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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
161

Nature and Function of the Signaling Complex Formed by the M2 Muscarinic Cholinergic Receptor

Ma, Amy Wing-Shan 05 December 2012 (has links)
G protein-coupled receptors (GPCRs) are known to exist as oligomers, but there is much uncertainty over the oligomeric size, the number of interacting G proteins and the stability of that interaction. The present approach to these questions has been threefold. Monomers of the M2 muscarinic receptor were purified from Spodoptera frugiperda (Sf9) cells and reconstituted in phospholipid vesicles, where they spontaneously formed tetramers. The size of the reconstituted complex was determined from its electrophoretic mobility after cross-linking and inferred from a quantitative, model-based assessment of cooperative effects in the binding of two muscarinic antagonists: N-methylscopolamine and quinuclidinylbenzilate. Binding of the agonist oxotremorine-M to receptor reconstituted with purified G proteins revealed at least three classes of sites that interconverted from higher to lower affinity upon the addition of guanylylimidotriphosphate (GMP-PNP). The binding properties resemble those of muscarinic receptors in myocardial preparations, thereby implying the existence of tetramers in native tissues. G proteins that copurify with the M2 receptor from cardiac membranes also were found to exist as oligomers, some of which contain both alpha(o) and alpha(i2), and the purified complexes contained receptor and G protein in near-equal amounts. A tetrameric receptor implies a tetramer of G proteins, a conclusion that is supported by the distribution of sites between different states identified in the binding of [35S]GTPgammaS to the purified complex. Covalent adducts of a GPCR fused to a Galpha-subunit provide a model system in which the relationship between receptor and G protein complex is defined with respect to stability and composition. Such a fusion of the M2 receptor and Galpha(i1) underwent a cleavage near the amino terminus of the alpha-subunit, however, flagging the likelihood of similar effects in other such adducts. Truncation of the amino terminus prior to fusion generated a stable product that revealed GMP-PNP-sensitive, biphasic binding of oxotremorine-M and noncompetitive interactions between N-methylscopolamine and quinuclidinylbenzilate. A covalent RG complex therefore exhibits the functional properties of M2 receptors in native systems. These observations are consistent with the notion that signaling through the M2 receptor occurs via cooperative interactions within a stable complex that comprises four receptors and four G proteins.
162

Molecular dynamics simulations of seven-transmembrane receptors

Cordomí Montoya, Arnau 11 March 2008 (has links)
Seven transmembrane (7-TM) G protein coupled receptors (GPCR) constitute the largest family of integral membrane proteins in eukaryotes with more than 1000 members and encoding more than 2% of the human genome. These proteins play a key role in the transmission and transduction of cellular signals responding to hormones, neurotransmitters, light and other agonists, regulating basic biological processes. Their natural abundance together with their localization in the cell membrane makes them suitable targets for therapeutic intervention. Consequently, GPCR are proteins with enormous pharmacologic interest, representing the targets of about 50% of the currently marketed drugs. The current limitations in the experimental techniques necessary for microscopic studies of the membrane as well as membrane proteins emerged the use of computational methods and specifically molecular dynamics simulations. The lead motif of this thesis is the study of GPCR by means of this technique, with the ultimate goal of developing a methodology that can be generalized to the study of most 7-TM as well as other membrane proteins. Since the bovine rhodopsin was the only protein of the GPCR family with a known threedimensional structure at an atomic level until very recently, most of the effort is centered in the study of this receptor as a model of GPCR.The scope of this thesis is twofold. On the one hand it addresses the study of the simulation conditions, including the procedure as well as the sampling box to get optimal results, and on the other, the biological implications of the structural and dynamical behavior observed in the simulations. Specifically, regarding the methodological aspects of the work, the bovine rhodopsin has been studied using different treatments of long-range electrostatic interactions and sampling conditions, as well as the effect of sampling the protein embedded in different one-component lipid bilayers. The binding of ions to lipid bilayers in the absence of the protein has also been investigated. Regarding the biological consequences of the analysis of the MD trajectories, it has been carefully addressed the binding site of retinal and its implications in the process of isomerization after photon uptake, the alteration a group of residues constituting the so-called electrostatic lock between helices TM3 and TM6 in rhodopsin putatively used as common activation mechanism of GPCR, and the structural effects caused by the dimerization based on a recent semi-empirical model. Finally, the specific binding of ions to bacteriorhodopsin has also been studied. The main conclusion of this thesis is provide support to molecular dynamics as technique capable to provide structural and dynamical informational about membranes and membrane proteins, not currently accessible from experimental methods). Moreover, the use of an explicit lipidic environment is crucial for the study the membrane protein dynamics as well as for the protein-protein and lipidprotein interactions.
163

Physicochemical properties of amino acid sequences of G-proteins for understanding GPCR-G-protein coupling

Ghimire, Ganga D., ギミレ, ガンガ D, Imai, Kenichiro, 今井, 賢一郎, Akazawa, Fumitsugu, 赤沢, 史嗣, Tsuji, Toshiyuki, 辻, 敏之, Sonoyama, Masashi, 園山, 正史, Mitaku, Shigeki, 美宅, 成樹 January 2006 (has links) (PDF)
No description available.
164

Ligand Bias by the Endogenous Agonists of CCR7

Zidar, David Alexander January 2009 (has links)
<p>Chemokine receptors are members of the seven transmembrane receptor (7TMR) superfamily and are regulated by the G-protein coupled Receptor Kinase (GRK)/ b-arrestin system. CCL19 and CCL21 are endogenous agonists for the chemokine receptor CCR7. They are known to be equipotent in promoting Gi/o mediated calcium mobilization, chemotaxis and inhibition of adenylyl cyclase activity. Here we test the hypothesis that these ligands are biased agonists that differentially activate the G-protein coupled Receptor Kinase (GRK)/ b-arrestin system.</p><p>In order to test whether these ligands have distinct activity, murine T lymphocytes were used to compare the effects of CCL19 and CCL21 activation of CCR7 at endogenous expression levels. While each ligand stimulates similar chemotactic responses, we also find that CCR7 ligands lead to differential signaling. For instance, CCL19 is markedly more efficacious than CCL21 for the activation of ERK and JNK, but not AKT in these cells. Furthermore, ERK activation and chemotaxis are maintained as separate pathways, also distinguishable by their dependency upon PKC and PI3 kinase, respectively. Thus, CCL19 and CCL21 stimulate equal activation of PI3 kinase, AKT, and chemotaxis, but are in fact biased agonists leading to differential activation of MAP kinase in murine T lymphocytes. </p><p>To determine the mechanism of CCR7 ligand bias, we used HEK-293 cells expressing CCR7 to compare the proximate signaling events following CCL19 and CCL21 activation. We found striking differences in the activation of the GRK/ b-arrestin system. CCL19 leads to robust CCR7 phosphorylation and b-arrestin2 recruitment catalyzed by both GRK3 and GRK6 while CCL21 activates GRK6 alone. This differential GRK activation leads to distinct functional consequences. Only CCL19 leads to the recruitment of b-arrestin2-GFP into endocytic vesicles and classical receptor desensitization. In contrast, each agonist is fully capable of signaling to MAP kinase through b-arrestin2 in a GRK6 dependent fashion. </p><p>Therefore, CCR7 and its ligands represent a natural example of ligand bias whose mechanism involves differential GRK isoform utilization by CCL19 and CCL21 despite similar G-protein signaling. This study suggests that the GRK signatures of 7TMRs can determine the function of discrete pools of b-arrestin and thus guide its cellular effects.</p> / Dissertation
165

A characterization of the human G protein-coupled receptor, lysophosphatidic acid1 : its intracellular trafficking and signaling consequences on the tumor suppressor, P53

Murph, Mandi Michelle 26 April 2005 (has links)
Lysophosphatidic acid (LPA) is a mitogenic lipid that enhances cell growth, proliferation and motility through binding and activation of at least four receptors, LPA1/Edg2, LPA2/Edg4, LPA3/Edg7, and PPAR and #947;. Here, we show that LPA stimulation inhibits the cell cycle regulator and tumor suppressor, p53. Ten M LPA reduced the cellular levels of total p53 and p53 phosphorylated at serine 15 by approximately 50% in A549 cells and this effect was sustained for at least 6 h. This resulted in a corresponding decrease in p53-mediated transcription. Transient-transfection of the Edg-family LPA receptors, LPA1-3 in HepG2 cells, which do not respond to LPA, also showed this inhibitory response. The response was specific to LPA receptors since neither Gi-coupled M2 muscarinic acetylcholine receptors, nor a mutant LPA1 receptor (LPA1 R124A), which is unable to bind LPA, inhibited p53 activity. Both transient-transfection of the LPA-degrading lipid phosphate phosphatase-1 (LPP-1), or exogenous addition of phospholipase B, which decreases exogenous lysophosphatidate, reversed the LPA receptor-induced decrease in p53-mediated transcription. Although pertussis toxin did not prevent the inhibition of p53, a mutant LPA1 receptor (LPA1 and #8710;361), which lacks the C-terminal PDZ-binding domain, failed to inhibit p53 function. This establishes LPA-mediated inhibition of p53 function requires an interaction with PDZ-containing proteins. These data establish a novel role for LPA-mediated receptor activation in diminishing p53 activity; which, in addition to LPAs well-characterized effects on growth-promoting signaling pathways, is likely to contribute to the survival and proliferation of cancer cells. Of the Edg-family LPA receptors, the LPA1 receptor is the most widely expressed. In the next study, we investigated the agonist-induced endocytosis of the human LPA1 receptor, bearing an N-terminal FLAG epitope tag, in stably transfected HeLa cells. LPA treatment induced the rapid endocytosis of approximately 40% of surface LPA1 within 15 minutes. Internalization was dose dependent and LPA specific since neither lysophophatidylcholine nor sphingosine-1-phosphate induced LPA1 endocytosis. Removing agonist following incubation resulted in LPA1 recycling back to the surface. LPA1 internalization was strongly inhibited by dominant-inhibitory mutants of both dynamin2 (K44A) and Rab5a (S34N). Finally, our results indicate that LPA1 exhibits basal, LPA-dependent internalization in the presence of serum-containing medium.
166

PELICAN : a PipELIne, including a novel redundancy-eliminating algorithm, to Create and maintain a topicAl family-specific Non-redundant protein database

Andersson, Christoffer January 2005 (has links)
<p>The increasing number of biological databases today requires that users are able to search more efficiently among as well as in individual databases. One of the most widespread problems is redundancy, i.e. the problem of duplicated information in sets of data. This thesis aims at implementing an algorithm that distinguishes from other related attempts by using the genomic positions of sequences, instead of similarity based sequence comparisons, when making a sequence data set non-redundant. In an automatic updating procedure the algorithm drastically increases the possibility to update and to maintain the topicality of a non-redundant database. The procedure creates a biologically sound non-redundant data set with accuracy comparable to other algorithms focusing on making data sets non-redundant</p>
167

Solid-phase reactions of N-carbamyliminium ions : from amino aldehydes to on-bead GPCR-screening /

Diness, Frederik. January 2006 (has links)
Ph.D.
168

The functional significance of rhodopsin's N-linked glycosylation

Murray, Anne Riché. January 2009 (has links) (PDF)
Thesis (Ph. D.)--University of Oklahoma. / Bibliography: leaves 114-126.
169

Enhancing Myoblast Fusion for Therapy of Muscular Dystrophies

Wu, Melissa P. 08 October 2013 (has links)
Skeletal muscle is a major organ comprising 30-40% of the human body mass. The coordination of processes resulting in mature muscle requires many genes, and their loss can result in debilitating muscle disorders. Of the strategies being developed to cure muscle diseases, enhancement of the natural process of muscle cell fusion in existing or introduced myogenic cells has great therapeutic potential. In this work, we determined whether a drug that stimulates proliferation and fusion of myoblasts could alleviate murine Duchenne muscular dystrophy. We also studied the necessity of a gene that is upregulated in early fusing human myoblast cultures and its role in muscle disease development.
170

Identifying Target Genes related to Respiratory Network Dysfunction in a Mouse Model for the Rett Syndrome

Vogelgesang, Steffen 19 November 2012 (has links)
Das Rett Syndrom (RTT) gehört zu den tiefgreifenden Entwicklungsstörungen des Gehirns von dem fast ausschließlich Mädchen betroffen sind (ICD-10, F84.10). Ursächlich für die Pathogenese sind Mutationen im X-chromsomalen MECP2-Gen, welches für den Transkriptionsfaktor Methyl-CpG binding protein 2 (MeCP2) kodiert. Unterschiedliche neurologische Symptome treten zwischen 6 und 18 Monaten nach der Geburt auf, wobei schwere Rhythmussstörungen der Atmung für ein Viertel plötzlicher Todesfälle bei Rett-Patientinnen verantwortlich gemacht werden. Der neuronale Atmungsrhythmus bei Säugern wird in verschieden Regionen des ponto-medullären Hirnstammes generiert, wobei der Prä-Bötzinger Komplex als essentiell für die Rhythmogenese der Atmung angesehen wird. Mittels Genexpressionsstudien in der Ventralen Respiratorischen Gruppe (VRG), die den Prä-Bötzinger-Komplex einschließt, zeigte sich eine massiv erhöhte, pathologische Expression des Serotoninrezeptor 5B sowohl auf mRNA-, als auch auf Proteinebene bei MeCP2-defizienten Mäusen zum postnatalen Entwicklungstag P40. Der Serotoninrezeptor 5B (5-HTR5B) gehört zur Klasse der G-Protein-gekoppelten Rezeptoren. Durch detaillierte Analysen des 5-HTR5B-Proteins konnte eine natürliche Trunkierung des Rezeptors nachgewiesen werden. Des Weiteren wurde eine ungewöhnliche intrazelluläre Lokalisierung in Membranen von vesikulären und tubulären Kompartimenten beobachtet. Trotz dieser ungewöhnlichen Eigenschaften besitzt der Rezeptor weiterhin die Fähigkeit, das inhibitorische G-Protein Gαi3 konstitutiv zu aktivieren und somit den Anstieg von cAMP zu verhindern. Durch genetisches Ausschalten des 5-HTR5B Proteins (knockout) konnte gezeigt werden, dass die durch 5-HTR5B-verminderte cAMP-Konzentration in der VRG ursächlich für den gestörten Atmungsrhythmus MeCP2-defizienter Mäuse ist. Die sich aus diesen Ergebnissen ableitende pharmakologische Strategie, die cAMP Konzentration zu erhöhen, führte zu einem deutlich verbesserten Atmungsrhythmus. Die Ergebnisse dieser Arbeit implizieren neue Therapieansätze zur Behandlung der Atmungs-störungen von Rett-Patienten.

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