Maurin,
Julien Averous,
Alain Bruhat,
Valérie Carraro,
Jorg Tost,
Philippe Letteron,
Patty Chen, Ralf Jockers,
Jean-Marie Launay,
Jacques Mallet,
Pierre Fafournoux
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ABSTRACT: Transient environmental influences, such as perinatal nutritional stress, may induce deleterious metabolic symptoms that last for the entire life of individuals, implying that epigenetic modifications play an important role in this process. We have investigated, in mice, the consequences of maternal undernutrition during gestation and lactation on DNA methylation and expression of the leptin gene, which plays a major regulatory role in coordinating nutritional state with many aspects of mammalian biology. We show that animals born to mothers fed a low-protein-diet (F1-LPD group) have a lower body weight/adiposity and exhibit a higher food intake than animals born to mothers fed a control diet (F1-CD group). These modifications persisted throughout life and were associated with lower levels of leptin mRNA and protein in starved F1-LPD mice, emphasizing that maternal protein-undernutrition affects the balance between food intake and energy expenditure in adults. Moreover, this nutritional stress resulted in the removal of methyls at CpGs located in the promoter of leptin, causing a permanent specific modification in the dynamics of the expression of leptin, which exhibits a stronger induction in the F1-LPD than in F1-CD mice in response to a meal. This study is an example of a molecular rationale linking transient environmental influences to permanent phenotypic consequences.
The FASEB Journal 06/2011; 25(9):3271-8. · 5.71 Impact Factor
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ABSTRACT: Human cytomegalovirus (HCMV) is a widespread pathogen that infects up to 80% of the human population and causes severe complications in immunocompromised patients. HCMV expresses four seven transmembrane (7TM) spanning/G protein-coupled receptors (GPCRs) - US28, US27, UL33 and UL78 - that show close homology to human chemokine receptors. While US28 was shown to bind several chemokines and to constitutively activate multiple signaling cascades, the function(s) of US27, UL33 and UL78 in the viral life cycle have not yet been identified. Here we investigated the possible interaction/heteromerization of US27, UL33 and UL78 with US28 and the functional consequences thereof. We provide evidence that these receptors not only co-localize, but also heteromerize with US28 in vitro. While the constitutive activation of the US28-mediated Gαq/phospholipase C pathway was not affected by receptor heteromerization, UL33 and UL78 were able to silence US28-mediated activation of the transcription factor NF-κB. Summarized, we provide evidence that these orphan viral receptors have an important regulatory capacity on the function of US28 and as a consequence, may ultimately impact on the viral life cycle of HCMV.
Biochemical pharmacology 06/2011; 82(6):610-9. · 4.25 Impact Factor
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Pauline Chaste,
Nathalie Clement,
Hany Goubran Botros,
Jean-Luc Guillaume,
Marina Konyukh,
Cécile Pagan,
Isabelle Scheid,
Gudrun Nygren,
Henrik Anckarsäter,
Maria Rastam, [......],
Fabien Fauchereau,
Christelle Durand,
Lydia Boudarene,
Emilie Serrano,
Nathalie Lemière,
Jean Marie Launay,
Marion Leboyer, Ralf Jockers,
Christopher Gillberg,
Thomas Bourgeron
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ABSTRACT: Melatonin is a powerful antioxidant and a synchronizer of many physiological processes. Alteration in melatonin signaling has been reported in a broad range of diseases, but little is known about the genetic variability of this pathway in humans. Here, we sequenced all the genes of the melatonin pathway –AA-NAT, ASMT, MTNR1A, MTNR1B and GPR50 – in 321 individuals from Sweden including 101 patients with attention-deficit/hyperactivity disorder (ADHD) and 220 controls from the general population. We could find several damaging mutations in patients with ADHD, but no significant enrichment compared with the general population. Among these variations, we found a splice site mutation in ASMT (IVS5+2T>C) and one stop mutation in MTNR1A (Y170X) – detected exclusively in patients with ADHD – for which biochemical analyses indicated that they abolish the activity of ASMT and MTNR1A. These genetic and functional results represent the first comprehensive ascertainment of melatonin signaling deficiency in ADHD.
Journal of Pineal Research 05/2011; 51(4):394 - 399. · 5.79 Impact Factor
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Karin Séron,
Cyril Couturier,
Sandrine Belouzard,
Johan Bacart,
Didier Monté,
Laetitia Corset,
Olivier Bocquet,
Julie Dam,
Virginie Vauthier,
Cécile Lecœur,
Bernard Bailleul,
Bernard Hoflack,
Philippe Froguel, Ralf Jockers,
Yves Rouillé
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ABSTRACT: Endospanin-1 is a negative regulator of the cell surface expression of leptin receptor (OB-R), and endospanin-2 is a homologue of unknown function. We investigated the mechanism for endospanin-1 action in regulating OB-R cell surface expression. Here we show that endospanin-1 and -2 are small integral membrane proteins that localize in endosomes and the trans-Golgi network. Antibody uptake experiments showed that both endospanins are transported to the plasma membrane and then internalized into early endosomes but do not recycle back to the trans-Golgi network. Overexpression of endospanin-1 or endospanin-2 led to a decrease of OB-R cell surface expression, whereas shRNA-mediated depletion of each protein increased OB-R cell surface expression. This increased cell surface expression was not observed with OB-Ra mutants defective in endocytosis or with transferrin and EGF receptors. Endospanin-1 or endospanin-2 depletion did not change the internalization rate of OB-Ra but slowed down its lysosomal degradation. Thus, both endospanins are regulators of postinternalization membrane traffic of the endocytic pathway of OB-R.
Journal of Biological Chemistry 03/2011; 286(20):17968-81. · 4.77 Impact Factor
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ABSTRACT: The first tandem affinity purification (TAP) protocol was described in 1999. Originally designed for the purification of protein complexes in yeast RNA splicing, its application rapidly expanded towards whole proteome analysis in yeast and mammalian cells. More recently, TAP has been applied to the purification of G protein-coupled receptor (GPCR)-associated protein complexes (GAPCs). This approach is particularly attractive for GPCRs, as the native, seven transmembrane structure is used as bait to purify GAPCs from mammalian cells expressing receptors at physiological levels. Here, a detailed protocol of the TAP method applied to GPCRs is presented.
Methods in molecular biology (Clifton, N.J.) 01/2011; 746:399-409.
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ABSTRACT: Protein networks and their dynamic regulation play a fundamental role in biological systems. Seven transmembrane-spanning G protein-coupled receptors (GPCRs) constitute the largest family of membrane receptors controlling the flow of information from the extracellular environment into cells by inducing intracellular signaling pathways. Several GPCR-associated protein complexes (GAPCs), particularly those binding to the intracellular carboxyl-terminus (C-terminus), have been identified over the last 20 years. Recent optimizations in purification protocols and advances in mass spectrometry-based protein identification techniques have considerably accelerated the identification of GAPCs. We will concentrate here on a description of the latest version of the peptide affinity purification approach dedicated to the purification of GAPCs interacting with GPCR C-termini or any other soluble receptor subdomain.
Methods in molecular biology (Clifton, N.J.) 01/2011; 746:389-98.
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ABSTRACT: G protein-coupled receptors (GPCRs) are, with approximately 800 members, among the most abundant membrane proteins in humans. They are responding to a plethora of ligands and are involved in the transmission of extracellular signals inside the cell. GPCRs are synthesized in the endoplasmatic reticulum and are then transported to the cell surface where they are typically activated. Receptor activation triggers several processes such as signaling and receptor endocytosis. Along their life cycle, GPCRs are accompanied by a range of specialized GPCR-interacting proteins (GIPs) to assist nascent receptors in proper folding, to target them to the appropriate subcellular compartments and to fulfill their signaling tasks. Differential expression of GIPs and rapid alterations of GPCR/GIP interaction networks are efficient means to regulate GPCR function in a tissue-specific and spatiotemporal manner to trigger appropriate cellular responses. Interfering with a GPCR/GIP interaction might become a new strategy for specific therapeutic intervention. This chapter will focus on the importance of GIPs along the GPCR life cycle and discuss the dynamics and molecular organization of GPCR/GIP complexes.
Advances in pharmacology (San Diego, Calif.) 01/2011; 62:349-80.
