Spelling suggestions: "subject:"G proteincoupled receptors"" "subject:"G probescoupled receptors""
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Úloha receptorů spřažených s Gq proteiny v hnědých adipocytech / Role of Gq-coupled receptors in brown adipocytesČajková, Michaela January 2015 (has links)
Charles university in Prague, Pharmaceutical faculty in Hradci Králové, Department of biological and medical sciences Rheinische Friedrich-Wilhelms-University Bonn, Institute of Pharmacology and Toxicology Candidate: Michaela Čajková Supervisor: PharmDr. Miroslav Kovařík, Ph.D. Consultant: Dr. Linda Sarah Hoffmann Title of diploma thesis: Role of Gq-coupled receptors in brown adipocytes In my diploma thesis, we focused on four Gq-coupled receptors (F2R, LPHN1, α1DAR, TSHR) in brown adipocytes (BAs), which were identified in the screen as the highest expressed in immature and mature BAs. Our goal was to validate suggestion, that Thyroid stimulating hormone receptor (TSHR) plays a key role in differentiation of BAs and that F2R, LPHN1, α1D-AR might be important for BAs. In our study, we investigated gene expression of these four receptors in BAs, using analytical methodsquantitative reverse-transcriptase polymerase chain reaction (qRT-PCR) and Western blot. Results from analysis revealed, that expression of TSHR was increased in mature BAs, it means, that TSHR induce differentiation of BAs. The BAs transduced with short hairpin RNA (sh-RNA) against TSHR were less differentiated, this we proved also with Oil Red-O staining. Expression of adipocyte Protein 2 (aP2), peroxisome proliferator-activated...
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Regulator of G protein signaling 6 (RGS6), a multifarious and pleiotropic modulator of G protein coupled receptor signaling in brainStewart, Adele Marie 01 May 2014 (has links)
Transmembrane signal transduction by ligand-activated G protein-coupled receptors (GPCRs) controls virtually every aspect of mammalian physiology, and this receptor class is the target of 40-50% of currently marketed pharmaceuticals. In addition to the clinical use of direct GPCR agonists and antagonists, it is now believed that GPCR effectors and regulators may also be viable drug targets with improved therapeutic efficacy and specificity. The prototypic role of Regulator of G protein Signaling (RGS) proteins is inhibition of G protein signaling through acceleration of GTP hydrolysis by GΑ, which promotes re-association of GΑ and GΒΓ subunits with the receptor at the cell membrane. In this way, RGS proteins determine the magnitude and duration of the cellular response to GPCR stimulation. Though RGS protein biochemistry has been well elucidated in vitro, the physiological functions of each RGS family member remain largely unexplored.
RGS6 belongs to the R7 subfamily of RGS proteins originally identified in brain. Our acquisition of an RGS6-/- mouse allowed us to survey RGS6 expression in all tissues of the body revealing the greatest expression of RGS6 in brain. Despite robust neural RGS6 expression, little is known regarding functional roles of RGS6 in the brain and spinal cord. In addition, we identified several novel, higher molecular weight RGS6 immunoreactive bands specifically present in the nervous system. The plan of this thesis work was multifaceted. We sought to elucidate novel GPCR signaling cascades modulated by RGS6 in brain while simultaneously characterizing the expression patterns and identity of the novel RGS6 species specifically detected in the nervous system. Considering the large diversity of RGS6 isoforms present in brain, the abundance of potential RGS6 binding partners, and the possibility of discovering new mechanisms involved in RGS6 regulation, elucidation of the novel RGS6 molecular species is of paramount importance.
Utilizing RGS6-/- mice we identified RGS6 as a critical modulator of two GPCRs in brain. First, by inhibiting the serotonin receptor 1A (5-HT1AR)-adenylyl cyclase (AC) axis, RGS6 functions to promote anxiety- and depression-related behaviors in mice. As a result, RGS6-/- mice exhibit a robust anxiolytic and antidepressant phenotype remarkably similar to that of animals treated chronically with therapeutic doses of selective serotonin reuptake inhibitors (SSRIs). RGS6 also inhibits GABAB receptor (GABABR)-G protein- activated inwardly rectifying potassium (GIRK) channel current in cerebellar granule cells, and loss of RGS6 results in cerebellar ataxia and gait abnormalities reversible by GABABR blockade. Furthermore, evaluation of voluntary alcohol drinking behaviors in WT versus RGS6-/- mice revealed a striking reduction in alcohol intake resulting from RGS6 loss in both acute and chronic alcohol consumption paradigms due, at least in part, to potentiation of GABABR signaling. Thus, RGS6 inhibitors have potential clinical utility in the treatment of mood disorders and alcoholism.
We have shown that one novel RGS6 immunoreactive band expressed in the brain and spinal cord is a phospho-protein sensitive to Λ phosphatase-mediated dephosphorylation. Further, new information acquired from PCR amplification of RGS6 mRNA species from human brain cDNA libraries has necessitated substantial revisions to the RGS6 splicing scheme devised by the Fisher laboratory in 2003. To the 36 isoforms generated from two alternate transcription start sites (RGS6L vs. RGS6), the inclusion or exclusion of exons 14 and 17, and variable splicing to one of 7 different 3' terminal exons, we have added the possible insertion of three novel internal exons (A1, A2, A3), a retained intron, and two new 3' terminal exons. As a result, the number of RGS6 mRNAs present in brain could be as many as 248 unique species, an astonishing diversity unprecedented in the RGS protein family.
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Erzeugung und Charakterisierung von Mausmodellen mit lichtsensitivem Geschmackssystem zur Aufklärung der neuronalen Geschmackskodierung / Generation and characterization of transgenic lines of mice to elucidate neuralnetworks engaged in processing of gustatory informationLoßow, Kristina January 2011 (has links)
Die Wahrnehmung von Geschmacksempfindungen beruht auf dem Zusammenspiel verschiedener Sinneseindrücke wie Schmecken, Riechen und Tasten. Diese Komplexität der gustatorischen Wahrnehmung erschwert die Beantwortung der Frage wie Geschmacksinformationen vom Mund ins Gehirn weitergeleitet, prozessiert und kodiert werden.
Die Analysen zur neuronalen Prozessierung von Geschmacksinformationen erfolgten zumeist mit Bitterstimuli am Mausmodell. Zwar ist bekannt, dass das Genom der Maus für 35 funktionelle Bitterrezeptoren kodiert, jedoch war nur für zwei unter ihnen ein Ligand ermittelt worden. Um eine bessere Grundlage für tierexperimentelle Arbeiten zu schaffen, wurden 16 der 35 Bitterrezeptoren der Maus heterolog in HEK293T-Zellen exprimiert und in Calcium-Imaging-Experimenten funktionell charakterisiert. Die Daten belegen, dass das Funktionsspektrum der Bitterrezeptoren der Maus im Vergleich zum Menschen enger ist und widerlegen damit die Aussage, dass humane und murine orthologe Rezeptoren durch das gleiche Ligandenspektrum angesprochen werden. Die Interpretation von tierexperimentellen Daten und die Übertragbarkeit auf den Menschen werden folglich nicht nur durch die Komplexität des Geschmacks, sondern auch durch Speziesunterschiede verkompliziert.
Die Komplexität des Geschmacks beruht u. a. auf der Tatsache, dass Geschmacksstoffe selten isoliert auftreten und daher eine Vielzahl an Informationen kodiert werden muss. Um solche geschmacksstoffassoziierten Stimuli in der Analyse der gustatorischen Kommunikationsbahnen auszuschließen, sollten Opsine, die durch Licht spezifischer Wellenlänge angeregt werden können, für die selektive Ersetzung von Geschmacksrezeptoren genutzt werden. Um die Funktionalität dieser angestrebten Knockout-Knockin-Modelle zu evaluieren, die eine Kopplung von Opsinen mit dem geschmacksspezifischen G-Protein Gustducin voraussetzte, wurden Oozyten vom Krallenfrosch Xenopus laevis mit dem Zwei-Elektroden-Spannungsklemm-Verfahren hinsichtlich dieser Interaktion analysiert. Der positiven Bewertung dieser Kopplung folgte die Erzeugung von drei Mauslinien, die in der kodierenden Region eines spezifischen Geschmacksrezeptors (Tas1r1, Tas1r2, Tas2r114) Photorezeptoren exprimierten. Durch RT-PCR-, In-situ-Hybridisierungs- und immunhistochemische Experimente konnte der erfolgreiche Knockout der Rezeptorgene und der Knockin der Opsine belegt werden.
Der Nachweis der Funktionalität der Opsine im gustatorischen System wird Gegenstand zukünftiger Analysen sein. Bei erfolgreichem Beleg der Lichtempfindlichkeit von Geschmacksrezeptorzellen dieser Mausmodelle wäre ein System geschaffen, dass es ermöglichen würde, gustatorische neuronale Netzwerke und Hirnareale zu identifizieren, die auf einen reinen geschmacks- und qualitätsspezifischen Stimulus zurückzuführen wären. / Taste impression is based on the interaction of taste, smell and touch. To evaluate the nutritious content of food mammals possess five distinct taste qualities: sweet, bitter, umami (taste of amino acids), sour and salty. For bitter, sweet, and umami compounds taste signaling is initiated by binding of tastants to G protein-coupled receptors. The interactions of taste stimuli, usually watersoluble chemicals, with their cognate receptors lead to the activation of the G protein gustducin, which, in turn, initiates a signal resulting in the activation of gustatory afferents.
However, details of gustatory signal transmission and processing as well as neural coding are only incompletely understood. This is partly due to the property of some tastants to elicit several sensations simultaneously, unspecific effects caused by the temperature, viscosity, osmolarity, and pH of the solvents, as well as by mechanical stimulation of the tongue during stimulus application. The analysis of gustatory processing of taste information are mainly based on mouse models after stimulation with bitter taste stimuli. Even though it is known that the mouse genome codes for 35 bitter taste receptor genes only few of them had been analysed so far.
For better understanding and interpretation of animal experiments 16 mouse bitter receptors had been analysed by Calcium Imaging experiments with HEK293T cells. The data reveal that mouse bitter taste receptors are more narrow tuned than human bitter taste receptors, proving that the ligand spectra of murine and human orthologous receptors are not complient.
In order to avoid the disturbing effects of solvents and stimulus application on the analysis of gustatory information transfer and processing, I employ an optogenetical approach to address this problem.
For this purpose I generated three strains of gene-targeted mice in which the coding regions of the genes for the umami receptor subunit Tas1r1, the sweet receptor subunit Tas1r2 or the bitter taste receptor Tas2r114 have been replaced by the coding sequences of different opsins (photoreceptors of visual transduction) that are sensitive to light of various wavelengths. In these animals I should be able to activate sweet, bitter, or umami signalling by light avoiding any solvent effects.
In initial experiments of this project I demonstrated that the various visual opsins indeed functionally couple to taste signal transduction pathway in oocyte expression system, generating basic knowledge and foundation for the generation of the gene-targeted animals. The knockout-knockin strategies have been successfully realized in the case of all three mouse models, revealed by RT-PCR, in situ hybridization and immunohistochemical analysis of taste papillae. All data confirm that the particular taste receptors have been replaced by the different opsins in taste cells.
Further analysis concerning the functional consequences of opsin knockin and taste receptor knockout are part of prospective work.
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Characterization and Evolution of Transmembrane Proteins with Focus on G-protein coupled receptors in Pre-vertebrate SpeciesNordström, Karl J. V. January 2010 (has links)
G protein-coupled receptors (GPCRs) are one of the largest protein families in mammals. GPCRs are instrumental for hormonal and neurotransmitter signalling and are important in all major physiological systems of the body. Paper I describes the repertoire of GPCRs in Branchiostoma floridae, which is one of the species most closely related species to vertebrates. Mining and phylogenetic analysis of the amphioxus genome showed the presence of at least 664 distinct GPCRs distributed among all the main families of GPCRs; Glutamate (18), Rhodopsin (570), Adhesion (37), Frizzled (6) and Secretin (16). Paper II contains studies of the Adhesion, Methuselah and Secretin GPCR families in nine genomes. The Adhesion GPCRs are the most complex gene family among GPCRs with large genomic size, multiple introns and a fascinating flora of functional domains. Phylogenetic analysis showed Adhesion group V (that contains GPR133 and GPR144) to be the closest relative to the Secretin family among the groups in the Adhesion family, which was also supported by splice site setup and conserved motifs. Paper III examines the repertoire of human transmembrane proteins. These form key nodes in mediating the cell’s interaction with the surroundings, which is one of the main reasons why the majority of drug targets are membrane proteins. We identified 6,718 human membrane proteins and classified the majority of them into 234 families of which 151 belong to the three major functional groups; Receptors (63 groups, 1,352 members), Transporters (89 groups, 817 members) or Enzymes (7 groups, 533 members). In addition, 74 Miscellaneous groups were shown to include 697 members. Paper IV clarifies the hierarchy of the main families and evolutionary origin of majority of the metazoan GPCR families. Overall, it suggests common decent of at least 97% of the GPCRs sequences found in humans, including all the main families.
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Identifying and analysing alternative splice variants by aligning ESTs and mRNAs to the genomic sequenceGeirardsdottir, Kristin January 2005 (has links)
Questions have been raised about the genomic complexity of the human genome, since it was reported that it only consisted of 32,000 genes. Alternative splicing is considered the explanation of the enormous difference between the number of genes and the number of proteins. Aligning expressed sequence tags (ESTs) to the genomic sequence has become a popular approach for gene prediction, revealing alternative splice variants. The aim in this thesis is to identify and analyse splice variants of the adhesion family of G protein-coupled receptors using EST data. 75% of the genes in the data set of 33 sequences were found to have a total of 51 splice variants. About half of the variants were considered functional.
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Identifying and analysing alternative splice variants by aligning ESTs and mRNAs to the genomic sequenceGeirardsdottir, Kristin January 2005 (has links)
<p>Questions have been raised about the genomic complexity of the human genome, since it was reported that it only consisted of 32,000 genes. Alternative splicing is considered the explanation of the enormous difference between the number of genes and the number of proteins. Aligning expressed sequence tags (ESTs) to the genomic sequence has become a popular approach for gene prediction, revealing alternative splice variants. The aim in this thesis is to identify and analyse splice variants of the adhesion family of G protein-coupled receptors using EST data. 75% of the genes in the data set of 33 sequences were found to have a total of 51 splice variants. About half of the variants were considered functional.</p>
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CHARACTERIZATION OF THE ANGIOTENSIN TYPE 1 RECEPTOR AND THE BETA2 ADRENERGIC RECEPTOR PROPERTIES: THE INVOLVEMENT OF ARRESTIN2, RAB1 AND SOME MOLECULAR CHAPERONES IN THE ASSEMBLY AND TRAFFICKING OF GPCRSHammad, Maha 21 July 2010 (has links)
Current drugs used to treat Congestive Heart Failure target the renin-angiotensin and adrenergic systems. Studies showed increased mortality rates in patients treated with a combination of these medications. Angiotensin-AT1 and ?2-Adrenergic receptors were shown to form receptor heteromers. Blockade of one receptor in the complex can affect the signal transmitted by the other; suggesting that ligand-based therapy is not as selective as we might think. Modulating receptor trafficking after synthesis might prove to be a valid therapeutic strategy. Unfortunately, little is known about receptor assembly and transport from Endoplasmic Reticulum to Plasma Membrane. The objectives of this study are to identify the proteins that participate in the assembly of AT1R-?2AR heteromer and the regulators of the anterograde trafficking of G-Protein Coupled Receptors. This thesis introduces the role of important targets in those poorly understood processes. The identification of such targets could lead to developing better drugs with fewer adverse effects.
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Ultra-Low Dose Antagonist Effects on Cannabinoids and Opioids in Models of Pain: Is Less More?Paquette, Jay J. 08 November 2007 (has links)
An ultra-low dose of a drug is approximately 1000-fold lower than the dose range traditionally used to induce a therapeutic effect. The purpose of the present thesis was to broaden the knowledge of the ultra-low dose effect, that was previously identified in the opioid receptor system, by looking at whether opioids and cannabinoids interact at the ultra-low dose level, whether cannabinoid receptors themselves demonstrate the ultra-low dose antagonist effect, and whether the opioid ultra-low dose effect is maintained in a model of persistent, unavoidable pain. For experiment 1, separate groups of Long Evans rats were tested for antinociception following an injection of vehicle, the cannabinoid agonist WIN 55 212-2 (WIN), the opioid antagonist naltrexone (an ultra-low or a high dose), or a combination of WIN and naltrexone doses. Ultra-low dose naltrexone elevated WIN-induced tail flick thresholds without extending its duration of action. In experiment 2, antinociception was tested in rats following either acute or sub-chronic (7 days) injections of vehicle, WIN, ultra-low doses of the CB1 receptor antagonist rimonabant (SR 141716), or a combination of WIN and ultra-low dose rimonabant. Following the chronic experiment, striatal tissue was rapidly extracted and subjected to co-immunoprecipitation to analyse CB1 receptor coupling to G-protein subtypes. Ultra-low dose rimonabant extended the duration of WIN-induced antinociception, and attenuated the development of WIN-induced tolerance. Animals chronically treated with WIN alone had CB1 receptors predominately coupling to Gs proteins, whereas all other groups had CB1 receptors predominately coupling to Gi proteins. For experiment 3, all animals were subjected to the formalin test following either acute or sub-chronic injections of vehicle, the opiate morphine, ultra-low doses naltrexone, or a combination of morphine and ultra-low dose naltrexone. Ultra-low dose naltrexone had no significant effect on morphine-induced pain ratings in either the acute, or sub-chronic drug treatments. This thesis provides evidence that the ultra-low dose effect, including the agonist-induced G-protein coupling switch, extends to another receptor type. This effect may, therefore, be part of a generalized principle that applies to many G-protein coupled receptors. / Thesis (Ph.D, Psychology) -- Queen's University, 2007-11-05 09:31:30.162 / A portion of this research was supported by a Canadian Institutes of Health Research (CIHR) Proof of Principle Grant to M.C. Olmstead and J.J. Paquette.
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Identifying signaling differences between GPCR-induced growth factor receptor transactivation and direct ligand activationKouchmeshky, Azita 14 March 2014 (has links)
Growth factor receptors have significant effects on various normal function of body such as cell proliferation, differentiation and apoptosis. They are also involved in neuronal function and dysfunction, cardiovascular diseases, and malignancies. Recently, multiple G protein-coupled receptors (GPCRs) have been shown to transactivate receptor tyrosine kinases (RTKs). Since both classes of receptors have complicated downstream cascades individually, understanding the signaling differences between GPCR-induced growth factor receptor transactivation and direct ligand activation is an important challenge. To clarifying this phenomenon we investigated the phosphorylation profile and downstream effectors of ligand-activated vs. transactivated PDGF?? receptors. Dopamine receptors (one of the receptors of the GPCRs family) were used to compare the PDGF?? receptor phosphorylation and activity during direct activation and transactivation. Dose-response and time-course data between these two stimuli were evaluated. Furthermore, the phosphorylation site profiles and the intracellular signaling pathways of PDGF?? receptor after direct activation and transactivation were examined. In addition, possible synergic effects between transactivation and direct activation were explored. The results of this project showed that the phosphorylation profile and downstream effectors of ligand activated receptors versus transactivated receptors are different. Our data indicated that transactivation-induced pathways are more involved in survival and proliferation effects compared to ligand activation. This research answered basic questions about transactivation phenomena and proposes that these transactivation pathways could be exploited as a therapeutic approach for neurodegenerative diseases.
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The mechanism of G protein coupled receptor activation: the serotonin receptorsSallander, Eva Jessica 04 July 2011 (has links)
Una de las principales cuestiones en farmacología molecular de los GPCR es entender los mecanismos estructurales de las siete hélices transmembrana (TM) que se producen para estabilizar ya sea Rg o los diferentes estados R*. Para entender el mecanismo que cambia el equilibrio del conjunto a un estado activo R* se construyeron tres de los receptores de la serotonina (5-HT4, 5-HT6, y 5 HT7) sobre la base de su información más reciente de cristalografía de rayos X. Dando lugar a dos modelos de cada receptor: una inactiva y otra activa. Los modelos, mejorados y evaluados con la ayuda de datos farmacológicos y químicos se utilizaron principalmente para comprender la interacción entre un ligando y su receptor y su mecanismo de acción. Estos hallazgos estructurales pueden a su vez resultar útiles para el diseño de nuevos fármacos más eficaces y selectivos. / One of the main questions in G protein coupled receptors (GPCRs) molecular pharmacology is to understand the structural arrangements of the seven transmembrane (TM) helices that occur to stabilize either the ground state (Rg) or different active states (R*) of the receptors. In order to understand the mechanism that shift the equilibrium of the ensemble to an active R* state models of the inactive and the active state of three serotonin receptors (5-HT4, 5-HT6, and 5-HT7) were built based on the latest information from X-ray crystallography. The resulting models were mainly used to understand the interaction between a ligand and its receptor and the mechanism of action. With the help of pharmacological and chemical data these models and complexes were improved and evaluated. These findings may prove valuable for structural based drug discovery efforts and facilitate the design of more effective and selective pharmaceuticals.
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