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Spatiotemporale Organisation der Interaktion von Gq Protein-Untereinheiten und der Phospholipase Cβ3 / Spatiotemporal patterns of interaction of Gq protein subunits and phospholipase Cβ3Pollinger, Thomas January 2012 (has links) (PDF)
Die G-Protein vermittelte Aktivierung der Phospholipase Cβ (PLCβ) stellt einen primären Mechanismus dar, um eine Vielzahl von physiologischen Ereignissen zu regulieren, z.B. die Kontraktion glatter Muskelzellen, Sekretion oder die Modulation der synaptischen Transmission. Sowohl Gαq- als auch Gβγ-Untereinheiten sind dafür bekannt mit PLCβ Enzymen zu interagieren und diese zu aktivieren. Über die Dynamik dieser Interaktion und den relative Beitrag der G-Protein Untereinheiten ist jedoch nur wenig bekannt. Unter Verwendung Fluoreszenz Resonanz Energie Transfer (FRET)- basierter Methoden in lebenden Zellen, wurde die Kinetik der Rezeptor-induzierten Interaktion zwischen Gβγ und Gαq Untereinheiten, die Interaktion von sowohl der Gαq als auch der Gβγ-Untereinheit mit der PLCβ3 und die Interaktion des regulator of G-Protein signaling 2 (RGS2) mit Gαq-Untereinheiten untersucht. Um die Untersuchung der Protein-Protein-Interaktion auf die Zellmembran zu beschränken, wurde die Total-Internal Reflection Fluorescence (TIRF) Mikroskopie angewandt. Zeitlich hoch auflösendes, ratiometrisches FRET-Imaging offenbarte eine deutlich schnellere Dissoziation von Gαq und PLCβ3 nach Entzug purinerger Agonisten verglichen mit der Deaktivierung von Gq Proteinen in der Abwesenheit der PLCβ3. Dieser offensichtliche Unterschied in der Kinetik kann durch die GTPase-aktivierende Eigenschaft der PLCβ3 in lebenden Zellen erklärt werden. Weiterhin zeigte es sich, dass PLCβ3 die Gq Protein Kinetik in einem ähnlich Ausmaß beeinflusst wie RGS2, welches in vitro deutlich effizienter darin ist, die intrinsische GTPase Aktivität der Gαq-Untereinheit zu beschleunigen. Als Antwort auf die Rezeptorstimulation wurde sowohl eine Interaktion von Gαq-Untereinheiten als auch von Gq-abstammende Gβγ-Untereinheiten mit der PLCβ3 beobachtet. Darüber hinaus zeigte sich auch eine Agonist-abhängige Interaktion von Gαq und RGS2. In Abwesenheit einer Rezeptorstimulation konnte kein spezifisches FRET-Signal zwischen Gq Proteinen und der PLCβ3 oder RGS2 detektiert werden. Zusammengefasst ermöglichte das ratiometrische FRET-Imaging in der TIRF Mikroskopie neue Einsichten in die Dynamik und Interaktionsmuster des Gq-Signalwegs. / G protein-mediated activation of phospholipase Cβ (PLCβ) represents a primary mechanism to regulate many physiological events such induce smooth muscle contraction, secretion and modulation of synaptic transmission. Both Gαq- and Gβγ-subunits are known to interact and activate PLCβ enzymes, however little is known about the dynamics of this interactions and the relative contribution of the G protein subunits in intact cells. Using fluorescence resonance energy transfer- (FRET-) based assays in single intact cells we studies kinetics of receptor-induced interactions between Gβγ- and Gαq-subunits, interactions of both Gαq and Gβγ with PLCβ3 as well as interactions of regulator of G proteins signalling 2 (RGS2) with Gαq- and Gβγ-subunits. In order to restrict the protein/protein interaction studies to the cell membrane we applied total internal reflection (TIRF) microscopy. High temporal resolution ratiometric FRET imaging uncovered a markedly faster dissociation of Gαq and PLC upon withdrawal of purinergic agonists compared to the deactivation of Gq proteins in the absence of PLCβ3. This apparent difference in kinetics could be contributed to the GTPase-activating property of PLCβ3 in living cells. Furthermore we found that PLCβ3 modulated Gq protein kinetics to a similar extent compared to RGS2, which in vitro is about 100 fold more efficient in activating Gq-GTPase activity. We observed that both Gαq subunits and Gq-derived Gβγ-subunits interact with PLCβ3 in response to receptor stimulation. In the absence of receptor stimulation we did neither detect any specific FRET signals between Gq protein subunits and PLCβ3 nor did we detect any interactions between RGS2 and Gαq subunits. Finally we could not detect agonist- dependent FRET between RGS2 and Gβγ-subunits. Taken together, ratiometric FRET-imaging under conditions of TIRF allowed new insights into dynamics and interaction patterns within the Gq signalling pathway.
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Function and regulation of phospholipase D in blood platelets: in vitro and in vivo studies in mice / Funktion und Regulation von Phospholipase D in Thrombozyten: in vitro und in vivo Studien in MäusenThielmann, Ina January 2014 (has links) (PDF)
Summary
Platelet activation and aggregation are crucial for primary hemostasis but can also result in occlusive thrombus formation. Agonist induced platelet activation involves different signaling pathways leading to the activation of phospholipases (PL) which produce second messengers. While the role of PLCs in platelet activation is well established, less is known about the relevance of PLDs. In the current study, the function and regulation of PLD in platelets was investigated using genetic and pharmacological approaches.
In the first part of this thesis, adhesion, activation and aggregation of platelets from mice lacking PLD2 or both PLD1 and PLD2 were analyzed in vitro and in vivo. While the absence of PLD2 resulted in slightly reduced PLD activity in platelets, it had no detectable effect on the platelet function in vitro and in vivo. However, the combined deficiency of both PLD isoforms resulted in defective alpha-granule release and protection in a model of ferric chloride induced arteriolar thrombosis, effects that were not observed in mice lacking only one PLD isoform. These results revealed, for the first time, redundant roles of PLD1 and PLD2 in platelet alpha-granule secretion and indicate that this may be relevant for pathological thrombus formation. Thus, PLD might represent a promising target for antithrombotic therapy.
Thus, this hypothesis was tested more directly in the second part of this thesis. The effects of pharmacological inhibition of PLD activity on hemostasis, thrombosis and thrombo-inflammatory brain infarction in mice were assessed. Treatment of platelets with the reversible, small molecule PLD inhibitor 5-Fluoro-2-indolyl des-chlorohalopemide (FIPI) led to a specific blockade of PLD activity that was associated with reduced -granule release and integrin activation. Mice that received FIPI at a dose of 3 mg/kg displayed reduced occlusive thrombus formation upon chemical injury of carotid arteries or mesenterial arterioles. Similarly, FIPI-treated mice had smaller infarct sizes and significantly better motor and neurological function 24 hours after transient middle cerebral artery occlusion. This protective effect was not associated with major intracerebral hemorrhage or prolonged tail bleeding times. Thus, pharmacological PLD inhibition might represent a safe therapeutic strategy to prevent arterial thrombosis or ischemic stroke.
After revealing a central role for PLD in thrombo-inflammation, the regulation of PLD activity in platelets was analyzed in the last part of the thesis. Up to date, most studies made use of inhibitors potentially exerting off-target effects and consequently PLD regulation is discussed controversially. Therefore, PLD activity in mice genetically lacking potential modulators of PLD activity was determined to address these controversies. These studies revealed that PLD is tightly regulated during initial platelet activation. While integrin outside-in signaling and Gi signaling was dispensable for PLD activation, it was found that PLC dependent pathways were relevant for the regulation of PLD enzyme activity. / Zusammenfassung
Thrombozytenaktivierung und -aggregation sowie die anschließende Thrombusbildung sind essentielle Prozesse während der primären Hämostase. Andererseits kann unkontrollierte Thrombozytenaktivierung zum Gefäßverschluss und somit zu Schlaganfall oder Herzinfarkt führen.
Verschiedene Signalwege, die für die Thrombozytenaktivierung von Bedeutung sind, führen zur Aktivierung von Phospholipasen (PL), die daraufhin sekundäre intrazelluläre Botenstoffe generieren. Während die Rolle von PLCs für die Thrombozytenaktivierung bekannt ist, ist die Relevanz der PLDs noch ungeklärt. Die vorliegende Arbeit untersucht die Funktion und Regulation von PLD in der Thrombozytenaktivierung und Thrombusbildung mittels genetisch veränderter Mäuse.
Im ersten Teil der Arbeit wurde die Adhäsion, Aktivierung und Aggregation von Pld2-/- und
Pld1-/-/Pld2-/- Thrombozyten in vitro und in vivo untersucht. Es konnte gezeigt werden, dass die Abwesenheit von PLD2 zu einer verminderten PLD Aktivität in Thrombozyten führte. Dies hatte allerdings keinen erkennbaren Effekt auf die Funktion der Thrombozyten in vitro und in vivo. Die PLD doppel-defizienten Thrombozyten hingegen wiesen Defekte bei der Sekretion der α-Granula auf, was zur Bildung von instabilen FeCl3-induzierten Thromben in einem in vivo Thrombosemodell führte. Diese Effekte waren in den einzeldefizienten Mäusen nicht vorhanden, was auf redundante Funktionen von PLD1 und PLD2 in diesem Prozess schließen lässt. Interessanterweise wurden keine hämostatischen Defekte durch die Doppeldefizienz hervorgerufen. Die vorliegenden Ergebnisse zeigen, dass PLD eine neue potentielle antithrombotische Zielstruktur darstellt.
Diese Hypothese wurde im zweiten Teil der Arbeit weiter überprüft. Der Effekt einer PLD Hemmung durch den reversiblen PLD Inhibitor 5-Fluoro-2-indolyl des-chlorohalopemide (FIPI) auf Hämostase und Thrombose wurde untersucht. Es konnte gezeigt werden, dass die Behandlung von Mäusen mit FIPI zu einer spezifischen Blockade von PLD führte, die die alpha-Degranulierung und Integrinaktivierung, im ähnlichen Ausmaß wie in den doppeldefizienten Mäusen, beeinträchtigte. Des Weiteren zeigten Mäuse, die mit 3 mg/kg FIPI behandelt wurden, starke Defekte in der arteriellen Thrombusbildung in Makro- und Mikrogefäßen. FIPI vermittelte PLD Inhibition führte außerdem zu einem Schutz der Mäuse in einem Modell des ischämischen Schlaganfalls, ohne intrazerebrale Blutungen hervorzurufen. Diese Ergebnisse etablieren FIPI als potentiellen antithrombotischen Wirkstoff für eine effektive und sichere Behandlung von kardio- und zerebrovaskulären Erkrankungen.
Da PLD eine zentrale Rolle während der Thrombusbildung hat, wurde im letzten Teil der Arbeit auf die Regulation von PLD während der Thrombozytenaktivierung eingegangen. Bisherige Studien verwendeten häufig Inhibitoren, die zu unspezifischen Effekten führen können. Daher wird die Regulation von PLD in der Literatur kontrovers diskutiert. Die Untersuchung der PLD Aktivität in verschiedenen knockout Mauslinien stellt einen nützlichen Ansatz dar, um die kontrovers diskutierte PLD Regulation aufzuklären. Zu diesem Zweck wurde die PLD Aktivität in genetisch veränderten Mäusen, denen potentielle Regulatoren von PLD fehlen, gemessen. Im Zuge diesen Untersuchungen konnte gezeigt werden, dass integrinabhängige- und Gi-vermittelte Signalwege keinen Einfluss auf die Regulation von PLD hatten, während PLC vermittelte Signale von Bedeutung waren.
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Développement de tests enzymatiques applicables au criblage des activités et/ou inhibiteurs de (phospho)lipases / Development of high throughput screening assays for measuring (phospho)lipase activities and/or inhibitorsEl Alaoui, Meddy 23 October 2015 (has links)
La caractérisation de l'activité enzymatique des (phospho)lipases requiert des tests enzymatiques spécifiques, continus, utilisant des substrats lipidiques et adaptés au criblage à haut débit des activités et/ou des inhibiteurs de (phospho)lipases. Afin de développer de tels tests, la synthèse de glycérophosphatidylcholine (PC) estérifiée en position sn-1 et/ou sn-2 par l'acide alpha-éléostéarique (acide 9Z, 11E, 13E, octadécatriénoïque) a été effectuée. La triple insaturation conjuguée présente au sein de cet acide gras constitue un chromophore intrinsèque qui confère une forte absorption dans le domaine de l'ultra-violet à cet acide gras et aux lipides le contenant. Les PC contenant l'acide alpha-éléostéarique ont été adsorbées par « coating » au fond des puits d'une microplaque de titration. L'hydrolyse du substrat lipidique par une phospholipase A1 (PLA1) ou phospholipase A2 (PLA2), injectée dans le milieu réactionnel, est suivie en continu par l'augmentation de l'absorbance à 272 nm, due à la transition de l'acide alpha-éléostéarique de la phase adsorbée à la phase aqueuse. Des PC hétérogènes ont été synthétisées à partir de rac-glycidol pour effectuer un marquage sélectif de la PC par l'acide alpha-éléostéarique sur la position sn-1 (EOPC) ou sn-2 (OEPC). Pour empêcher la migration de la chaîne acyle, un lien éther non hydrolysable par les PLA1 ou PLA2 a été introduit sur l'autre position sn de la PC avec une chaîne alkyl (C18). Ces PC chimiquement définies ont permis d'élaborer une méthode de dosage en continu de l'activité enzymatique et discriminant les activités PLA1 ou PLA2, ce qui représente un caractère innovant par rapport à toutes les méthodes existantes / The characterization of the catalytic activity of (phospho)lipases requires specific assays, that are continuous, sensitive, use lipidic substrates and could be applied to high throughput screening. In order to perform these tests, several tailor-made alpha-eleostearic (9Z, 11E, 13E-octadecatrienoic acid) containing glycerophosphatidylcholines (PC) have been synthetized with the alpha-eleostearic acid at the position sn-1 and/or sn-2. The conjugated triene present in this fatty acid constitutes an intrinsic chromophore and, consequently, confers strong UV absorption properties of the fatty acid and the lipids harboring it. PC substrates were coated onto a microplate well and the phospholipase A1 (PLA1) or phospholipase A2 (PLA2) activity was measured continuously by the increase in absorbance, at 272 nm, due to the transition of alpha-eleostearic acid from the adsorbed to the soluble state. Moreover, two structured analogues of PC labeled at the sn-1 (EOPC) or sn-2 (OEPC) position with the alpha-eleostearic acid have been synthetized from rac-glycidol. A non-absorbing and non-hydrolysable by PLA1 and PLA2 O-ether alkyl(C18) was introduced at the other sn position to prevent intramolecular acyl chain migration during the synthesis and the lipolysis. These structured PC were coated onto a microplate and used in a continuous assay, to discriminate, with excellent accuracy, between PLA1 or PLA2 activities. The development of a sensitive enzymatic method using coated substrates analogues to natural lipid is a relevant improvement from current assays for measuring continuously (phosphor)lipases activities and/or their inhibitors due to the alpha-eleostearic acid UV spectroscopic properties
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Studies of the human lymphocyte P2Z receptor and its activation of phospholipase D.Gargett, Caroline Eve, mikewood@deakin.edu.au January 1997 (has links)
Extracellular adenosine 5′-triphosphate (ATP) is an agonist for the P2Z receptor of human leukaemic lymphocytes and opens a Ca <sup>2+</sup>-selective ion channel, which also conducts Ba<sup>2+</sup>, Sr<sup>2+</sup> and the small fluorescent dye, ethidium<sup>+</sup>. A wide range of receptor agonists, many of which raise cytosolic [Ca<sup>2+</sup>] activate phospholipase D (PLD). In the present study, it was shown that both ATP and 3′-O-(4-benzoylbenzoyl)-ATP (BzATP) stimulated PLD activity in a concentration-dependent manner, and the inhibitory effects of suramin, oxidised ATP, extracellular Na<sup>+</sup> and Mg<sup>2+</sup> suggested that the effect of these agonists is mediated by P2Z receptors.
The role of divalent cations in ATP-stimulated PLD activity was investigated. Several agonists (eg ATP, thapsigargin, ionomycin) stimulated a rise in cytosolic [Ca<sup>2+</sup>] in human lymphocytes, but only ATP and ionomycin stimulated PLD activity. When Ca<sup>2+</sup> influx was prevented by EGTA, the majority of ATP-stimulated and all of ionomycin-stimulated PLD activity was inhibited. Preloading cells with the Ca<sup>2+</sup> chelator, BAPTA, reduced cytosolic [Ca<sup>2+</sup>] and, paradoxically, ATP-stimulated PLD activity was potentiated. ATP-stimulated PLD activity was supported by both Ba<sup>2+</sup> and Sr<sup>2+</sup> when they were substituted for extracellular Ca<sup>2+</sup>. Furthermore, both ATP-stimulated PLD activity and ATP-stimulated <sup>133</sup>Ba<sup>2+</sup> influx showed a linear dependence on extracellular [Ba<sup>2+</sup>]. Thus it was concluded that ATP stimulated PLD activity in direct proportion to the influx of divalent cations through the P2Z ion channel and this PLD activity was insensitive to changes in bulk cytosolic [Ca<sup>2+</sup>].
The calmodulin (Ca<sup>2+</sup>/CaM) inhibitor, trifluoperazine (TFP) inhibited ionomycin- and ATP-stimulated PLD activity and ATP-stimulated apoptosis, but had no effect on PLD activity already activated by ATP. However, TFP inhibited ATP-stimulated Ca<sup>2+</sup>, Ba<sup>2+</sup> and ethidium<sup>+</sup> fluxes, at concentrations below those which inhibit Ca<sup>2+</sup>/CaM, suggesting that TFP inhibits the P2Z receptor.
Similarly, the isoquinolinesulphonamide, KN-62, a selective inhibitor of Ca<sup>2+</sup>/CaM-dependent protein kinase II (CaMKII), also prevented ATP-stimulated apoptosis, but had no effect on pre-activated PLD. In addition, KN-62, and an analogue, KN-04, which has no effect on CaMKII, potently inhibited ATP-stimulated Ba<sup>2+</sup> influx (IC<sub>50</sub> 12.7 ± 1.5 and 17.3 ± 2.7 nM, respectively), ATP-stimulated ethidium<sup>+</sup> uptake (IC<sub>50</sub> 13.1 ± 2.6 and 37.2 ± 8.9 nM, respectively), ATP-stimulated phospholipase D activity (50% inhibition 5.9 ± 1.2 and 9.7 ± 2.8 nM, respectively) and ATP-induced shedding of the surface adhesion molecule, L-selectin (IC<sub>50</sub> 31.5 ± 4.5 and 78.7 ± 10.8 nM, respectively). They did not inhibit phorbol ester- or ionomycin-stimulated PLD activity or phorbol ester-induced L-selectin shedding. Neither KN-62 nor KN-04 (both 500 nM) have any effect on UTP-stimulated Ca<sup>2+</sup> transients in fura-2-loaded human neutrophils, a response which is mediated by the P2Y<sub>2</sub> receptor, neither did they inhibit ATP-stimulated contractile responses mediated by the P2X<sub>1</sub> receptor of guinea pig urinary bladder. Thus, KN-62 and KN-04 are almost equipotent as P2Z inhibitors with IC<sub>50</sub>s in the nanomolar, indicating that their actions cannot be due to CaMKII inhibition, but rather that they are potent and direct inhibitors of the P2Z receptor.
Extracellular ATP-induced shedding of L-selectin from lymphocytes into the medium is a Ca<sup>2+</sup>-independent response. L-selectin is either cleaved by a metalloproteinase or a PLD with specificity for glycosylphosphatidylinositol (GPI). The novel hydroxamic acid-based zinc chelator, Ro-31-9790 blocks ATP-induced L-selectin shedding, but was without effect on ATP-induced Ba<sup>2+</sup> influx or ATP-stimulated PLD activity. Furthermore, another zinc chelator, 1,10-phenanthroline, an inhibitor of a GPI-PLD, potentiated rather than inhibited ATP-stimulated PLD activity, suggesting that ATP-induced L-selectin shedding and ATP-stimulated PLD activity are independent of each other.
Although extracellular ATP is the natural ligand for the lymphocyte P2Z receptor, it is less potent than BzATP in stimulating Ba<sup>2+</sup> influx. Concentration-response curves for BzATP- and ATP-stimulated ethidium<sup>+</sup> influx gave EC<sub>50</sub>s 15.4 ± 1.4 µM and 85.6 ± 8.8 µM, respectively. The maximal response to ATP was only 69.8 ± 1.9% of that for BzATP. Hill coefficients were 3.17 ± 0.24 and 2.09 ± 0.45 for BzATP and ATP respectively, suggesting greater positive cooperativity for BzATP than for ATP in opening the P2Z-operated ion channel. A rank order of agonist potency of BzATP > ATP = 2MeSATP > ATPγS was observed for agonist-stimulated ethidium<sup>+</sup> influx, while maximal influxes followed a rank order of BzATP > ATP > 2MeSATP > ATPγS. When ATP (300 -1000 µM) was added simultaneously with 30 µM BzATP (EC<sub>90</sub>), it reduced both ethidium<sup>+</sup> and Ba<sup>2+</sup> fluxes by 30 - 40% relative to values observed with BzATP alone. KN-62, previously shown to be a specific inhibitor of the lymphocyte P2Z receptor, was a less potent antagonist of BzATP-induced fluxes than ATP, when maximal concentrations of both agonists (50 and 500 µM respectively) were used. However, when BzATP (18 µM) was used at a concentration equiactive with a maximally effective ATP concentration, KN-62 showed the same inhibitory potency for both agonists. The ecto-ATPase antagonist, ARL-67156, inhibited both ATP- and BzATP-stimulated Ba<sup>2+</sup> influx, suggesting that the lower efficacy of ATP compared with BzATP was not due to preferential hydrolysis of ATP. Thus, the natural ligand, ATP, is a partial agonist for the P2Z receptor while BzATP is a full agonist. Moreover the competitive studies show that only a single class of P2-receptor (P2Z class) is expressed on human leukaemic lymphocytes.
Both ATP- and BzATP-stimulated PLD activity were significantly inhibited (P < 0.05) when cells were suspended in iso-osmotic choline Cl medium. Choline<sup>+</sup> was found to be a permeant for the P2Z ion channel, since ATP induced a large uptake of [<sup>14</sup>C]choline<sup>+</sup> (60 to 150 µmol/ml intracellular water) during a 5 min incubation, which remained in the cells for several hours, and ATP was used to load cells with these levels of choline<sup>+</sup>. Intracellular choline<sup>+</sup> inhibited ATP-, BzATP-, PMA- and ionomycin-stimulated PLD activity. Brief exposure of lymphocytes to ATP increased the subsequent basal rate of ethidium<sup>+</sup> uptake, and this was prevented by intracellular choline<sup>+</sup>. It is proposed that P2Z-mediated Ca<sup>2+</sup> influx in lymphocytes activates PLD leading to significantly changes of the phospholipid composition of the plasma membrane, which subsequently produces a permeability lesion, which in turn contributes to cell death.
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Isolation and Some Biochemical Properties of Porcine Pancreas MitochondriaWAKABAYASHI, TAKASHI, HAYAKAWA, TETSUO, ADACHI, KAYO, SAKAI, YUZO 03 1900 (has links)
No description available.
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Calcium and Phospholipases in Orexin Receptor SignalingJohansson, Lisa January 2008 (has links)
The neuropeptides orexin-A and -B act as endogenous ligands for G-protein-coupled receptors (GPCRs) called OX1 and OX2 receptors. Previous observations have established that orexin receptors have an ability to couple to different G-proteins and signaling pathways and induce Ca2+ elevations via both receptor-operated Ca2+ channels (ROCs) and store-operated Ca2+ channels (SOCs). This thesis further elucidates the intracellular signaling mechanisms of orexin receptors. Orexin receptors were shown to activate ERK (extracellular signal-regulated kinase) via Ras, protein kinase C, phosphatidylinositol-3 kinase and Src. Ca2+ influx was shown to be obligatory for the activation of ERK and adenylyl cyclase, wherewith a hypothesis was formed that submembrane Ca2+ elevation is of central importance for the regulation of orexin receptors' coupling to different signaling pathways. This was further investigated with respect to OX1R-mediated activation of phospholipase C (PLC) showing that ROC influx was of more central importance for the OX1R signaling, but also SOCs amplified PLC activity. A technique to block OX1R-induced IP3 increase and subsequent Ca2+ release was devised, leaving ROC influx as the only source of Ca2+ elevation upon OX1R activation. This block had no effect on OX1R-mediated activation of ERK, showing that ROC-dependent influx is the most central Ca2+ elevating process in OX1R signaling. OX1Rs' coupling to PLC was further investigated by measuring the metabolites generated, inositol phosphates and diacylglycerol (DAG). The results indicate involvement of two different PLC activities with different substrate specificities, which results in, at low orexin-A concentrations, DAG production without concomitant production of IP3. At even lower orexin-A concentrations, OX1Rs generate DAG by activating phospholipase D. In conclusion, the results strengthen the hypothesis that ROCs have a central role in orexin receptor signaling and DAG may be the signal of preference.
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Etude biochimique et nutritionnelle de l'effet immunomodulateur des huiles d'argan, de poisson et d'olive effets comparés de leurs acides gras /Benzaria, Amal Prigent, Annie-France Meskini, Nadia January 2007 (has links)
Thèse doctorat : Biochimie : Villeurbanne, INSA : 2006. Thèse doctorat : Biochimie : Faculté des Sciences et Techniques de Mohammedia : 2006. / Thèse soutenue en co-tutelle. En fin de thèse, 2 articles de périodique rédigés en anglais. Titre provenant de l'écran-titre. Bibliogr. p. 160-201. Réf. bibliogr. p. 8-9.
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<>.Zeiller, Caroline Prigent, Annie-France Nemoz, Georges. January 2008 (has links)
Thèse doctorat : Biochimie : Villeurbanne, INSA : 2007. / Titre provenant de l'écran-titre. Bibliogr. p. 210-250.
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Novel Product Formation and Substrate Specificity of the Phospholipase D Toxins in the Venom of the Sicariidae Spider FamilyLajoie, Daniel M. January 2014 (has links)
Venoms of the Sicariidae spider family contain phospholipase D (PLD) enzyme toxins that can cause severe dermonecrosis and even death in humans. PLD toxins are known to cleave the substrates sphingomyelin (SM) and lysophosphatidylcholine (LPC) in mammalian tissues, releasing a choline headgroup and a reported monoester phospholipid formed via a hydrolytic reaction. However, some PLD toxins have demonstrated the ability to utilize substrates besides SM and LPC and other PLD toxins have demonstrated no activity against either SM or LPC. Given that the etiology of the disease state following envenomation is not well understood, we postulated that PLD toxins could be utilizing other phospholipid substrates in vivo. To determine the level of promiscuity among the PLD toxins, we developed a novel ³¹P-NMR assay to measure phospholipase activity against a panel of potential phospholipid substrates. While developing the assay, we made the surprising discovery that recombinant PLD toxins, as well as whole venoms from diverse Sicariidae species, exclusively generates cyclic phosphate rather than hydrolytic products. We also found that a distantly related PLD toxin from a pathogenic bacterium, with low sequence identity to the spider PLDs, exclusively generates cyclic phosphate products. We then established that St_βIB1i, a PLD with extremely diminished activity toward SM and LPC, actually demonstrates large preferential specificity towards ethanolamine phospholipid substrates. We solved the crystal structure of St_βIB1i to compare to PLD toxins of known structure, toward an understanding of the molecular basis of substrate specificity. The cyclic phosphate products generated by the PLD toxins have extremely different biochemical properties than their monoester counterparts and may be relevant to the pathology following envenomation or bacterial infection. In addition the specificity St_βIB1i has for ethanolamine substrates may have biological implications, as insects have high concentrations of ethanolamine-containing phospholipids.
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Regulation of prostaglandin synthesis in the zebrafish ovaryMelnyk, Nicholas C. 21 December 2011 (has links)
Oocyte maturation and ovulation are two major events that occur in fish prior to spawning. While earlier studies have shown that 17α, 20β-dihydroxy-4-pregnen-3-one (17,20β-P) and the insulin-like growth factor (IGF) system are regulators of oocyte maturation in the zebrafish (Danio rerio), it is not known whether these hormones play a role in regulating prostaglandin synthesis which is thought to mediate ovulation. I determined if 17,20β-P and human IGF-1 affect the expression of genes involved in prostaglandin biosynthesis including phospholipase A2 (cpla2) and cyclooxygenase-1/2 (ptgs1/ptgs2), or prostaglandin F2α (PGF2α) levels. 17,20β-P and IGF-1 stimulated oocyte maturation in mid-vitellogenic (MV) and full grown (FG) follicles. In FG follicles, 17,20β-P increased cpla2 expression, whereas IGF-1 increased cpla2 and ptgs2 expression. Both 17,20β-P and IGF-1 increased PGF2α production. The phosphatidylinositol 3-kinase (PI3K) and mitogen-activated protein kinase (MAPK) signalling pathways were shown to mediate IGF-1- and 17,20β-P-induced oocyte maturation and cpla2 and ptgs2 expression. Collectively, these results demonstrate that 17,20β-P and IGFs are important regulators of oocyte maturation and prostaglandin synthesis in zebrafish.
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