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Potenzielle Inhibitoren der cytosolischen Phospholipase A2-[alpha] mit Isobenzofuran-1-on- und Indol-Grundgerüst : Synthesen und Struktur/Wirkungsbeziehungen /Heß, Mark. January 2005 (has links) (PDF)
Univ., Diss.--Münster, 2005.
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Mechanisms by which apoptotic membranes become susceptible to secretory phospholipase A2 /Bailey, Rachel Williams. January 2008 (has links) (PDF)
Thesis (M.S.)--Brigham Young University. Dept. of Physiology and Developmental Biology, 2008. / Includes bibliographical references (p. 30-39).
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Structural and kinetic studies of two enzymes catalyzing phospholipase A2 activityEpstein, Todd Matthew. January 2006 (has links)
Thesis (Ph.D.)--University of Delaware, 2006. / Principal faculty advisor: Brian J. Bahnson, Dept. of Chemistry and Biochemistry. Includes bibliographical references.
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G protein coupled receptor signaling to phospholipase D1 mediated by G12 type G proteins, LIM kinase and cofilinHan, Li. Unknown Date (has links) (PDF)
University, Diss., 2002--Essen.
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N-Acylethanolamines and Plant Phospholipase DBrown, Shea Austin 12 1900 (has links)
Recently, three distinct isoforms of phospholipase D (PLD) were identified in Arabidopsis thaliana. PLD α represents the well-known form found in plants, while PLD β and γ have been only recently discovered (Pappan et al., 1997b; Qin et al., 1997). These isoforms differ in substrate selectivity and cofactors required for activity. Here, I report that PLD β and γ isoforms were active toward N-acylphosphatidylethanolamine (NAPE), but PLD α was not. The ability of PLD β and γ to hydrolyze NAPE marks a key difference from PLD α. N-acylethanolamines (NAE), the hydrolytic products of NAPE by PLD β and γ, inhibited PLD α from castor bean and cabbage. Inhibition of PLD α by NAE was dose-dependent and inversely proportional to acyl chain length and degree of unsaturation. Enzyme kinetic analysis suggested non-competitive inhibition of PLD α by NAE 14:0. In addition, a 1.2-kb tobacco (Nicotiana tabacum L.) cDNA fragment was isolated that possessed a 74% amino acid identity to Arabidopsis PLD β indicating that this isoform is expressed in tobacco cells. Collectively, these results provide evidence for NAE producing PLD activities and suggest a possible regulatory role for NAE with respect to PLD α.
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Understanding the kinetic profile of phosphatidylinositol-specific phospholipase C from Listeria monocytogenesChen, Wei January 2008 (has links)
Thesis advisor: Mary F. Roberts / The phosphatidylinositol-specific phospholipase C (PI-PLC) from Listeria monocytogenes (a monomer in solution) shows unusual kinetic properties compared to other well-studied phospholipases: (i) increased specific activity with decreasing protein concentration, (ii) activation of the phosphotransferase step by salts, and (iii) activation of both the interfacial phosphotransferase and water-soluble phosphodiesterase steps by zwitterionic and neutral amphiphiles. A variety of biophysical studies (fluorescence, NMR, monolayer, vesicle binding) of enzyme/lipid complexes coupled with kinetics have allowed us to propose a model that accounts for these features. The enzyme binds tightly to anionic surfaces and much more weakly to a zwitterionic interface. The tight binding can be reduced by adding KCl at concentrations that activate the enzyme. In the crystal structure of the enzyme, many basic residues are clustered on the sides and bottom of TIM-barrel far away from the opening to the active site. These cause the enzyme to adopt a non-productive orientation on negatively charged membranes that leads to a reversible clustering of anionic lipids and vesicle aggregation. An increased surface concentration of zwitterionic / neutral amphiphiles along with the salt disperses the anionic substrate, shields charges on the protein, and enhances productive encounters of the protein with substrate molecules. This model has been tested by examining the behavior of enzyme with citraconylated lysines and mutants of neutral surface residues at the rim of the active site. The unusual kinetic behavior of this PI-PLC also appears to contribute to the escape of L. monocytogenes from vacuoles during infection. / Thesis (PhD) — Boston College, 2008. / Submitted to: Boston College. Graduate School of Arts and Sciences. / Discipline: Chemistry.
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Novel Aspects of Platelet Signaling and of the Pathogenesis of Immune Thrombocytopenia / Neue Aspekte in Signalwegen von Blutplättchen und in der Pathogenese der ImmunthrombozytopenieStegner, David January 2018 (has links) (PDF)
This work summarizes the results of studies on three major aspects of platelet signaling and of the pathogenesis of immune thrombocytopenia. Therefore, this thesis is divided into three parts. i) Platelet activation and subsequent thrombus formation at sites of vascular injury is crucial for normal hemostasis, but it can also trigger myocardial infarction and stroke. The initial capture of flowing platelets to the injured vessel wall is mediated by the interaction of the glycoprotein (GP) Ib-V-IX complex with von Willebrand factor (vWF) immobilized on the exposed subendothelial extracellular matrix (ECM). The central importance of GPIb for platelet adhesion is well established, whereas GPV is generally considered to be of minor relevance for platelet physiology and thrombus formation. This study intended to clarify the relevance of this receptor during thrombus formation using Gp5-/- mice and mice with different double-deficiencies in GPV and in other platelet receptors. It was found that GPV and the collagen receptor integrin a2b1 have partially redundant functions in collagentriggered platelet aggregation. Further, it was revealed that GPV limits thrombus formation and impairs hemostasis in vivo. The data presented here demonstrate that the protective effect of GPVI-deficiency (another platelet collagen receptor) in arterial thrombosis and ischemic stroke depends on the expression of GPV. Moreover, it was demonstrated that lack of GPV restores the hemostatic function of mice lacking both GPVI and a2b1 or mice lacking GPVI and the C-type lectin receptor 2 (CLEC-2). Conclusively, GPV-depletion or blockade might have the potential to treat hemorrhagic disease states. ii) Platelets contain the two phospholipase (PL) D isoforms, PLD1 and PLD2, both of which presumably become activated upon platelet stimulation. However, the function of PLD in the process of platelet activation and aggregation has not been definitively explored. Thus, PLD-deficient mice were analyzed. Mice lacking PLD1 or PLD2 were viable, fertile and had normal platelet counts. PLD1 was found to be responsible for the inducible PLD-activity in platelets and to contribute to efficient integrin activation under static conditions. Moreover, flow adhesion experiments revealed that PLD1 is essential for efficient GPIb-mediated integrin activation. Consequently, Pld1-/- mice were protected from arterial thrombosis and ischemic brain infarction without affecting tail bleeding times. Hence, inhibition of PLD1 might be a novel approach for antithrombotic therapy. iii) Cellular activation of platelets or immune cells results in increased cytosolic calcium (Ca2+) levels. Store-operated calcium entry (SOCE) via the STIM1-Orai1 axis is the main route of Ca2+ entry downstream of immunoreceptor tyrosine-based activating motif (ITAM) receptor stimulation in mast cells and T cells. However, the requirement of Ca2+-mobilization in Fcg receptor (FcgR)-signaling and the relevance of STIM2 for T cell SOCE have been unclear. To address these questions, genetically modified mice lacking central molecules of the SOCE machinery were analyzed. Ca2+-measurements revealed that both STIM isoforms contribute to Ca2+-mobilization downstream of T cell receptor activation. Additionally, it was found that FcgR stimulation results in SOCE and is mediated by STIM1 and probably Orai1. Animal models of immune thrombocytopenia (ITP) revealed that SOCE is essential for platelet clearance and that both STIM isoforms contribute to the pathology of ITP. Moreover, in this work it was also demonstrated that STIM1 and Orai1 are essential in IgG-mediated systemic anaphylaxis. STIM2 contributes to IgG-mediated, but not to IgE-mediated anaphylaxis. The data indicate that interference with SOCE might become a new strategy to prevent or treat IgG-dependent autoimmune diseases. / Diese Arbeit fasst Untersuchungen von drei wesentlichen Aspekten der Signalwege von Blutplättchen und der Pathogenese der Immunthrombozytopenie zusammen. Daher ist diese Doktorarbeit in drei Teile unterteilt. i) Die Aktivierung von Blutplättchen und die anschließende Thrombusbildung in Folge vaskulärer Verletzungen sind für die normale Hämostase elementar, sie können aber auch Herzinfarkt oder Schlaganfall verursachen. Die anfängliche Adhäsion zirkulierender Blutplättchen an der verletzten Gefäßwand wird durch die Wechselwirkung des Glykoprotein (GP) Ib-V-IX Komplexes mit dem auf der freigelegten subendothelialen Matrix immobilisierten von Willebrand Faktor (vWF) vermittelt. Die zentrale Bedeutung von GPIb für die Adhäsion von Blutplättchen ist lange bekannt, wohingegen GPV allgemein als unbedeutend für die Physiologie von Blutplättchen oder die Thrombusbildung angesehen wird. Das Ziel dieser Arbeit war, die Bedeutung dieses Rezeptors für die Thrombusbildung zu überprüfen. Hierfür wurden GPV-defiziente Mäuse und mehrere Mauslinien, denen neben GPV ein weiterer Plättchenrezeptor fehlte, analysiert. Es wurde festgestellt, dass GPV und der Kollagenrezeptor Integrin a2b1 teilweise redundante Funktionen in der Kollagenvermittelten Plättchenaggregation haben. Des Weiteren wurde gezeigt, dass GPV die Thrombusbildung begrenzt sowie die Wundstillung reguliert. Die hier gezeigten Daten belegen, dass GPV überraschenderweise für den Schutz vor arterieller Thrombose oder ischämischem Schlaganfall, der aus dem Fehlen des wichtigsten Kollagenrezeptors GPVI resultiert, benötigt wird. Außerdem wurde gezeigt, dass die Abwesenheit von GPV die Hämostase in Mäusen, denen GPVI und a2b1 oder GPVI und CLEC-2 (von C-type lectin receptor 2) fehlt, wieder herstellt. Folglich, könnte die pharmakologische Herabregulierung der GPV-Expression oder die Blockade des Rezeptors eine neue Behandlungsmöglichkeit von hämorrhagischen Krankheitszuständen darstellen. ii) Blutplättchen exprimieren die beiden Phospholipase (PL) D Isoformen PLD1 und PLD2, die vermutlich beide im Zuge der Blutplättchenstimulation aktiviert werden. Allerdings wurde die Rolle von PLD in der Thrombozytenaktivierung und -aggregation noch nicht abschließend untersucht. Daher wurden PLD-defiziente Mäuse analysiert. Mäuse, denen entweder PLD1 oder PLD2 fehlt, sind lebensfähig, fertil und haben normale Thrombozytenzahlen. Es zeigte sich, dass PLD1 für den induzierbaren Anteil der PLD-Aktivität in Blutplättchen verantwortlich und an der Integrinaktivierung unter statischen Bedingungen beteiligt ist. Des Weiteren ergaben Adhäsionsexperimente unter Flussbedingungen, dass PLD1 für die GPIb-vermittelte Integrinaktivierung von zentraler Bedeutung ist. Folglich sind Mäuse mit einer genetischen Ablation von PLD1 vor arterieller Thrombusbildung und ischämischem Schlaganfall geschützt. Da die Blutungszeiten dieser Tiere nicht verlängert waren, könnte die Inhibition von PLD1 einen anti-thrombotischen Therapieansatz darstellen. iii) Die zelluläre Aktivierung von Thrombozyten oder Immunzellen geht mit einem Anstieg der zytosolischen Kalziumkonzentration einher. Der sogenannte Speicher-vermittelte Kalziumeinstrom (store-operated calcium entry, SOCE) über die STIM1-Orai1-Achse ist der wichtigste Kalziumeinstrommechanismus in Folge der Stimulation von Rezeptoren mit einem immunoreceptor tyrosine-based activating motif (ITAM) in Mastzellen und T-Zellen. Allerdings ist die Notwendigkeit eines Kalziumeinstroms in Fcg Rezeptor (FcgR)-vermittelten Signalprozessen sowie die Relevanz von STIM2 hierbei noch unklar. Daher wurden gentechnisch veränderte Mäuse, denen zentrale Moleküle des SOCE-Apparats fehlen, untersucht. Kalziummessungen zeigten, dass beide STIM-Isoformen an der Kalziummobilisierung in Folge der T-Zellrezeptorstimulation beteiligt sind. Außerdem wurde gezeigt, dass die Stimulation von FcgRs zu SOCE führt, der von STIM1 und vermutlich auch von Orai1 vermittelt wird. Die Daten aus dem Immunthrombozytopenie (ITP) Tiermodell belegen, dass SOCE für die Zerstörung von Plättchen essentiell ist. Weiterhin sprechen die hiervorliegenden Ergebnisse für eine Rolle beider STIM Isoformen in der Pathologie der ITP. Außerdem konnte in dieser Arbeit nachgewiesen werden, dass STIM1 und Orai1 entscheidende Faktoren für IgG-vermittelte systemische Anaphylaxie sind. STIM2 ist ebenfalls an der IgG-vermittelten, nicht jedoch an der IgE-vermittelten Anaphylaxie beteiligt. Diese Ergebnisse legen nahe, dass Eingriffe in den SOCE eine neue Strategie in der Behandlung von IgG-abhängigen immunologischen Erkrankungen sein könnten.
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Regulation of phospholipase C-beta isozymes by calmodulinMcCullar, Jennifer Star 22 September 2005 (has links)
Graduation date: 2006
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Structural and functional involvement of N-terminal region in the enzymatic activity of Taiwan cobra phospholipase A2Chiou, Yi-ling 10 August 2006 (has links)
The goal of the present study is to explore the functional involvement of the N-terminal region in the biological activity of phospholipase A2 (PLA2) enzyme. Native PLA2 from the venoms of Naja naja atra and Bungarus multicinctus and N-terminally mutated N. naja atra PLA2, i.e. an additional Met before Asn-1(M-PLA2), substitution of Asn-1 with Met-1(PLA2(N1M)) and removal of N-terminal seven residues (PLA2(¡µN7)), were employed in this study. Mutations on the N-terminal region insignificantly perturbed the binding ability of PLA2 for Ca2+ and ANS, but the enzymatic activity of mutants drastically decreased. Moreover, an alteration in the secondary structure was observed as revealed by CD spectra. Compared to other mutants, the fine structure of Ca2+-binding site within PLA2(¡µN7)) changed. Additionally, removal of the N-terminal region caused significant alternation in the structures of active site and substrate-binding site as evidenced by the results of fluorescence measurement, chemical modification and denaturation with detergents. In all N-terminal mutants, substituting Ans-1 with Met-1 affected the NNA-PLA2 structure to a least extent. The membrane-damage activity of PLA2(N1M) and M-PLA2 was 89% and 34% that of NNA-PLA2, respectively. PLA2(¡µN7) did not exhibit the membrane-damage activity. Studies on the biological activities of chemically modified N. naja atra PLA2 reflected a dissociation of the enzymatic activity from membrane-damage activity, and suggested the involvement of Trp-18, Trp-61, Lys-65, Tyr-3 and Tyr-63 in membrane-damage activity. Collectively, our data indicate that the intact N-terminus was crucial for maintaining of the functional conformation of PLA2 in the manifestation of the enzymatic activity and membrane-damage activity, and the enzymatic activity of PLA2 is in aid of but not exclusively essential for the membrane-damage effect.
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Phosphoinositol/Ca2+ pathway in the cardiac k-opioid receptor: physiological role and alternations upontolerance盛建中, Sheng, Jianzhong. January 1997 (has links)
published_or_final_version / Physiology / Doctoral / Doctor of Philosophy
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