Global ETD Search

111	MODIFICATION OF VESICULAR STOMATITIS VIRUS G PROTEIN FOR TARGETED GENE DELIVERY INTO PSCA-POSITIVE TUMOR CELLS Günes, Serap 21 June 2007 (has links) 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. info:eu-repo/classification/ddc/570 ddc:570
112	Augmenting structure/function relationship analysis with deep learning for the classification of psychoactive drug activity at Class A G protein-coupled receptors Shows, Hannah Willow January 2021 (has links) No description available. Bioinformatics Biomedical Engineering Biomedical Research Computer Science G protein-coupled receptors Class A G protein-coupled receptors GPCRs psychoactive drug activity deep learning
113	Role of molecular chaperones in G protein B5-Regulator of G protein signaling dimer assembly and G protein By dimer specificity Howlett, Alyson Cerny 02 April 2009 (has links) (PDF) In order for G protein signaling to occur, the G protein heterotrimer must be assembled from its nascent polypeptides. The most difficult step in this process is the formation of the Gβγ dimer from the free subunits since both are unstable in the absence of the other. Recent studies have shown that phosducin-like protein (PhLP1) works as a co-chaperone with the cytosolic chaperonin complex (CCT) to fold Gβ and mediate its interaction with Gγ. However, these studies did not address questions concerning the scope of PhLP1 and CCT-mediated Gβγ assembly, which are important questions given that there are four Gβs that form various dimers with 12 Gγs and a 5th Gβ that dimerizes with the four regulator of G protein signaling (RGS) proteins of the R7 family. The data presented in Chapter 2 shows that PhLP1 plays a vital role in the assembly of Gγ2 with all four Gβ1-4 subunits and in the assembly of Gβ2 with all twelve Gγ subunits, without affecting the specificity of the Gβγ interactions. The results of Chapter 3 show that Gβ5-RGS7 assembly is dependent on CCT and PhLP1, but the apparent mechanism is different from that of Gβγ. PhLP1 seems to stabilize the interaction of Gβ5 with CCT until Gβ5 is folded, after which it is released to allow Gβ5 to interact with RGS7. These findings point to a general role for PhLP1 in the assembly of all Gβγ combinations, and suggest a CCT-dependent mechanism for Gβ5-RGS7 assembly that utilizes the co-chaperone activity of PhLP1 in a unique way. Chapter 4 discusses PhLP2, a recently discovered essential protein, and member of the Pdc family that does not play a role in G protein signaling. Several studies have indicated that PhLP2 acts as a co-chaperone with CCT in the folding of actin, tubulin, and several cell cycle and pro-apoptotic proteins. In a proteomics screen for PhLP2A interacting partners, α-tubulin, 14-3-3, elongation factor 1α, and ribosomal protein L3 were found. Further proteomics studies indicated that PhLP2A is a phosphoprotein that is phosphorylated by CK2 at threonines 47 and 52. Phosducin-like protein 1 PhLP1 chaperone chaperonin CCT Gβ 5 Gβ γ RGS Regulator of G protein signaling G protein assembly Phosducin-like protein 2 PhLP2 Biochemistry Chemistry
114	Modulating G Protein-Coupled Receptor Signaling Pathways with Selective Chemical- and Protein-Based Effector Molecules Gulati, Sahil, Gulati 31 August 2018 (has links) No description available. Biomedical Research Biophysics Technology Nanotechnology Molecular Chemistry Biology G protein-coupled receptors GPCR optogenetics rhodopsin opsin G protein Gbetagamma transducin nanobodies nanobody
115	Deciphering the function of G protein-coupled receptor 30 Isensee, Jörg 21 August 2009 (has links) Der G Protein-gekoppelte Rezeptor 30 (GPR30) wurde vornehmlich im Kontext von schnellen Östrogeneffekten auf zelluläre Signaltransduktionskaskaden untersucht und stellt möglicherweise einen neuen Östrogenrezeptor dar. Die physiologische Funktion von GPR30 in vivo konnte jedoch bisher nicht ermittelt werden. Daher wurde in dieser Arbeit ein Gpr30-defizientes Mausmodell charakterisiert, bei dem ein Teil der kodierenden Sequenz durch einen LacZ-Reporter ersetzt wurde (Gpr30-lacZ). Die Integration des Konstruktes in den Gpr30-Locus wurde mittels Southern blotting und Real-time PCR verifiziert. Gpr30-positive Zelltypen wurden durch Kolokalisation von LacZ mit zelltyp-spezifischen Markerproteinen identifiziert. Weitere Versuche dienten der Aufklärung des Phänotyps von Gpr30-lacZ Mäusen. Zur Identifizierung von Proteinen des GPR30-Signalkomplexes wurden Yeast-Two-Hybrid Analysen mit der N- bzw. C-terminalen Domäne des Rezeptors durchgeführt. Die wesentlichen LacZ-positiven Zellpopulationen waren (i) Endothelzellen in kleinen arteriellen Gefäßen, (ii) glatte Muskelzellen, Perizyten und neuronale Subpopulationen im Gehirn, (iii) Hauptzellen in der Magenschleimhaut, (iv) Zellpopulationen in der Adenohypophyse und dem Hypophysenzwischenlappen sowie (vi) chromaffine Zellen im Nebennierenmark. Während der Phenotypisierung des Mausmodells wurde eine Reduktion der CD62L+ T-Zellen von ca. 50% im peripheren Blut festgestellt. Mittels Yeast Two-Hybrid Analyse wurden Pals1-associated tight junction protein (PATJ) und FUN14 domain-containing 2 (FUNDC2) als mögliche Interaktionspartner identifiziert. Zusammenfassend wurde in dieser Arbeit eine zelluläre Basis für die Funktion von Gpr30 in vivo ermittelt. Der Phänotyp in Gpr30-lacZ Mäusen ist wahrscheinlich durch eine verringerte Produktion von naiven T-Zellen im Thymus bedingt. PATJ bindet die C-terminalen Aminosäuren von GPR30 mit einer PDZ-Domäne und könnte ein Gerüst-protein des GPR30-Signal¬komplexes darstellen. / The orphan G protein coupled receptor 30 (GPR30) was predominantly analyzed in the context of membrane-initiated estrogen signaling suggesting that GPR30 represents a novel estrogen receptor. However, the physiological function of GPR30 in vivo remained unknown. To unravel the physiological role of murine Gpr30 in vivo, a Gpr30-deficient mouse model was analyzed that harbors a LacZ reporter (Gpr30-lacZ) within the Gpr30 locus. The targeting of Gpr30 was verified by Southern blotting and real-time PCR. Gpr30-expressing cell types were identified by colocalization of LacZ along with cell type-specific markers. Further experiments aimed to decipher the phenotype of Gpr30-lacZ mice. To gain information about the signaling complex of human GPR30, yeast two-hybrid screenings were performed with the N- and C-terminal domains as bait. The main LacZ-positive cell populations were (i) endothelial cells in small arterial vessels of various tissues, (ii) smooth muscle cells, pericytes, and neuronal subpopulations in the brain, (iii) gastric chief cells in the stomach, (iv) cells in the intermediate and anterior pituitary, and (v) chromaffin cells in the adrenal glands. Extensive phenotype screening at the German Mouse Clinic revealed reduced numbers of T cells in the peripheral blood of Gpr30-lacZ mice. Especially the proportion of CD62L+ cells was decreased by approx. 50%. Yeast two-hybrid screening led to the identification of Pals1-associated tight junction protein (PATJ) and FUN14 domain-containing 2 (FUNDC2). In conclusion, this study provides a cellular basis for the function of Gpr30 in vivo. Since CD62L+ cells represent the naive T cell compartment, the phenotype of Gpr30-lacZ mice suggests an impaired production of T cells in the thymus. PATJ likely binds the C-terminus of GPR30 with one of its PDZ domains and may represent a scaffolding protein of the GPR30 signaling complex. G protein-gekoppelter Rezeptor 30 GPR30 LacZ Reporter Maus PATJ G protein coupled receptor 30 GPR30 LacZ reporter mouse PATJ 570 Biologie 32 Biologie WE 5320 ddc:570
116	Mechanismen der Immunmodulation durch die Genprodukte US11 und US28 des humanen Zytomegalievirus Droese, Jana 08 November 2005 (has links) 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 Biologie 32 Biologie ddc:570
117	Functional Selectivity at the Dopamine D2 Receptor Peterson, Sean Michael January 2015 (has links) <p>The neuromodulator dopamine signals through the dopamine D2 receptor (D2R) to modulate central nervous system functions through diverse signal transduction pathways. D2R is a prominent target for drug treatments in disorders where dopamine function is aberrant, such as schizophrenia. D2R signals through distinct G protein and β-arrestin pathways and drugs that are functionally selective for these pathways could have improved therapeutic potential. How D2R signals through the two pathways is still not well defined, and efforts to elucidate these pathways have been hampered by the lack of adequate tools for assessing the contribution of each pathway independently. To address this, Evolutionary Trace was used to produce D2R mutants with strongly biased interactions for either G protein or β-arrestin. Additionally, various permutations of these mutants were used to identify critical determinants of D2R functional selectivity. D2R interactions with the two major downstream signal transducers were effectively dissociated and G protein signaling accounts for D2R canonical MAP kinase signaling cascade activation. Nevertheless, when expressed in mice, the β-arrestin biased D2R caused a significant potentiation of amphetamine-induced locomotion, while the G protein biased D2R had minimal effects. The mutant receptors generated here provide a new molecular tool set that enable a better definition of the individual roles of G protein and β-arrestin signaling in D2R pharmacology, neurobiology and associated pathologies.</p> / Dissertation Cellular biology Pharmacology Dopamine Functional Selectivity GPCR G protein β-arrestin
118	Involvement of epidermal growth factor receptor (EGFR) signaling in estrogen inhibition of oocyte maturation mediated through G protein-coupled estrogen receptor 1 (GPER) in zebrafish (Danio rerio) Peyton, Candace Ann 26 October 2010 (has links) Oocyte maturation (OM) in teleosts is under precise hormonal control by estrogens and progestins. We show here that estrogens activate an epidermal growth factor receptor (EGFR) signaling pathway through the G protein-coupled estrogen receptor (GPER) to maintain meiotic arrest of full-grown zebrafish (Danio rerio) oocytes in an in vitro germinal vesicle breakdown (GVBD) bioassay. A GPER- specific agonist decreased OM and a GPER-specific antagonist increased spontaneous OM, whereas specific nuclear estrogen receptor (ERα and ERβ) agonists did not affect OM, which suggests the inhibitory action of estrogens on OM are solely mediated through GPER. Furthermore, a peptide-bound estrogen, which cannot enter the oocyte, decreased GVBD, showing that these estrogen actions are mediated through a membrane receptor. Treatment of oocytes with actinomycin D, a transcription inhibitor, did not block the inhibitory effects of estrogens on OM, indicating that estrogens act via a nongenomic mechanism to maintain oocyte meiotic arrest. EGFR mRNA was detected in denuded zebrafish oocytes by reverse transcription polymerase chain reaction (RT-PCR). Therefore, the potential role of transactivation of EGFR in estrogen inhibition of OM was investigated. The matrix metalloproteinase inhibitor, ilomastat, which prevents the release of heparin-bound epidermal growth factor (HB-EGF), increased spontaneous OM. Moreover, specific EGFR1 (ErbB1) inhibitors and inhibitors of extracellular-related kinase 1 and 2 (ERK1/2) increased spontaneous OM. Previously, estrogens have been shown to increase 3’-5’-cyclic adenosine mono phosphate (cAMP) levels through GPER in zebrafish oocytes during meiotic arrest. Taken together these present results suggest that estrogens also act through GPER to maintain meiotic arrest through a second signaling pathway involving transactivation of EGFR and activation of ERK 1 and 2. / text G protein-coupled estrogen receptor 1 Epidermal growth factor receptor Oocyte Oocyte maturation
119	LYSOPHOSPHATIDIC ACID PRODUCTION AND SIGNALING IN PLATELETS Fulkerson, Zachary Bennett 01 January 2011 (has links) Lysophosphatidic acid (LPA) belongs to a class of extracellular lipid signaling molecules. In the vasculature, LPA may regulate platelet activation and modulate endothelial and smooth muscle cell function. LPA has therefore been proposed as a mediator of cardiovascular disease. The bulk of circulating LPA is produced from plasma lysophosphatidylcholine (LPC) by autotaxin (ATX), a secreted lysophospholipase D (lysoPLD). Early studies suggest that some of the production of circulating LPA is platelet-dependent. ATX possesses an N-terminal somatomedin B-like domain suggesting the hypothesis that ATX interacts with platelet integrins which may localize ATX to substrate in the membrane and/or alter the catalytic activity of ATX. Using static adhesion and soluble binding assays we found that ATX does indeed bind to platelets and cultured mammalian cells in an integrin-dependent manner which is blocked by integrin function-blocking peptides and antibodies. This binding increases both the activity of ATX and localization of its product, LPA, to the platelet/cell membrane. LPA is generally stimulatory to human platelets although platelets from a small population of donors are refractory to LPA stimulation. Likewise LPA is inhibitory to murine platelets. We previously found that LPA receptor pan-antagonists reduce agonist-induced platelet activation, and partial stimulation of LPA5 specifically increases platelet activation in humans. Since both LPA5 and LPA4 are present at significant levels in human platelets, we hypothesized that LPA4 is responsible for an inhibitory pathway and LPA5 is responsible for an inhibitory pathway. We used mice deficient in LPA4 to test this model. Isolated platelet function tests revealed no major difference between lpa4-/- mice compared with WT mice although lpa4-/- mice were more prone to FeCl3-induced thrombosis. Paradoxically, chimeric mice reconstituted with lpa4-/- deficient bone marrow derived cells were protected from thrombosis. These discrepancies may be explained by involvement of endothelial cells and the relative scarcity of LPA receptors in murine platelets compared with human platelets. Taken together, these results demonstrate two critical regulators of LPA signaling and open up new avenues to further our understanding of atherothrombosis. lysophosphatidic acid platelet autotaxin signaling integrin G protein-coupled receptor Biochemistry Medical Physiology
120	Investigating the role of orphan GPR50 in normal brain function and mental illness Grünewald, Ellen January 2012 (has links) G protein-coupled receptors (GPCRs) form a link between the cell and their environment when signaling pathways are activated upon ligand binding. However, the ligands and functions for many GPCRs remain to be determined. G protein-coupled receptor 50 (GPR50) is one such orphan, and its exact role is yet unknown. There is however emerging functional and genetic evidence suggesting a function for GPR50 in psychiatric illness and lipid metabolism. It was hypothesised that investigating GPR50’s protein-protein interactions would lead to a greater understanding of the role of GPR50 in normal brain functioning and in mental illness. Putative protein interactors were initially isolated by a yeast two-hybid study and were further tested here. To address GPR50’s links to mental illness, the GPR50∆502-505 deletion variant associated with mood disorders was also investigated. To test this hypothesis I sought to confirm some of the key yeast two-hybrid interactions. Using co-immunoprecipitation and immunocytochemistry the interaction of GPR50 with reticulon family members Nogo-A, Nogo-C and RTN3, and with cell-cell adhesion molecule CDH8 and lipid-associated protein ABCA2 were validated. In order to identify the location of interactions, subcellular fractionation of mouse brain and rt-PCR and immunohistochemistry in developing and adult mouse brain were performed. GPR50 and several interactors were found to be enriched at the synapse by subcellular fractionation of whole adult brain, and at embryonic day 18 (E18) and 5 weeks by rt-PCR. Colocalisation of GPR50 and interactors was found in the amygdala, hypothalamus, cortex and specific brain stem nuclei by immunohistochemistry. The discovery of GPR50 expression in noradrenergic, serotonergic and dopaminergic nuclei in the adult brain stem suggests a further role for GPR50 in neurotransmitter signaling and stress. To investigate the function of GPR50 two assays were performed that measure processes which are known to be affected by Nogo and RTN3: The first assay was a neurite outgrowth assay in Neuroscreen-1 cells, a PC12 cell clone. A significant increase in neurite length was detected after transient overexpression of GPR50 and this effect was increased in the GPR50∆502-505/T532A variant. Additionally GPR50-overexpression resulted in an increase in filopodia formation suggesting a role in actin dynamics. As a second functional assay in vitro BACE1 activity assays were performed in HEK293 cells. GPR50 but not GPR50∆502-505/T532A overexpression resulted in a significant increase in BACE1 activity. Lastly a final series of pilot experiments were performed to gain insight into the secondary structure of the C-terminal domain and the effects of the polymorphisms on structure. The 35kDa GPR50 C-terminal domain was purified and Circular Dichroism studies indicated a predominantly unstructured protein with increased a- helical content in the GPR50∆502-505 variant. The results in this thesis indicate a role for GPR50 in neuronal development and synaptic functioning. The results also strengthen an association with major mental illness, with links to several disease mechanisms. 612.8

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