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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.
131

La glycine décarboxylase désensibilise les cellules initiatrices de tumeur à la metformine

Moineau-Vallée, Karine 07 1900 (has links)
Le cancer du pancréas est l’un des plus chimiorésistants, avec un taux de survie sur 5 ans inférieur à 5%. La chimiorésistance pourrait être due à la présence de cellules initiatrices de tumeur (TICs), une petite sous-population des cellules tumorales possédant la capacité de régénérer une nouvelle tumeur. Il a été démontré que la metformine cible les TICs par un mécanisme non élucidé. Il est connu que la metformine affecte le métabolisme du carbone. Il a également été démontré que le métabolisme du carbone, plus précisément la glycine décarboxylase (GLDC), est à la fois nécessaire et suffisant à l’acquisition de propriétés d’initiation tumorale. Nous proposons que la metformine cible les cellules initiatrices de tumeur en affectant le métabolisme du carbone. Nous avons utilisé des lignées cellulaires dérivées d’un modèle murin de cancer du pancréas pour comparer l’expression génique de lésions bénignes versus malignes. Les cellules malignes surexpriment Gldc. La metformine diminue l’expression de Gldc, et la surexpression de Gldc diminue la sensibilité à la metformine dans un essai de sphères tumorales. La metformine induit une augmentation du ratio NADP+/NADPH, et la surexpression de Gldc empêche cette augmentation. Nous proposons que la metformine diminue l’expression de Gldc, ce qui cause une diminution du flux du métabolisme du carbone, et donc une diminution de la production de NADPH par ce dernier. L’augmentation du ratio NADP+/NADPH inhibe la synthèse des acides gras et la régénération de la glutathione, ce qui pourrait expliquer la diminution de la formation de sphères tumorales sous traitement metformine. / Pancreatic cancer is one of the most chemoresistant cancers, with a 5-year survival rate lesser than 5%. Chemoresistance might be due to the presence of tumor-initiating cells (TICs), a small subpopulation of tumor cells with stem-like characteristics which possess the unique ability to self-renew and to generate a new tumor. Metformin has been shown to affect TICs in various cancer types, but the mechanism through which it does so is unclear. It is known that metformin affects one-carbon metabolism. It has also been shown that one-carbon metabolism, more precisely the glycine decarboxylase (GLDC) enzyme, is both necessary and sufficient to the acquisition of tumor-initiating properties. Considering this, we propose that metformin affects TICs by targeting one-carbon metabolism. Using cell lines derived from a genetically engineered mouse model of pancreatic cancer, we compared gene expression data from cells derived from benign pancreatic neoplasia with cells derived from pancreatic ductal adenocarcinoma (PDAC), and found that PDAC cells exhibited a dramatic increase in Gldc expression. Metformin treatment decreases Gldc expression in PDAC cell lines, and Gldc overexpression greatly decreases metformin sensitivity in a tumor sphere assay. Metformin induces an increase in NADP+/NADPH ratio, which is rescued by Gldc overexpression. We propose a model in which metformin decreases Gldc expression, which causes reduced flux through mitochondrial one-carbon metabolism. This results in decreased NADPH production by this pathway. This increase in NADP+/NADPH ratio impairs fatty acid biosynthesis and glutathione regeneration. Together these effects might explain the decrease of tumor sphere formation under metformin treatment.
132

Differentielle Regulation von Schlüsselgenen der gastralen Säuresekretion durch Gastrin, oxidativen Stress und Helicobacter pylori

Höcker, Michael 26 March 2002 (has links)
Die transkriptionelle Aktivierung des HDC Gens sowie des Chromogranin A Gens in ECL-Zellen der Magenmucosa repräsentiert einen zentralen Mechanismus der Säureregulation durch Gastrin und scheint ausserdem Bedeutung für die Pathogenese der gastroduodenalen Ulkuskrankheit zu haben. Unsere Untersuchungen identifizieren erstmals die molekularen Mechanismen der Gastrin-abhängigen Regulation beider Gene und definieren die beteiligten Transkriptionsfaktoren, regulatorischen DNA-Elemente und intrazellulären Signalwege. Des weiteren wurde durch transgene Untersuchungen die transkriptionelle Regulation des ChromograninA Gens in vivo bestätigt und die neuroendokrin-spezifische Expression eines 4.8kB-langen CgA-Promotorfragmentes demonstriert. Als pathobiologisch relevante Aktivatoren des HDC Gens konnten oxidativer Stress sowie die H. pylori Infektion identifiziert und hinsichtlich ihrer molekularen Wirkungen auf das Schlüsselgen der Histaminsynthese im Magen charakterisiert werden. Diese Ergebnisse dokumentieren einen potentiellen Mechanismus für die Interaktion beider Stimuli mit den physiologischen Regelkreisen der Magensäureregulation und können durch die Definition neuer molekularer Angriffspunkte möglicherweise zur Entwicklung innovativer Therapieansätze beitragen. / Transcriptional activation of the genes encoding histidine decarboxylase and chromogranin A represents a key mechanism of gastrin-dependent acid regulation and also appears to be involved in the pathogenesis of gastroduodenal ulcer disease. Our results for the first time identify the molecular mechanisms underlying gastrin-dependent activation of both genes, and define the transcription factors, regulatory DNA elements and signal transduction pathways involved in this process. Furthermore, transgenic studies confirmed the principle of gastrin-dependent transcriptional activation of the chromogranin A gene in vivo, and demonstrated neuroendocrine-specific expression of a 4.8kB-CgA promotor fragment. In addition, the pathobiological stimuli oxidative stress and H. pylori were molecularly characterized regarding their activating effects on the key gene of gastric histamine sythesis. These results provide potential mechanisms for the interaction of both stimuli with regulatory circuits of gastric acid secretion, and can probably contribute via definition of new molecular targets to the development of inovative therapeutic strategies.
133

Developmental Regulation of the type-A Gamma-Aminobutyric Acid Receptor (GABA-AR) Signaling in the Fetal Rat Lung

Ahmed, Mijhgan 30 July 2009 (has links)
The fetal lung epithelium secretes fluid into the potential pulmonary air-spaces by actively transporting chloride (Cl¯) into the lung lumen. This Cl¯-driven fluid secretion declines with the progression of lung development. Recent studies demonstrate that the A-type γ-aminobutyric acid receptor (GABAAR), a Cl¯ channel, and glutamic acid decarboxylase (GAD65/67), key GABA-synthesizing enzymes, are expressed in adult pulmonary epithelial cells (ECs), forming an autocrine GABAAR signaling system. My thesis study revealed that GABAAR π- and β2- subunits are expressed in high levels in the fetal rat lung epithelium and decline at birth, consistent with pattern of fluid secretion. Immunohistochemistry showed distinct profiles of expression for GABAAR subunits and GAD65/67. Treatment of alveolar ECs with dexamethasone reduced the GABAAR π-subunit expression. These results suggest that the GABAAR signaling in the fetal pulmonary epithelium is developmentally regulated and the GABAAR expression and GABAAR-mediated Cl¯ secretion in pulmonary ECs may be regulated by glucosteroids.
134

Developmental Regulation of the type-A Gamma-Aminobutyric Acid Receptor (GABA-AR) Signaling in the Fetal Rat Lung

Ahmed, Mijhgan 30 July 2009 (has links)
The fetal lung epithelium secretes fluid into the potential pulmonary air-spaces by actively transporting chloride (Cl¯) into the lung lumen. This Cl¯-driven fluid secretion declines with the progression of lung development. Recent studies demonstrate that the A-type γ-aminobutyric acid receptor (GABAAR), a Cl¯ channel, and glutamic acid decarboxylase (GAD65/67), key GABA-synthesizing enzymes, are expressed in adult pulmonary epithelial cells (ECs), forming an autocrine GABAAR signaling system. My thesis study revealed that GABAAR π- and β2- subunits are expressed in high levels in the fetal rat lung epithelium and decline at birth, consistent with pattern of fluid secretion. Immunohistochemistry showed distinct profiles of expression for GABAAR subunits and GAD65/67. Treatment of alveolar ECs with dexamethasone reduced the GABAAR π-subunit expression. These results suggest that the GABAAR signaling in the fetal pulmonary epithelium is developmentally regulated and the GABAAR expression and GABAAR-mediated Cl¯ secretion in pulmonary ECs may be regulated by glucosteroids.
135

5-Aminolevulinic acid and derivatives thereof : properties, lipid permeability and enzymatic reactions

Erdtman, Edvin January 2010 (has links)
5-aminolevulinic acid (5-ALA) and derivatives thereof are widely usedprodrugs in treatment of pre-malignant skin diseases of the cancer treatmentmethod photodynamic therapy (PDT). The target molecule in 5-ALAPDTis protoporphyrin IX (PpIX), which is synthesized endogenously from5-ALA via the heme pathway in the cell. This thesis is focused on 5-ALA,which is studied in different perspectives and with a variety of computationalmethods. The structural and energetic properties of 5-ALA, itsmethyl-, ethyl- and hexyl esters, four different 5-ALA enols, and hydrated5-ALA have been investigated using Quantum Mechanical (QM) first principlesdensity functional theory (DFT) calculations. 5-ALA is found to bemore stable than its isomers and the hydrolysations of the esters are morespontaneous for longer 5-ALA ester chains than shorter. The keto-enoltautomerization mechanism of 5-ALA has been studied, and a self-catalysismechanism has been proposed to be the most probable. Molecular Dynamics(MD) simulations of a lipid bilayer have been performed to study themembrane permeability of 5-ALA and its esters. The methyl ester of 5-ALAwas found to have the highest permeability constant (PMe-5-ALA = 52.8 cm/s).The mechanism of the two heme pathway enzymes; Porphobilinogen synthase(PBGS) and Uroporphyrinogen III decarboxylase (UROD), have beenstudied by DFT calculations and QM/MM methodology. The rate-limitingstep is found to have a barrier of 19.4 kcal/mol for PBGS and 13.7kcal/mol for the first decarboxylation step in UROD. Generally, the resultsare in good agreement with experimental results available to date.
136

Regulation of Higher Order Chromatin at GRIN2B and GAD1 Genetic Loci in Human and Mouse Brain: A Dissertation

Bharadwaj, Rahul 14 February 2013 (has links)
Little is known about higher order chromatin structures in the human brain and their function in transcription regulation. We employed chromosome conformation capture (3C) to analyze chromatin architecture within 700 Kb surrounding the transcription start site (TSS) of the NMDA receptor and schizophrenia susceptibility gene, GRIN2B, in human and mouse cerebral cortex. Remarkably, both species showed a higher interaction between the TSS and an intronic sequence, enriched for (KRAB) Krueppel associated Box domain binding sites and selectively targeted by the (H3K9) histone 3 lysine 9 specific methyltransferase ESET/SETDB1. Transgenic mice brain cortical nuclei over-expressing Setdb1 showed increased heterochromatin-protein 1 signal at the interacting regions coupled with decreased Grin2b expression. 3C further revealed three long distant chromatin loop interactions enriched with functional enhancer specific (H3K27Ac) histone 3 lysine 27 acetylation signal in GRIN2B expressing tissue (human cortical nuclei and Human Embryonic Kidney - HEK cells). Doxycycline-induced SETDB1 over-expression decreased 2 out of 3 loop interaction frequencies suggesting a possible SETDB1-mediated transcription repression. We also report a specific looping interaction between a region 50Kb upstream of the (GAD1) Glutamic Acid Decarboxylase – 1 gene TSS and the GAD1 TSS in human brain nuclei. GAD1 catalyzes the rate limiting step in (GABA) gamma amino-butyric acid synthesis and is quintessential for inhibitory signaling in the human brain. Clinical studies in schizophrenia brain samples reveal a decreased looping interaction frequency in correspondence with a decrease in gene expression. Our findings provide evidence for the existence of transcription relevant higher order chromatin structures in human brain.
137

1-甲基-4-苯基碘化啶對大鼠紋狀體神經細胞中CK2/DARPP-32/GAD67訊息傳遞表現及 神經生理功能之影響 / Effect of MPP+ on CK2/DARPP-32/GAD67 signaling pathway and neurophysiological function in the striatum of rats

洪禎廷 Unknown Date (has links)
蛋白激酶CK2(Casine kinase 2)為四單體所構成,針對配受質蛋白之絲胺酸或蘇胺酸位置進行磷酸化,先前研究已經發現在紋狀體腦區之CK2的表現量與活性皆高於大腦中其餘腦區,而紋狀體腦區主要神經細胞為-氨基丁酸神經元(GABAergic neurons)的medium spiny neuron(MSN),會受到來自黑質多巴胺神經細胞(dopaminergic neurons)的調控。此外,DARPP-32(dopamine- and cAMP-regulated phosphoprotein, Mr 32 kDA)蛋白亦被發現大量表現於在MSN細胞中,且為CK2之受質蛋白質。雖然CK2已被證實參與多巴胺神經元的神經保護機制,但是否參與MSN細胞對運動行為調控之生理機制仍未清楚。由於已有研究發現施予1-甲基-4-苯基-1,2,3,6-四氢吡啶(MPTP)藥物處理造成黑質-紋狀體腦區受損之老鼠腦內-氨基丁酸(GABA)的生合成酵素─麩胺酸脫羧酵素67(GAD67)表現量與正常老鼠不同,因此本論文研究的主題擬在大鼠實驗模式中利用MPP+造成投射至紋狀體之多巴胺神經細胞受損,探討當多巴胺調控紋狀體神經細胞能力缺失的狀態下,MSN細胞之CK2、DARPP-32和GAD蛋白表現與動物運動行為之相關性。 實驗結果發現,直接於紋狀體給予1-甲基-4-苯基碘化啶 (MPP+ Iodide)皆會造成CK2、DARPP-32以及GAD67之蛋白質含量的減少,多巴胺及其代謝物和GABA等神經化學傳遞物質亦有減少的現象;另外,在MPP+給予前分別操弄CK2或DARPP-32 胺基酸Ser102磷酸化的表現,皆會改變GAD67蛋白質含量與黑質酪胺酸羥化酶(Tyrosine Hydroxylase, TH)蛋白質含量,同時神經化學傳遞物質的含量或代謝亦有改變。由現有之結果推測CK2/DARPP-32/GAD67細胞訊息傳遞機制可能參與巴金森氏症運動行為失常之細胞層面的調控。 / Protein kinase CK2 is a heterotetrameric and serine/threonine protein kinase. Its protein levels and activity are found to be elevated in the striatum when compared to other brain areas. CK2 is known to involve in the neuroprotective effects of dopaminergic neurons, whether it also regulates the neuronal function relative to motor behaviors is still unclear. DARPP-32 protein is known as one of the substrates for CK2 and is highly expressed in the GABAergic medium spiny neurons (MSN) responsible for dopamine stimulation in the striatum. Furthermore, other studies have indicated that the expression of glutamic acid decarboxylase 67 (GAD67) mRNA and protein was different in the striatum of MPTP vs. naïve animals, which is one of the enzymes responsible for the synthesis of neurotransmitter GABA. In the present study, we observed that the parallel changes in protein levels of CK2, DARPP-32 and GAD67 in the striatum and TH in the substantia nigra of MPP+-treated. We also found that manipulation of CK2 or DARPP-32 gene expression aggravated the MPP+-induced neuropathological dificts. The present results suggest that CK2/DARPP-32/GAD67 signaling pathway might involve in the cellular mechanism of motor-deficit in Parkinson’s disease.
138

Úloha adrenergního systému v genetické hypertenzi / The role of adrenergic system in genetic hypertension

Loučková, Anna January 2013 (has links)
The adrenergic system plays an important role in the regulation of blood pressure. In the spontaneously hypertensive rat, the most studied model of essential hypertension, many components of the adrenergic system are altered. Changes in expression level of any catecholamine biosynthetic enzymes or any adrenergic receptor subtypes could be one of the causes of hypertension development. In this work, the expression of adrenergic system genes was measured in adrenal gland, renal cortex and renal medulla of the spontaneously hypertensive (SHR), Wistar-Kyoto and Brown Norway rats at the age of thirteen weeks. In adrenal gland of SHR, all four catecholamine biosynthetic enzymes (tyrosine hydroxylase, DOPA decarboxylase, dopamine β-hydroxylase and phenylethanolamine-N- methyltransferase) and almost all subtypes of adrenergic receptors (with the exception of Adra1a and Adra1d) were underexpressed. This generally decreased expression in adrenal gland of SHR suggests that at least a part of regulation of adrenergic system gene expression is common. The mechanism of this downregulation in SHR could be a negative feedback through adrenergic receptors stimulated by high plasma noradrenaline concentration. In the kidney of SHR, there were no differences in the expression of most of adrenergic receptor subtypes with the...
139

The Hypoxic Regulation and Function of Hypoxiainducible Factor 2α (HIF-2α) In an Adrenomedullary Chromaffin Cell Line

Brown, Stephen T. 04 1900 (has links)
<p> Exposure to chronic low oxygen (hypoxia) leads to a series of adaptive responses involving changes in gene expression that are critical for cell, tissue, and organismal survival. These changes are mediated by an important set of regulators belonging to the hypoxia inducible factor (HIF) family of transcription factors (e.g. HIF-lα, HIF-2α, HIF3α) which undergo rapid degradation during normal oxygen (normoxia) but are rapidly stabilized during hypoxia. While the role of HIF-1α has been extensively studied in many cell types, there have been relatively few studies on the role of HIF-2α, though recent evidence suggests its function maybe tissue specific. This thesis examined the hypothesis that HIF-2α plays a central role in the development and function of catecholaminergic cells of the sympathoadrenal (SA) lineage. The study was aided by use of an immortalized line of rat adrenomedullary chromaffin cells (i.e. MAH cells), derived from fetal SA progenitors, which express several hypoxia-sensitive properties characteristic of native cells in the adrenal gland. In Chapter 2, I investigated the potential contributions of mitochondrial reactive oxygen species (ROS) and 0 2 consumption to HIF-2α induction in MAH cells exposed to chronic hypoxia (2% O(2); 24 hr). In MAH cells, chronic hypoxia caused an increase in HIF-2α induction which was blocked by inhibition of any of the mitochondrial complexes using pharmacological agents, or by specific inhibition of complexes III and IV using RNAi techniques. It was found that in this 0 2-sensitive chromaffin cell line mitochondrial O(2) consumption, rather than changes in ROS, regulated HIF-2α induction during hypoxia. In Chapter 3, I investigated the hypothesized role of HIF-2α in the development of the catecholaminergic phenotype in cells of the SA lineage using the MAH cell line as a model. Mutant MAH cells, with depleted HIF-2α due to siRNA knock-down, showed dramatically lower levels of dopamine and noradrenaline compared to untransfected and scrambled control cells, regardless of whether the cells were cultured under normoxia or chronic hypoxia. This was correlated with a marked reduction in the expression of DOPA decarboxylase (DDC) and dopamine B hydroxylase (DBH), though the expression of tyrosine hydroxylase (TH) was unaffected. Moreover, HIF-2α was able to bind to a region of the DDC gene promoter which contains two putative hypoxia response elements (HREs). These data suggest that a basal level of HIF-2α function is required for the normal developmental expression of DDC and DBH in SA progenitor cells, and that loss of this function leads to impaired catecholamine (CA) biosynthesis. In Chapter 4, I investigated genes regulated by chronic hypoxia in MAH cells, with a focus on those involved in CA metabolism, storage, and secretion. Using microarray analysis combined with QPCR and RNAi knock-down methodology I uncovered several genes, involved in amine vesicular packaging, trafficking and secretion, which were upregulated during chronic hypoxia. One gene specifically, the adenosine A(2A) receptor (A(2A)R) gene, which appears to modulate CA secretion via autocrine or paracrine actions of extracellular adenosine, was dramatically upregulated in chronic hypoxia. Interestingly, this effect was completely abolished in HIF-2α knockdown MAH cells, suggesting a critical involvement of HIF-2α. Chromatin immunoprecipitation (ChIP) assays revealed that HIF-2α bound to the promoter region of the A(2A)R gene which contains a putative hypoxia response element (HRE) immediately upstream of exon 1. Ratiometric fluorescence measurements of intracellular Ca(2+) revealed that adenosine (50 μM) potentiated the high K(+)-evoked rise in [Ca(2+)]i in MAH cells. This effect of adenosine was further enhanced after chronic hypoxia, but was abolished in HIF-2α knock-down cells. In conclusion, these data suggest that HIF-2α is a key regulator of several genes involved in CA biosynthesis, and of others that mediate the facilitatory effects of chronic hypoxia on CA secretion in sympathoadrenal derivatives. / Thesis / Doctor of Philosophy (PhD)
140

Änderung der Glycindecarboxylase- und Serinhydroxymethyltransferase-Aktivität in Blättern: / Wirkungen auf die Photosynthese und den Stickstoff- und Kohlenstoff-Metabolismus / Manipulation of glycine decarboxylase and serine hydroxymethyl transferase activity in leaves / Effects on photosynthesis and N- and C-metabolism

Antonicelli, Gerardo Esteban 26 January 2005 (has links)
No description available.

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