Úloha proteinu NtRGS1 v buněčné signalizaci a regulaci růstu buněk tabákové linie BY-2. / Role of protein NtRGS1 in cell signaling and regulation of growth of tobacco BY-2 cell line.

Šonka, Josef

January 2014

5 Abstract The thesis is focused on the role of regulator of G-protein signaling NtRGS1 in control of growth and cell proliferation of tobacco cell line BY-2. The protein NtRGS1 is an important candidate for being plant G-protein coupled receptor. Heterotrimeric G-proteins are involved in key signaling mechanisms in eukaryotic cells. Basic principles of this type of signaling are well conserved between plants and animals and related higher taxa. Outstanding difference of plant G-protein system is altered enzymatic activity of Gα subunit of the G-protein heterotrimer. These alterations correlate with chimeric structure and function of investigated NtRGS1 protein. The interaction of Gα and NtRGS1 is absolutely essential for running of heterotrimeric G-protein signaling in plants. Truncated versions of NtRGS1 fused to GFP were crated in the aim of protein characterization. The truncated proteins were investigated in respect of analysis of the role of NtRGS1 domains in protein targeting. Dynamic changes in NtRGS1 and selected truncated versions induced by experimental application of nutrition, especially sugars were described. Expression if Gα and NtRGS1 were investigated simultaneously. Influence of modulation of Gα and NtRGS1 expression on growth parameters of tobacco cell line BY-2 were described. Key words:...

Maturation of GABAergic signaling during brainstem development / Die Änderung der GABAerger Signalwege in der Hirnstammreifung

Tantalaki, Evangelia

05 July 2007

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

GABA

GABAA-Rezeptor

GABAB-Rezeptor

Signaltransduktion

G-protein

Entwicklung

GABA

GABAA receptor

GABAB receptor

Signal transduction

G protein

development

Biologie

Biologie

Functional relevance of naturally occurring mutations in adhesion G protein-coupled receptor ADGRD1 (GPR133)

Fischer, Liane, Wilde, Caroline, Schöneberg, Torsten, Liebscher, Ines

18 August 2016

Background: A large number of human inherited and acquired diseases and phenotypes are caused by mutations in G protein-coupled receptors (GPCR). Genome-wide association studies (GWAS) have shown that variations in the ADGRD1 (GPR133) locus are linked with differences in metabolism, human height and heart frequency. ADGRD1 is a Gs protein-coupled receptor belonging to the class of adhesion GPCRs. Results: Analysis of more than 1000 sequenced human genomes revealed approximately 9000 single nucleotide polymorphisms (SNPs) in the human ADGRD1 as listed in public data bases. Approximately 2.4 % of these SNPs are located in exons resulting in 129 non-synonymous SNPs (nsSNPs) at 119 positions of ADGRD1. However, the functional relevance of those variants is unknown. In-depth characterization of these amino acid changes revealed several nsSNPs (A448D, Q600stop, C632fs [frame shift], A761E, N795K) causing full or partial loss of receptor function, while one nsSNP (F383S) significantly increased basal activity of ADGRD1. Conclusion: Our results show that a broad spectrum of functionally relevant ADGRD1 variants is present in the human population which may cause clinically relevant phenotypes, while being compatible with life when heterozygous.

G-Protein-gekoppelte Rezeptor 133

ADGRD1

Adhäsions-G-Protein-gekoppelte Rezeptor

Mutation

Einzelnukleotid-Polymorphismus

Datenbank

GPR133

ADGRD1

Adhesion GPCR

Mutations

SNP

Database

ddc:572

Mechanismen der Immunmodulation durch die Genprodukte US11 und US28 des humanen Zytomegalievirus

Droese, Jana

08 November 2005

Humane Zytomegalieviren (HCMV) etablieren nach einer Primärinfektion eine lebenslange latente oder persistierende Infektion. Es wird allgemein angenommen, daß hieran die Manipulation der humanen Immunantwort durch das Virus beteiligt ist. Hierzu zählen die Hemmung von zytotoxischen CD8+ T-Zellen durch das Genprodukt US11 und die Beeinträchtigung der Leukozytenwanderung durch die Hemmung des Chemokinsystems durch den Chemokinrezeptor US28. Die Effizienz der US11-vermittelten Hemmung der T-Zell-Aktivierung wurde in einem rekombinanten Modell zur MHC-Klasse-I-vermittelten T-Zell-Aktivierung untersucht. Obwohl die Expression der MHC-Klasse-I-Moleküle durch US11 in dendritische Zellen (DCs) um bis zu 60% vermindert war, konnte keine Hemmung der T-Zell-Proliferation beobachtet werden. US28 ist der einzige funktionelle Rezeptor für die inflammatorischen Chemokine MCP-1, MCP-3, RANTES, MIP-1(, MIP-1( sowie Fraktalkine. Er kann sowohl Liganden-abhängig die Aktivierung von MAPK als auch die konstitutive Aktivierung von NF-(B vermitteln. In der vorliegenden Arbeit konnte mit Hilfe einer Rezeptormutante der Argininrest an Position 129 des DRY-Motivs als Voraussetzung für die Aktivierung der Signalwegen identifiziert werden. Ferner bewirkt die Expression des US28-Rezeptors die Entfernung inflammatorischer Chemokine aus der Umgebung infizierter Zellen. Molekulare Grundlage der Liganden-Depletion stellt die Endozytose des US28-Liganden-Komplexes dar. Es konnte gezeigt werden, daß der US28-Rezeptor eine Umlagerung von (-Arrestin-Molekülen in Vesikel vermittelt, jedoch unabhängig von Arrestin-Molekülen endozytiert wird. Die Endozytose des US28-Rezeptors war abhängig von der GTP-ase Dynamin. Ebenso konnte die Beteiligung des Lipid-Raft-Weges an der US28-Endozytose gezeigt werden. Die Hemmung des Clathrinweges bewirkte jedoch eine zweifach stärkere Verminderung der US28-Endozytose, kann der Clathrin-abhängige Weg als der Hauptweg der US28-Endozytose angesehen werden. / Primary infections of the human cytomegalovirus (HCMV) are followed by a lifelong infection in the state of latency or persistence. It is believed that the virus employs a number of immunomodulatory mechanisms to establish latent infections. Among these are the inhibition of cytotoxic CD8+ T-cells by US11 and the impairment of leukocyte migration by US28. The potency of US11 to mediate the inhibition of T-cell activation was analysed in a model of MHC class I mediated T-cell activation. Surface expression of MHC class I molecules was reduced by 60 % after expression of US11 in murine dendritic cells. In contrast, there was no reduction in the capacity of the dendritic cells to induce T-cell proliferation. The US28 gene product has been characterized as a functional receptor for the inflammatory chemokines RANTES, MCP-1, MCP-3, MIP-1?? MIP-1? and fractalkine.Upon ligand stimulation US28 mediates the activation of MAPK and additionally a constitutive activation of NF-?B. By generating site directed receptor mutant it was shown that the arginine at position 129 represents a structural requirement for both the ligand-induced and the constitutive signaling by US28. Moreover, it was suggested that the US28 dependent sequestration of chemokines from the environment of infected cells hinders leukocytes from the recruitment to sites of viral infection. A molecular mechanism for the ligand depletion is provided by the endocytosis of US28-ligand complexes. Studies revealed that US28 expression induced a redistribution of ?-arrestin molecules into vesicular structures but was dispensable for the endocytosis of the US28 receptor. However, US28 internalization was dependent on the small GTPase dynamin and by impaired receptor endocytosis after inhibition of the lipid raft pathway. Since inhibition of the clathrin dependent pathway resulted in a two-fold stronger reduction of US28 endocytosis, the clathrin-dependent pathway can be considered as the major route of US28 endocytosis.

Dendritische Zellen

US28

US11

G-Protein gekoppelter Rezeptor

HCMV

Internalisierung

dendritic cells

US28

US11

G protein coupled receptor

HCMV

internalization

570 Biowissenschaften, Biologie

32 Biologie

ddc:570

MODIFICATION OF VESICULAR STOMATITIS VIRUS G PROTEIN FOR TARGETED GENE DELIVERY INTO PSCA-POSITIVE TUMOR CELLS

Günes, Serap

26 June 2007

Gene therapy is a promising treatment option for cancer. Ideally, a therapeutic gene is delivered specifically into tumor cells sparing the neighboring normal cells. For this purpose gene delivery vectors are designed that can recognize structures, which are exclusively expressed on tumor cells (i.e. the tumor-associated antigens -TAA-). Retroviral vectors are commonly used for gene therapy by modifying the envelope protein responsible for the recognition of the target cell. The Vesicular Stomatitis Virus G protein (VSV-G) is a well-liked choice for pseudotyping the retroviral vectors since it confers on the viral particle stability to allow concentration to high titers necessary for the clinical applications. However, the main drawback of VSV-G, the ubiquitously expressed receptor and thus the broad target range, hinders the use of this protein for targeted gene therapy. In this thesis, we aimed to modify the VSV-G for targeted gene therapy against Prostate Stem Cell Antigen (PSCA) -expressing tumors. Therefore we followed two approaches. The first approach comprised of the fusion of a single-chain antibody fragment against PSCA to the N-terminus of VSV-G. In the second approach the VSV-G was modified by insertion of a small epitope. We could demonstrate that two positions in the N-terminal region of VSV-G protein permit insertion of a ten amino acid long epitope. These mutant VSV-G proteins were successfully assembled into retroviral particles. We demonstrated that the mutant retroviral particles can be used for targeting to PSCA-positive cells using nanobeads. The nanobeads were chemically coupled to antibodies against the epitope in the VSV-G protein and PSCA on the tumor cell. These bispecific nanobeads allowed the recruitment of mutant retroviral particles to the PSCApositive cells. Our results point out the potential of these mutant retroviral particles in targeted gene delivery. Further studies will be necessary to assess the efficiency of in vivo targeted gene therapy using these mutant retroviral particles.

Vesicular Stomatitis Virus G protein

gene therapy

viral vectors

Vesicular-Stomatitis-Virus G Protein

Gentherapie

Virale Vektoren

ddc:570

rvk:WG 7400

Aminerge Signaltransduktion bei Insekten / Aminergic signal transduction in insects

Blenau, Wolfgang

January 2006

Biogene Amine sind kleine organische Verbindungen, die sowohl bei Wirbeltieren als auch bei Wirbellosen als Neurotransmitter, Neuromodulatoren und/oder Neurohormone wirken können. Sie bilden eine bedeutende Gruppe von Botenstoffen und entfalten ihre Wirkungen über die Bindung an eine bestimmte Klasse von Rezeptorproteinen, die als G-Protein-gekoppelte Rezeptoren bezeichnet werden. Bei Insekten gehören zur Substanzklasse der biogenen Amine die Botenstoffe Dopamin, Tyramin, Octopamin, Serotonin und Histamin. Neben vielen anderen Wirkung ist z.B. gezeigt worden, daß einige dieser biogenen Amine bei der Honigbiene (Apis mellifera) die Geschmacksempfindlichkeit für Zuckerwasser-Reize modulieren können. Ich habe verschiedene Aspekte der aminergen Signaltransduktion an den „Modellorganismen“ Honigbiene und Amerikanische Großschabe (Periplaneta americana) untersucht. Aus der Honigbiene, einem „Modellorganismus“ für das Studium von Lern- und Gedächtnisvorgängen, wurden zwei Dopamin-Rezeptoren, ein Tyramin-Rezeptor, ein Octopamin-Rezeptor und ein Serotonin-Rezeptor charakterisiert. Die Rezeptoren wurden in kultivierten Säugerzellen exprimiert, um ihre pharmakologischen und funktionellen Eigenschaften (Kopplung an intrazelluläre Botenstoffwege) zu analysieren. Weiterhin wurde mit Hilfe verschiedener Techniken (RT-PCR, Northern-Blotting, in situ-Hybridisierung) untersucht, wo und wann während der Entwicklung die entsprechenden Rezeptor-mRNAs im Gehirn der Honigbiene exprimiert werden. Als Modellobjekt zur Untersuchung der zellulären Wirkungen biogener Amine wurden die Speicheldrüsen der Amerikanischen Großschabe genutzt. An isolierten Speicheldrüsen läßt sich sowohl mit Dopamin als auch mit Serotonin Speichelproduktion auslösen, wobei Speichelarten unterschiedlicher Zusammensetzung gebildet werden. Dopamin induziert die Bildung eines völlig proteinfreien, wäßrigen Speichels. Serotonin bewirkt die Sekretion eines proteinhaltigen Speichels. Die Serotonin-induzierte Proteinsekretion wird durch eine Erhöhung der Konzentration des intrazellulären Botenstoffs cAMP vermittelt. Es wurden die pharmakologischen Eigenschaften der Dopamin-Rezeptoren der Schaben-Speicheldrüsen untersucht sowie mit der molekularen Charakterisierung putativer aminerger Rezeptoren der Schabe begonnen. Weiterhin habe ich das ebony-Gen der Schabe charakterisiert. Dieses Gen kodiert für ein Enzym, das wahrscheinlich bei der Schabe (wie bei anderen Insekten) an der Inaktivierung biogener Amine beteiligt ist und im Gehirn und in den Speicheldrüsen der Schabe exprimiert wird. / Biogenic amines are small organic compounds that act as neurotransmitters, neuromodulators and/or neurohormones in vertebrates and in invertebrates. They form an important group of messenger substances and mediate their diverse effects by binding to membrane receptors that primarily belong to the large gene-family of G protein-coupled receptors. In insects, the group of biogenic amine messengers consists of five members: dopamine, tyramine, octopamine, serotonin, and histamine. Besides many other effects, some of these biogenic amines were shown, for example, to modulate gustatory sensitivity to sucrose stimuli in the honeybee (Apis mellifera). I have investigated various aspects of the aminergic signal transduction in the “model organisms” honeybee and American cockroach (Periplaneta americana). So far, I have characterized two dopamine receptors, a tyramine receptor, an octopamine receptor and a serotonin receptor of the honeybee, which is well-known for its learning and memory capacities. The receptors where expressed in cultivated mammalian cells in order to analyze their pharmacological and functional (i.e., second messenger coupling) properties. The spatiotemporal expression patterns of the respective receptor mRNA were investigated in the honeybee brain by using different techniques (RT PCR, Northern blotting, in situ-hybridization). The salivary glands of the American cockroach were used as a model object in order to investigate the cellular effects of biogenic amines. Both dopamine and serotonin trigger salivary secretion in isolated salivary glands. The quality of the secreted saliva is, however, different. Stimulation of the glands by serotonin results in the production of a protein-rich saliva, whereas stimulation by dopamine results in saliva that is protein-free. Serotonin-induced protein secretion is mediated by an increase in the intracellular concentration of cAMP. The pharmacological properties of dopamine receptors associated with cockroach salivary glands were investigated and the molecular characterization of putative aminergic receptors of the cockroach was initiated. Furthermore, I have characterized the ebony gene of the cockroach. This gene encodes an enzyme that is probably involved in the inactivation of biogenic amines in the cockroach (as in other insects). The ebony gene is expressed in the brain and in the salivary glands of the cockroach.

Neurotransmitter-Rezeptor

Dopamin

Tyramin

Octopamin

Serotonin

Insekten

Biene

Amerikanische Schabe

Biogene Amine

G-Protein-gekoppelte-Rezeptoren

biogenic amines

G protein-coupled receptors

honeybee

salivary gland

Life sciences

Chemokine receptors CXCR4 and CCR5: Cell surface expression, signaling and modulation by β-arrestin 2

Liebick, Marcel

23 October 2014

No description available.

610

CXCR4

CCR5

GPCR

Heterodimerization

Homodimerization

Chemokine

Chemokine receptor

G protein

Arrestin

G protein coupled receptor

Internalization

AP TAG

AP21967

AP20187

Biotion ligase A

BirA

Medizin (PPN619874732)

Structure, Function and Dynamics of G-Protein coupled Receptors

Eichler, Stefanie

09 February 2012

Understanding the function of membrane proteins is crucial to elucidate the molecular mechanisms by which transmembrane signaling based physiological processes,i. e., the interactions of extracellular ligands with membrane-bound receptors, are regulated. In this work, synthetic transmembrane segments derived from the visual photoreceptor rhodopsin, the full length system rhodopsin and mutants of opsin are used to study physical processes that underlie the function of this prototypical class-A G-protein coupled Receptor. The dependency of membrane protein hydration and protein-lipid interactions on side chain charge neutralization is addressed by fluorescence spectroscopy on synthetic transmembrane segments in detergent and lipidic environment constituting transmembrane segments of rhodopsin in the membrane. Results from spectroscopic studies allow us to construct a structural and thermodynamical model of coupled protonation of the conserved ERY motif in transmembrane helix 3 of rhodopsin and of helix restructuring in the micro-domain formed at the protein/lipid water phase boundary. Furthermore, synthesized peptides and full length systems were studied by time resolved FTIR-Fluorescence Cross Correlation Hydration Modulation, a technique specifically developed for the purpose of this study, to achieve a full prospect of time-resolved hydration effects on lipidic and proteinogenic groups, as well as their interactions. Multi-spectral experiments and time-dependent analyses based on 2D correlation where established to analyze large data sets obtained from time-resolved FTIR difference spectra and simultaneous static fluorescence recordings. The data reveal that lipids play a mediating role in transmitting hydration to the subsequent membrane protein response followed by water penetration into the receptor structure or into the sub-headgroup region in single membrane-spanning peptides carrying the conserved proton uptake site (monitored by the fluorescence emission of hydrophobic buried tryptophan). Our results support the assumption of the critical role of the lipid/water interface in membrane protein function and they prove in particular the important influence of electrostatics, i. e., side chain charges at the phase boundary, and hydration on that function. / Für die Aufklärung der molekularen Wirkungsweise von physiologischen, auf Signaltransduktion, d. h. dem Zusammenspiel von extrazellulären Reizen und membrangebundenen Rezeptoren, beruhenden Prozessen ist das Verständnis der Funktion von Membranproteinen unerlässlich. In dieser Arbeit werden von Rhodopsin abgleitete, synthetische transmembrane Segmentpeptide, Opsin-Mutanten und der vollständige Photorezeptor Rhodopsin untersucht, um die physikalischen Prozesse zu beleuchten, die der Funktionen dieses prototypischen Klasse-A G-Protein gekoppelten Rezeptors zugrunde liegen. Die Abhängigkeit der Membranprotein-Hydratation und der Lipid-Protein-Wechselwirkung von der Ladung einer Aminosäuren-Seitenkette wird erforscht. Hierzu werden synthetische, transmembrane Segmentpeptide in Lipid und Detergenz, als Modell transmembraner Segmente von Rhodopsin in der Membran mittels Fluoreszenzspektroskopie untersucht. Aus den erhaltenen Ergebnissen wird ein thermodynamisches und strukturelles Modell hergeleitet, welches die Kopplung der Protonierung des hochkonservierten ERY-Motivs in Transmembranhelix 3 von Rhodopsin an die Restrukturierung der Helix in der Mikroumgebung der Lipid-Wasser-Phasengrenze erklärt. Des Weiteren werden sowohl die Segementpeptide als auch die vollständigen Systeme Opsin und Rhodopsin mittels zeitaufgelöster FTIR-Fluoreszenz-Kreuzkorrelations-Hydratations-Modulation untersucht. Diese Technik wurde eigens zur Aufklärung von zeitabhängigen Hydratationseffekten auf Lipide und Proteine oder Peptide entwickelt. Dabei werden zeitaufgelöste FTIR Differenz-Spektren und gleichzeitig statische Fluoreszenzsignale aufgenommen und diese zeitabhängigen multispektralen Datensätze mittels 2D Korrelation analysiert. Die Auswertung der Experimente enthüllt einen sequentiellen Hydratationsprozess. Dieser beginnt mit der Bildung von Wasserstoffbrückenbindungen an der Carbonylgruppe des Lipids, gefolgt von Strukturänderungen der Transmembranproteine und abgeschlossen durch das Eindringen von Wasser in das Proteininnere. Letzteres wird nachgewiesen durch die Fluoreszenz von Tryptophan im hydrophoben Peptid- oder Proteininneren. Die Ergebnisse dieser Arbeit unterstreichen die Annahme, dass Lipid-Protein-Wechselwirkungen eine entscheidende Rolle in der Funktion von Membranproteinen spielen und das insbesondere Elektrostatik, in Form von Ladungen an der Phasengrenze, und die Hydratisierung einen kritischen Einfluss auf diese Funktion haben.

Membranprotein

G-Protein gekoppelter Rezeptor

Lipid

Protonen

Proteinstruktur

FTIR

Fluoreszenz

membrane protein

G-protein coupled receptor

lipid

proton

protein structure

FTIR

fluorescence

ddc:570

rvk:WE 5160

Etude du rôle de protéines G dans les gliomes de haut grade : Implication dans la migration et le phénotype mésenchymateux. / Study of the role of G proteins in high-grade gliomas : implication in migration and the mesenchymal phenotype

Dembélé, Kléouforo-Paul

18 December 2019

Représentant environ 45% de tous les gliomes, le GBM est la tumeur cérébrale la plus agressive chez l’adulte. Comme nous l’avons décrit dans l’introduction de ce manuscrit, le caractère très hétérogène du GBM associé aux signatures moléculaires et expressions géniques, mais également aux conditions microenvironnementales hypoxique et inflammatoire, contribuent à la récidive quasi-systématique après exérèse complète-radio/chimiothérapie, et expliquent les nombreux échecs thérapeutiques. Malgré l’arsenal thérapeutique potentiellement disponible, appliqué parfois de manière multimodale, la survie des patients atteints de GBM n’est pas significativement améliorée, les défis à relever pour améliorer cette survie et la qualité de vie des patients restent énormes. Ainsi, l'identification de facteurs exprimés de manière différentielle qui pourraient mieux définir le comportement agressif des cellules de GBM fournirait une base pour le développement de thérapies innovantes et peut-être plus efficaces. Une des caractéristiques des GBMs est leur capacité très migratoire et invasive, relayées principalement par des facteurs chimiotactiques dans un microenvironnement tumoral hypoxique et inflammatoire. Les récepteurs couplés aux protéines G (RCPGs) et leurs ligands, particulièrement les RCPGs de chimiokines, surexprimés dans les GBMs et stimulant la migration chimiotactique, l’invasion et l’angiogenèse jouent un rôle majeur dans le développement des GBMs et l'acquisition d'un phénotype agressif. Dans ce contexte, notre équipe avait démontré que le récepteur UT de l’urotensine II (UII), une chimiokine peptidique pro-angiogénique et pro-inflammatoire, ainsi que le système chimiokine bien connu SDF-1a/CXCR4 semblent systématiquement co-exprimés dans les GBMs, plus spécifiquement dans les zones vasculaires et périnécrotiques, montrant une corrélation avec le grade des gliomes. In vitro, nous avions aussi établi que l’UII/UT stimule la migration chimiotactique des cellules de GBM via les couplages de type Gαi/PI3K et Gα13/Rho/ROCK, des couplages précédemment mis en évidence pour le système SDF-1α/CXCR4 et d’autres RCPGs chimiotactiques. De plus, une récente analyse de la base de données TCGA (The Cancer Genome Atlas) en composante principale réalisée par Alexandre Mutel, étudiant en thèse dans l’équipe, a permis d’identifier la signature d’expression des RCPGs exprimés dans les gliomes et particulièrement dans les GBMs, qui révèle un nombre très important de RCPGs chimiotactiques. Dans l’ensemble, leur expression et activité signalisante redondantes fréquemment associées à la tumorigenèse, en particulier dans les GBMs, soulignent l’intérêt d’étudier les noeuds de signalisation communs à l’ensemble de ces RCPGs chimiokines. Ces noeuds sont principalement représentés par les protéines G hétérotrimériques composées des sous-unité α, β et γ, qui couplent ces RCPGs et relayent les effecteurs secondaires intracellulaires, probablement essentiels à la régulation de l’agressivité des GBMs. Ainsi, l’objectif de mon travail de thèse était d’identifier les principales protéines Ga, b et g parmi les 31 protéines G exprimées chez l’Homme dans les gliomes et celles plus spécifiquement associées au degré de malignité, et à l’agressivité des GBMs puis à déterminer le rôle d’une de ces protéines G dans les mécanismes de prolifération et d’invasion de cellules de GBM. Dans un premier temps, nous avons analysé l’expression des 31 sous-unités (15α, 5β et 11γ) de protéines G sur la base de données transcriptomiques du The Cancer Genome Atlas (TCGA), et démontré que les niveaux d'ARNm codant pour les sous-unités Gαz, Gαi1, Gβ4, Gβ5 et Gγ3 sont relativement faibles dans les GBMs tandis que les sous-unités Gα12, Gα13, Gα15, Gαi2, Gαi3, Gβ2, Gγ5, Gγ11 et Gγ12 sont particulièrement surexprimées dans les GBMs et sont associées à un mauvais pronostic en termes de récidive et de survie du patient. / GBM is the most common (∼45% of all gliomas) and aggressive primary malignant brain tumor in adults. As described in this document's introduction, GBM highly heterogeneous phonotype associated with molecular signatures and gene expressions, but also with hypoxic and inflammatory microenvironmental conditions, contribute to frequent recurrence after complete resection-radio/chemotherapy, and explain the multiple therapeutic failures. Most of the current treatment options for GBM, although sometimes multimodal, the survival of GBM patients is not significantly improved, and the challenges to improve patient survival and quality of life remain enormous. Thus, the identification of differentially expressed factors that could better define the biological behavior of GBM, would provide a basis for the development of novel therapies and may be more effective. One of the characteristics of GBMs is their highly migratory and invasive properties, relayed mainly by chemotactic factors belonging to the hypoxic and inflammatory tumor microenvironment. G-protein coupled receptors (GPCRs) and their ligands, particularly the chemokines GPCRs, overexpressed in GBMs and stimulating migration, invasion and neoangiogenesis, play a key role in the development of GBM and the acquisition of an aggressive phenotype. In this context, our team demonstrated that UT, the receptor of urotensin II (UII), a pro-angiogenic and pro-inflammatory chemokine, as well as the well-known chemokine system SDF-1/CXCR4 are systematically co-expressed in GBMs particularly in vascular and perinecrotic areas and their expression are correlated with grade. We also demonstrated in vitro that UII/UT stimulate GBM cells chemotactic migration and invasion via activation of the pathways Gαi/PI3K and Gα13/Rho/ROCK, pathways that have previously been identified for the SDF-1α/CXCR4 system and other chemotactic GPCRs. In addition, a recent principal component analysis of TCGA (The Cancer Genome Atlas) database performed by Alexandre Mutel, PhD student in the team, has identified the expression signature of GPCRs in gliomas and particularly those which are overexpressed in mesenchymal GBM, among which many chemotactic GPCRs are included. Taking together, their redundant expression and signaling activity frequently associated with tumorigenesis, particularly in GBMs, raises the issue of studying signaling nodes common to all these GPCRs. These nodes, are primarily represented by heterotrimeric G proteins, composed of α, β and γ subunits, that couple these GPCRs relaying many intracellular secondary effectors, probably essentials in the regulation of GBM aggressiveness. In this context, the aim of my thesis work was to identify the main Ga, b and g subunits among the 31 G proteins expressed in human gliomas and those more specifically associated with the malignant grade, and the aggressiveness of GBMs and then to determine the role of one of these specific G proteins in GBM cells proliferation and invasion mechanisms. For that, we first analyzed the expression of the 31 subunits (15α, 5β and 11γ) of G proteins from the TCGA database and showed that the mRNA expression of Gαz, Gαi1, Gβ4, Gβ5 et Gγ3 are relatively low in GBMs while Gα12, Gα13, Gα15, Gαi2, Gαi3, Gβ2, Gγ5, Gγ11 and Gγ12 subunits, are particularly overexpressed in GBM and are associated with a poor prognosis in terms of recurrence and patient survival.

Glioblastome

Protéines G

Gliomes

Récépteurs couplés aux protéines G

Mésenchymateux

Cancer du Cerveau

Glioblastoma

G protein

Glioma

G protein-coupled receptor

Mesenchymal

Brain Cancer

616.994

Deciphering and modulating G protein signalling in C. elegans using the DREADD technology

Prömel, Simone, Fiedler, Franziska, Binder, Claudia, Winkler, Jana, Schöneberg, Torsten, Thor, Doreen

January 2016

G-protein signalling is an evolutionary conserved concept highlighting its fundamental impact on developmental and functional processes. Studies on the effects of G protein signals on tissues as well as an entire organism are often conducted in Caenorhabditis elegans. To understand and control dynamics and kinetics of the processes involved, pharmacological modulation of specific G protein pathways would be advantageous, but is difficult due to a lack in accessibility and regulation. To provide this option, we designed G protein-coupled receptor-based designer receptors (DREADDs) for C. elegans. Initially described in mammalian systems, these modified muscarinic acetylcholine receptors are activated by the inert drug clozapine N-oxide, but not by their endogenous agonists. We report a novel C. elegans-specific DREADD, functionally expressed and specifically activating Gq-protein signalling in vitro and in vivo which we used for modulating mating behaviour. Therefore, this novel designer receptor demonstrates the possibility to pharmacologically control physiological functions in C. elegans.

info:eu-repo/classification/ddc/572

ddc:572