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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.
1

Expression of the Cytoplasmic Domain of β1 Integrin Induces Apoptosis in Adult Rat Ventricular Myocytes (ARVM) via the Involvement of Caspase-8 and Mitochondrial Death Pathway

Menon, Bindu, Krishnamurthy, Prasanna, Kaverina, Ekaterina, Johnson, Jennifer N., Ross, Robert S., Singh, Mahipal, Singh, Krishna 01 November 2006 (has links)
Stimulation of β-adrenergic receptor (β-AR) induces cardiac myocyte apoptosis. Integrins, a family of cell-surface receptors, play an important role in the regulation of cardiac myocyte apoptosis and ventricular remodeling. Cleavage of extracellular domain of β1 integrin, also called integrin shedding, is observed during cardiac hypertrophy and progression to early heart failure. Here we show that stimulation of β-AR induces β1 integrin fragmentation in mouse heart. To examine the role of intracellular domain of β1 integrin in cardiac myocyte apoptosis, a chimeric receptor consisting of the cytoplasmic tail domain of β1A integrin and the extracellular/transmembrane domain of the interleukin-2 receptor (TAC-β1) was expressed in adult rat ventricular myocytes (ARVM) using adenoviruses. TAC-β1 increased the percentage of apoptotic ARVM as measured by TUNEL-staining assay. TAC-β1-induced apoptosis was found to be associated with increased cytosolic cytochrome c and decreased mitochondrial membrane potential. TAC-β1 increased caspase-8 activity. Z-IETD-FMK, a specific caspase-8 inhibitor, significantly inhibited TAC-β1-induced apoptosis. TAC-β1 expression also increased cleavage of Bid, a pro-apoptotic Bcl-2 family protein. These data suggest that shedding of β1 integrin may be a mechanism of induction of apoptosis during β-AR-stimulated cardiac remodeling.
2

Contribution des phosphodiestérases 3 et 4 au maintien de l’homéostasie calcique et à la prévention des arythmies ventriculaires dans le cardiomyocyte adulte / Contribution of phosphodiesterases 3 and 4 to the maintenance of calcium homeostasis and to the prevention of ventricular arrhythmias in adult cardiomyocyte

Bobin, Pierre 25 June 2015 (has links)
La voie β-adrénergique (β-AR)/AMPc est cruciale pour l’adaptation de la fonction cardiaque. Dans l’insuffisance cardiaque (IC), cette signalisation est perturbée et une part importante des patients meurt de troubles du rythme. Classiquement, les effets inotrope et lusitrope positifs de l’AMPc sont attribués à la phosphorylation par la protéine kinase AMPc dépendante (PKA) des protéines clés du couplage excitation–contraction (CEC). L’AMPc active aussi le facteur d’échange Epac, impliqué dans l’hypertrophie cardiaque et le contrôle de l’homéostasie calcique. Une cible d’Epac est la CaMKII, une kinase modulée par le Ca2+ et la calmoduline qui phosphoryle aussi les protéines clés du CEC, et dont l’activation est pro-arythmique.Les phosphodiestérases (PDEs) de type 3 et 4 sont majeures pour dégrader l’AMPc et contrôler l’homéostasie calcique et le CEC. Les inhibiteurs de PDE3 sont de puissants cardiotoniques mais leur utilisation est limitée par leurs effets pro-arythmiques. De plus, l’invalidation de gènes codant pour PDE4 conduit à des arythmies ventriculaires. Mon travail a permis d’identifier les perturbations de l’homéostasie calcique responsables de la survenue d’arythmies lorsque l’activité des PDE3 et des PDE4 est diminuée. Mes résultats montrent que les inhibiteurs de PDEs exercent des effets inotropes via PKA, mais suscitent des vagues de Ca2+ pro-arythmiques impliquant la PKA et la CaMKII activée en partie via Epac. Ceci suggère l'utilisation potentielle d'inhibiteurs de CaMKII comme compléments aux inhibiteurs de PDEs pour limiter leurs effets délétères, une hypothèse que j’ai pu vérifier dans un modèle porcin plus proche du patient. / The β-adrenergic pathway (β-AR)/cAMP is crucial for the adaptation of the cardiac function upon stress. In heart failure (HF), this signaling pathway is disrupted and a significant proportion of patients dies of cardiac arrhythmias. Classically, the inotropic and lusitropic effects of cAMP are attributed to the phosphorylation by the cAMP-dependent protein kinase (PKA) of the key proteins of the excitation-contraction coupling (ECC). cAMP also activates the exchange factor Epac, which is involved in cardiac hypertrophy and controls intracellular Ca2+ homeostasis. Epac activates CaMKII, another kinase modulated by Ca2+ and calmodulin which phosphorylates the same key proteins of the ECC, and is involved in arrhythmogenesis.Phosphodiesterases (PDEs) type 3 and 4 are crucial enzyme to degrade cAMP and to control Ca2+ homeostasis, thus ECC. PDE3 inhibitors are potent cardiotonic drugs but their use is limited by their pro-arrhythmic effects. Furthermore, the invalidation of genes encoding PDE4 results in ventricular arrhythmias. My work allowed characterizing the perturbations of Ca2+ homeostasis which lead to arrhythmias when PDE3 and PDE4 activities are decreased. My results show that PDE inhibitors exert inotropic effects via PKA, but evoke pro-arrhythmic Ca2+ waves via both PKA and CaMKII, the latter being activated in part via Epac. Altogether, these results suggest the potential use of CaMKII inhibitors as adjuncts to PDEs inhibitors to limit their deleterious effects, a hypothesis I also tested in a porcine model closer to the patient.
3

Β-Adrenergic Receptor-Stimulated Apoptosis in Cardiac Myocytes Is Mediated by Reactive Oxygen Species/C-Jun NH<sub>2</sub>-Terminal Kinase-Dependent Activation of the Mitochondrial Pathway

Remondino, Andrea, Kwon, Susan H., Communal, Catherine, Pimentel, David R., Sawyer, Douglas B., Singh, Krishna, Colucci, Wilson S. 07 February 2003 (has links)
Stimulation of β-adrenergic receptors (βARs) causes apoptosis in adult rat ventricular myocytes (ARVMs). The role of reactive oxygen species (ROS) in mediating βAR-stimulated apoptosis is not known. Stimulation of βARs with norepinephrine (10 μmol/L) in the presence of prazosin (100 nmol/L) for 24 hours increased the number of apoptotic myocytes as determined by TUNEL staining by 3.6-fold. The superoxide dismutase/catalase mimetics Mn(III)tetrakis(1-methyl-4-pyridyl)porphyrin pentachloride (MnTMPyP; 10 μmol/L) and Euk-134 decreased βAR-stimulated apoptosis by 89±6% and 76±10%, respectively. Infection with an adenovirus expressing catalase decreased βAR-stimulated apoptosis by 82±15%. The mitochondrial permeability transition pore inhibitor bongkrekic acid (50 μmol/L) decreased βAR-stimulated apoptosis by 76±8%, and the caspase inhibitor zVAD-fmk (25 μmol/L) decreased βAR-stimulated apoptosis by 62±11%. βAR-stimulated cytochrome c release was inhibited by MnTMPyP. βAR stimulation caused c-Jun NH2-terminal kinase (JNK) activation, which was abolished by MnTMPyP. Transfection with an adenovirus expressing dominant-negative JNK inhibited βAR-stimulated apoptosis by 81±12%, and the JNK inhibitor SP600125 inhibited both βAR-stimulated apoptosis and cytochrome c release. Thus, βAR-stimulated apoptosis in ARVMs involves ROS/JNK-dependent activation of the mitochondrial death pathway.
4

Characterisation of the α2A-adrenoceptor antagonism by mirtazapine and its modifying effects on receptor signalling / Kenneth Khoza

Khoza, Kenneth January 2004 (has links)
Mirtazapine is an atypical antidepressant employed clinically for the treatment of major depression. As a multipotent antagonist it acts at α2a-adrenergic receptors (α2a -ARs). serotonin type-2A receptors (5-HT2a-Rs) and histamine type-I receptors (H1-Rs). Its actions at the α2a-AR have been proposed to play a role in its putative earlier onset of action. However, it is not known whether mirtazapine is a neutral antagonist or inverse agonist at α2a- ARs. The current study aimed to determine the mode of α2a-AR antagonism by mirtazapine, as well as to investigate in vitro the modulatory effects of mirtazapine pre-treatments on β-adrenergic receptor (β-AR), muscarinic acetylcholine receptor (mAChR) and α2a-AR functions. Chinese hamster ovary (CHO-K1) cells expressing the porcine α2a-AR at high numbers (α2a-H), a constitutively active mutant α2a-AR (α2a--CAM), or mock-transfected control cells (neo) were radio-labelled with [3H]-adenine and concentration-effect curves of mirtazapine, yohimbine, mianserin or idazoxan were constructed, measuring [3H]-cAMP accumulation. In addition human neuroblastoma SH-SY5Y cells and CHO-K1 cells expressing the porcine α2a- AR at low numbers (am-L) were used to investigate the effect of mirtazapine pre-treatments on mAChRs and β-ARS or α2a-ARs respectively. After radio-labelling with myo-[2-3H]-inositol or [2-%]-adenine, radio-label uptake was measured and receptor function was investigated by constructing concentration-effect curves, measuring [3H]-IPx or [3H]-cAMP accumulation respectively. The results from the current study show that mirtazapine binds to the α2a-AR with an affinity value in the lower micromolar range (K1≈ 0.32 µM; pK1 = 6.50 ± 0.07). Mirtazapine is not a partial agonist at α2a-ARs as it does not affect [3H]-cAMP accumulation in α2a-H cells. Preliminary results suggest that mirtazapine displays partial inverse agonism in α2a-CAM cells, while mianserin displays neutral antagonism. Mirtazapine pre-treatment in SH-SY5Y cells does not alter muscarinic receptor function (different from fluoxetine and imipramine), but reduces I-isoproterenol-induced increase in [3H]-cAMP accumulation in SH-SY5Y cells (typically associated with chronic antidepressant activity). Although inconclusive, the data also suggests that mirtazapine may reduce α2a-AR function. / Thesis (M.Sc. (Pharmacology))--North-West University, Potchefstroom Campus, 2005.
5

Characterisation of the α2A-adrenoceptor antagonism by mirtazapine and its modifying effects on receptor signalling / Kenneth Khoza

Khoza, Kenneth January 2004 (has links)
Mirtazapine is an atypical antidepressant employed clinically for the treatment of major depression. As a multipotent antagonist it acts at α2a-adrenergic receptors (α2a -ARs). serotonin type-2A receptors (5-HT2a-Rs) and histamine type-I receptors (H1-Rs). Its actions at the α2a-AR have been proposed to play a role in its putative earlier onset of action. However, it is not known whether mirtazapine is a neutral antagonist or inverse agonist at α2a- ARs. The current study aimed to determine the mode of α2a-AR antagonism by mirtazapine, as well as to investigate in vitro the modulatory effects of mirtazapine pre-treatments on β-adrenergic receptor (β-AR), muscarinic acetylcholine receptor (mAChR) and α2a-AR functions. Chinese hamster ovary (CHO-K1) cells expressing the porcine α2a-AR at high numbers (α2a-H), a constitutively active mutant α2a-AR (α2a--CAM), or mock-transfected control cells (neo) were radio-labelled with [3H]-adenine and concentration-effect curves of mirtazapine, yohimbine, mianserin or idazoxan were constructed, measuring [3H]-cAMP accumulation. In addition human neuroblastoma SH-SY5Y cells and CHO-K1 cells expressing the porcine α2a- AR at low numbers (am-L) were used to investigate the effect of mirtazapine pre-treatments on mAChRs and β-ARS or α2a-ARs respectively. After radio-labelling with myo-[2-3H]-inositol or [2-%]-adenine, radio-label uptake was measured and receptor function was investigated by constructing concentration-effect curves, measuring [3H]-IPx or [3H]-cAMP accumulation respectively. The results from the current study show that mirtazapine binds to the α2a-AR with an affinity value in the lower micromolar range (K1≈ 0.32 µM; pK1 = 6.50 ± 0.07). Mirtazapine is not a partial agonist at α2a-ARs as it does not affect [3H]-cAMP accumulation in α2a-H cells. Preliminary results suggest that mirtazapine displays partial inverse agonism in α2a-CAM cells, while mianserin displays neutral antagonism. Mirtazapine pre-treatment in SH-SY5Y cells does not alter muscarinic receptor function (different from fluoxetine and imipramine), but reduces I-isoproterenol-induced increase in [3H]-cAMP accumulation in SH-SY5Y cells (typically associated with chronic antidepressant activity). Although inconclusive, the data also suggests that mirtazapine may reduce α2a-AR function. / Thesis (M.Sc. (Pharmacology))--North-West University, Potchefstroom Campus, 2005.
6

Studium beta-adrenergní signalizace v myokardu potkana během adaptace na chronickou hypoxii / Myocardial beta-adrenergic signaling during adaptation of rats to chronic hypoxia

Hahnová, Klára January 2011 (has links)
Endogenous cardiac protection against acute ischemia/reperfusion injury can by increased by cardiac adaptation to various forms of chronic hypoxia. Chronic hypoxia induces a large variety of adaptive changes in the myocardium that could be considered as protective, but the exact mechanism of increased ischemic tolerance is unknown. Different studies suggest that catecholamine release and their effect on -adrenergic signaling after adaptation to chronic hypoxia contributes to cardioprotection. In this study we focused on characterization of -adrenergic receptors ( -ARs) in the myocardium of rats after adaptation to three different hypoxic conditions: 1. intermittent normobaric hypoxia - INH/R (23 h hypoxia, 1 h reoxygenation), 2. intermittent normobaric hypoxia - INH (8 h hypoxia, 16 h normoxia), 3. continuous normobaric hypoxia - CNH (24 h hypoxia). We compared how each hypoxic model affects the total number of -adrenergic receptors and proportion of individual subtypes ( 1-and 2-ARs) in the left and right ventricles compared control normoxic rats. The INH model had apparently no effect on -ARs in either ventricles. On the other hand, adaptation to INH/R and CNH was accompanied by a significant decrease (by about 25%) in the total number of -adrenergic receptors in the right ventricles. Our present...
7

Studium beta-adrenergní signalizace v myokardu spontánně hypertenzního potkana transgenního kmene SHR-Tg19 / A study of beta-adrenergic myocardial signaling in spontaneously hypertensive rat of transgenic strain SHR-Tg19

Manakov, Dmitry January 2012 (has links)
β-Adrenergic signalization plays an important role in heart, regulating cardiac frequency and contractility. It is also involved in development of hypertension and heart hypertrophy. Spontaneous hypertensive rat strain is a common model for human essential hypertension, although the origin of blood pressure abnormalities in SHR remains unknown. Dysfunction in the regulation of fatty acid translocase Cd36 was suggested as a link to development of hypertension in SHR. Transgenic strain SHR-Tg19 (also known as SHR-Cd36) was obtained, harboring a wild type of FAT/Cd36. This thesis aimed to investigate key elements of β-adrenergic signaling in the heart of SHR-Tg19 compared to their SHR controls. Expression and distribution of β1- and β2-ARs were measured using radioligand binding and Western blot analysis along with expression of selected G proteins and expression and activity of adenylyl cyclase. Our experiments showed that there were no significant changes in the Gsα and Giα subunits expressions, along with the amount of β1-AR in both left and right ventricles, according to the Western immunoblotting, but radioligand binding showed an increase in the quantity of β-ARs, particularly β2 subtype. Alongside, an increased expression of β2- ARs was observed in the right ventricle. Different...
8

Vliv chronického působení morfínu na funkci signálních systémů řízených trimérními G-proteiny v srdci potkana / Effect of chronic morphine treatment of rats on myocardial signaling systems regulated by trimeric G-proteins

Škrabalová, Jitka January 2011 (has links)
It has recently been discovered that the effect of morphine can significantly reduce the tissue damage that occurs during myocardial ischemia. The molecular mechanisms by which morphine acts on the heart are still little understood. The aim of this thesis was to monitor the effect of chronic 27-day and 10-day administration of low (1 mg/kg/day) and high (10 mg/kg/ day) doses of morphine on the expression of selected G-protein-coupled receptors (GPCR) and on the expression and activity of adenylyl cyclase (AC). Chronic (27 days) morphine treatment reduced the expression of к-opioids receptors, but 10-day morphine exposure did not influence the expression of these receptors. Assessment of β1- and β2-AR by immunoblot technique did not show any significant change in the expression, but the more accurate determination of β-AR expression using the saturation binding studies revealed that 27-day treatment with high doses of morphine appreciable increased the total number of these receptors. Administration of high doses of morphine led to marked up-regulation of adenylyl cyclase (AC) isoforms V/VI, and the amount of AC decreased proportionally with the time of discontinuation of morphine administration. Low doses of morphine up- regulated AC only during 27-day administration. Chronic morphine exposure did...

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