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Functional studies of AMP-activated protein kinase in cortical astrocytes /Favero, Carlita Black. January 2007 (has links)
Thesis (Ph. D.)--University of Virginia, 2007. / Includes bibliographical references. Also available online through Digital Dissertations.
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Insulin signalling in human adipocytes : mechanisms of insulin resistance in type 2 diabetes /Danielsson, Anna, January 2007 (has links)
Diss. (sammanfattning) Linköping : Linköpings universitet, 2007. / Härtill 4 uppsatser.
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The role of TPPII in apoptosis control and treatment of malignant disease /Xu, Hong, January 2006 (has links)
Diss. (sammanfattning) Stockholm : Karolinska institutet, 2006. / Härtill 4 uppsatser.
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Purificação e caracterização de um inibidor de elastase de neutrófilos do feijão-caupi (Vigna unguiculata L Walp)Ferreira, Graziele Cristina January 2017 (has links)
Orientador: Prof. Dr. Sergio Daishi Sasaki / Dissertação (mestrado) - Universidade Federal do ABC, Programa de Pós-Graduação em Biossistemas, 2017. / O Feijão Caupi (Vigna unguiculata (L.) Walp) é uma leguminosa com importante representatividade econômica e nutricional, especialmente no Brasil. Inibidores de serino proteases, como a tripsina, já foram descritos na espécie, assim como em outras plantas. No entanto, nesta espécie, ainda não foram identificados inibidores que apresentem atividade sobre a elastase de neutrófilos humana (HNE), protease envolvida em muitos processos patológicos, como na instalação e progressão da doença pulmonar obstrutiva crônica (DPOC). Nesse estudo, purificamos um inibidor a partir do extrato protéico de Vigna unguiculata que apresenta atividade sobre HNE. Inicialmente, foi realizado o processo de extração alcalina de proteínas, seguido de três passos cromatográficos distintos, utilizando as colunas Hitrap-Q (Troca-iônica), Source15RPC (Fase-Reversa) e ACE18 (Fase-Reversa). Essas etapas foram acompanhadas por testes de atividade inibitória, utilizando os substratos fluorogênicos Meo-Suc-Ala-Ala-Pro-Val-MCA (Elastase) e Z-Phe-Arg-MCA (Tripsina), além de ensaios da quantificação de concentração total de proteínas. Para determinar a massa do inibidor, foram utilizadas as técnicas de espectrometria de massa por MALDI-TOF e SDS-PAGE, o inibidor apresenta massa molecular de 10,99 KDa. O Ki para HNE foi determinado no valor de 9 pM. O inibidor não apresentou atividade inibitória sobre tripsina e trombina, porém foi observada atividade sobre subtilisina e quimotripsina. Estes dados indicam que o inibidor purificado trata-se de uma molécula ainda não caracterizada, devido às suas atividades inibitórias o nomeamos de Vigna unguiculata Elastase Inhibitor (VuEI). / The cowpea (Vigna unguiculata (L.) Walp) is a legume of important economic and nutritional representativeness, especially in Brazil. Serine protease inhibitors, such as trypsin, have been described in many species, as well as in other plants. In this specie an inhibitor with activity on human neutrophil elastase (HNE) has not yet been identified. This protease is involved in many pathological processes, such as the onset and progression of chronic obstructive pulmonary disease (COPD). We purified and characterized an inhibitor from the protein extract of Vigna unguiculata presenting activity towards HNE. Firstly, we performed the alkaline extraction procedure for proteins followed by three different chromatographic steps using Hitrap Q (ion exchange), Source15RPC (Reversed-Phase) and ACE18 (Reversed Phase) columns. These steps were followed by the inhibitory activity tests using fluorogenic substrates, MeO-Suc-Ala-Ala-Pro-Val-MCA (elastase) and Z-Phe-Arg-MCA (trypsin), and quantitation assays of protein concentration. To determinate the size of the molecule, we used MALDI-TOF mass spectrometry and SDS-PAGE. The molecular mass of the inhibitor was 10,99 kDa. The dissociation constant (Ki) toward HNE was 9 pM. HNE inhibitor showed no inhibitory activities toward trypsin and thrombin. However, the inhibitor presented activity toward subtilisin and chymotrypsin. These datas indicate that this molecule is a novel inhibitor to HNE and we named it Vigna unguiculata Elastase Inhibitor (VuEI).
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Impact des facteurs micro-environnementaux de l'hôte sur la colonisation instestinale des Escherichia Coli adhérents et invasifs. / Impact of microenvironmental host factors on the gut colonization of adherent-invasive Escherichia coliGibold-Lyonne, Lucie 28 September 2016 (has links)
La maladie de Crohn (MC) est une affection inflammatoire chronique du tube digestif dont l’étiologie est multifactorielle. Les lésions intestinales des patients atteints de MC sont anormalement colonisées par des souches pathogènes d’Escherichia coli appartenant au pathovar AIEC pour «Adherent-Invasive Escherichia coli ». Ces souches sont capables d’adhérer et d’envahir les cellules épithéliales intestinales, et ont la capacité de survivre et de se multiplier en macrophages en induisant une synthèse intense de cytokines pro-inflammatoires. Les AIEC pourraient ainsi être impliquées dans l’induction et/ou l’entretien de l’état inflammatoire de la muqueuse intestinale.L’objectif de ce travail est d’identifier les déterminants bactériens des AIEC qui vont intervenir dans les étapes précoces de l’implantation des AIEC au niveau intestinal et de définir quel est le rôle des facteurs micro-environnementaux de l’hôte dans cette implantation.Nous montrons que l’AIEC LF82 possède une activité mucinolytique qui est portée par le gène vat-AIEC et qui favorise la traversée du mucus et la colonisation intestinale. Nous avons retrouvé ce gène chez 42% des souches AIEC isolées de patients atteints de MC, et chez 97% des souches AIEC appartenant au phylogroupe B2. Par ailleurs, nous avons montré que les sels biliaires augmentent l’expression de cette mucinase.Nous avons ensuite étudié l’influence des sels biliaires sur l’expression globale des gènes de la souche LF82. Les sels biliaires modifient profondément le métabolisme de la souche, induisant une diminution globale des voies de biosynthèse (protéines, lipides) et une augmentation des voies de dégradation (alcools, acides carboxyliques, polyamines, …). L’étude du catabolisme de l’éthanolamine et du propanediol indique que les AIEC pourraient se servir de ces substrats pour s’implanter au sein de la flore iléale. De plus, les analyses transcriptomiques révèlent que les sels biliaires augmentent l’expression de gènes codant des facteurs de virulence comme l’invasine IbeA, les systèmes de sécrétion de type VI et la yersiniabactine. Nous montrons également qu’ils favorisent la formation de biofilm chez les souches AIEC.Ces données indiquent que les sels biliaires constituent un signal permettant à la souche AIEC LF82 de mettre en place différentes voies métaboliques et déterminants bactériens nécessaires à son implantation au niveau intestinal.Mots-clé : Escherichia coli, maladie de Crohn, mucines, serine protéase, mucinase, AIEC, / The etiology of Crohn's disease (CD) involves disorders in host genetic factors and intestinal microbiota. Ileal mucosa of CD patients is often abnormally colonized by adherent-invasive Escherichia coli (AIEC). These strains isolated from the intestinal mucosa of CD patients are able to adhere to intestinal epithelial cells (IECs). This adhesion to IECs promotes the invasion of cells by the bacteria. Furthermore, the invasive ability of AIEC strains allows bacteria to translocate across the human intestinal epithelium, move into the deep tissues and activate immune cells continuously upon arrival. Thus AIEC could be involved in the inflammatory state of the intestinal mucous membrane. The aim of this study was to identify components of AIEC virulence, which might favor their implantation in the gut of CD patients and to define the role of several chemical factors from the ileal environment. Here, we reported a protease called Vat-AIEC from AIEC which favors the penetration of AIEC through the mucus layer and enhances gut colonization. The screening of E. coli strains isolated from CD patients revealed a preferential vat-AIEC association with AIEC strains belonging to the B2 phylogroup. Besides, Vat-AIEC transcription was increased with bile salts from the ileum environment. Then a global RNA sequencing (RNA-seq) of E. coli LF82 has been used to observe the impact of bile salts on the expression of bacterial genes. The results demonstrate the explosive effect of bile salts with a dysregulation of about 40% of the genome, with a global upregulation of genes involved in degradation and downregulation of those implicated in several biosynthesis. Our results show that LF82 use ethanolamine as a nitrogen source and propane diol as a carbon source, which can favor their colonization in the gut compared to the other bacteria. We also studied virulence genes expression in the presence of bile salts. They increase the expression of several virulence factors like the IbeA invasion, the type 6 secretion systems and the yersiniabactin. Furthermore, we noticed an increased expression of genes implicated in biofilm formation. These results improve the understanding of the global regulatory network in the presence of bile salts and thus of AIEC implantation in the human gut of CD patients.
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More than a Metabolite: An Evaluation of the Potential Role of L-serine-O-phosphate as the Endogenous Agonist for the Group III Metabotropic Glutamate ReceptorsAntflick, Jordan 20 August 2012 (has links)
The Group III metabotropic glutamate receptors (mGluR) are located presynaptically on axon terminals and act as autoreceptors and heteroreceptors by inhibiting neurotransmitter release. Much has been learned about these receptors through exogenous application of L-serine-O-phosphate (L-SOP), an endogenous amino acid derivative and known activator of the Group III mGluRs. We hypothesized that L-SOP is the endogenous co-agonist at the high affinity Group III mGluR, mGluR4. We found the EC50 of L-SOP at mGluR4 was 0.5 μM, and determined that the concentration of L-SOP in whole brain was approximately 5 μM. An immunocytochemical survey revealed that cells containing the enzymatic machinery necessary for L-SOP synthesis and metabolism were observed in two brain regions known to express mGluR4, namely, cerebellum and hippocampus. In the cerebellum, the L-SOP synthetic and metabolic enzymes were found in Bergmann glia and Purkinje cells, two cells which form a tripartite synapse with parallel fiber axon terminals where the mGluR4 subtype is exclusively expressed at high levels. In the hippocampus, the L-SOP metabolic enzyme was detected in young neurons emanating from the neurogenic subventricular zone. Attempts to raise endogenous levels of L-SOP by crippling the L-SOP metabolizing enzyme (phosphoserine phosphatase), over-expressing the L-SOP synthesizing enzyme (phosphoserine aminotransferase), or through dietary protein restriction, to study the effects on neurotransmission and neurodevelopment in the central nervous system (CNS) were unsuccessful, suggesting that the production of L-SOP remains stable despite manipulation of the synthetic and metabolic enzymes. Finally, the ability of L-SOP to modulate glutamate release from presynaptic terminals was examined in cerebellar synaptosomes. Co-incident activation of presynaptic mGluR4 and presynaptic GABAA receptors facilitated glutamate release, suggesting that simultaneous activation of parallel fibers and Bergmann glia may serve to enhance synaptic transmission. This observation expands the traditional view of Group III mGluRs acting solely as inhibitory autoreceptors. Taken together, these results provide compelling evidence to support the hypothesis that L-SOP is the endogenous agonist at mGluR4, and possibly other Group III mGluRs.
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More than a Metabolite: An Evaluation of the Potential Role of L-serine-O-phosphate as the Endogenous Agonist for the Group III Metabotropic Glutamate ReceptorsAntflick, Jordan 20 August 2012 (has links)
The Group III metabotropic glutamate receptors (mGluR) are located presynaptically on axon terminals and act as autoreceptors and heteroreceptors by inhibiting neurotransmitter release. Much has been learned about these receptors through exogenous application of L-serine-O-phosphate (L-SOP), an endogenous amino acid derivative and known activator of the Group III mGluRs. We hypothesized that L-SOP is the endogenous co-agonist at the high affinity Group III mGluR, mGluR4. We found the EC50 of L-SOP at mGluR4 was 0.5 μM, and determined that the concentration of L-SOP in whole brain was approximately 5 μM. An immunocytochemical survey revealed that cells containing the enzymatic machinery necessary for L-SOP synthesis and metabolism were observed in two brain regions known to express mGluR4, namely, cerebellum and hippocampus. In the cerebellum, the L-SOP synthetic and metabolic enzymes were found in Bergmann glia and Purkinje cells, two cells which form a tripartite synapse with parallel fiber axon terminals where the mGluR4 subtype is exclusively expressed at high levels. In the hippocampus, the L-SOP metabolic enzyme was detected in young neurons emanating from the neurogenic subventricular zone. Attempts to raise endogenous levels of L-SOP by crippling the L-SOP metabolizing enzyme (phosphoserine phosphatase), over-expressing the L-SOP synthesizing enzyme (phosphoserine aminotransferase), or through dietary protein restriction, to study the effects on neurotransmission and neurodevelopment in the central nervous system (CNS) were unsuccessful, suggesting that the production of L-SOP remains stable despite manipulation of the synthetic and metabolic enzymes. Finally, the ability of L-SOP to modulate glutamate release from presynaptic terminals was examined in cerebellar synaptosomes. Co-incident activation of presynaptic mGluR4 and presynaptic GABAA receptors facilitated glutamate release, suggesting that simultaneous activation of parallel fibers and Bergmann glia may serve to enhance synaptic transmission. This observation expands the traditional view of Group III mGluRs acting solely as inhibitory autoreceptors. Taken together, these results provide compelling evidence to support the hypothesis that L-SOP is the endogenous agonist at mGluR4, and possibly other Group III mGluRs.
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Hypertension hyperkaliémique familiale : découverte de nouveaux gènes et analyses physiopathologiques / Familial hyperkalemic hypertension : highlight of new genes and physiopathological analysisLouis dit Picard, Hélène 29 October 2014 (has links)
L’Hypertension Hyperkaliémique Familiale (HHF) est une forme rare d’hypertension associée à une hyperkaliémie et une acidose métabolique hyperchlorémique, très sensible aux diurétiques thiazidiques. Les premières analyses génétiques ont permis d’identifier deux gènes responsables, WNK1 et WNK4, mais qui n’expliquaient que 8 % de notre cohorte. L’objectif de ma thèse était de rechercher de nouveaux gènes ou variants à l’origine de l’HHF. Notre stratégie initiale a été de combiner une analyse de liaison à un séquençage d’exome entier sur trois grandes familles atteintes. Nous avons ainsi identifié un nouveau gène responsable de la maladie codant pour un acteur jusque là insoupçonné, KLHL3 (Kelch-like 3), responsable de 39% des cas de notre cohorte. La majorité des mutations sont présentes à l’état hétérozygote entrainant un phénotype modéré, alors que les rares patients porteurs d’une mutation homozygote, tous issus de familles consanguines, présentent un phénotype plus marqué. Le spectre des mutations a montré l’importance des structures en boucles de cette protéine qui joue un rôle d’adaptateur de substrat dans un complexe d’ubiquitination (publié dans Nature Genetics, 2012). La découverte d’un type unique de mutations sur le gène CUL-3 par une équipe concurrente a été confirmée dans notre cohorte, entrainant un phénotype plus précoce et plus sévère. Ces mutations ont mis en lumière l’importance de ces deux protéines dans la constitution du complexe E3 ubiquitine-ligase et la dégradation des WNKs dans le néphron, par le protéasome après ubiquitination. Nous avons aussi identifié des mutations faux-sens dans le domaine acide de WNK1 très conservé chez des patients ayant un phénotype HHF mais sans hypertension artérielle. Ce motif, similaire à celui porteur de mutations sur WNK4 est responsable de la liaison à l’adaptateur de substrat KLHL3. Les sujets atteints présentent un âge plus précoce d’apparition de la maladie avec des valeurs de pression artérielle normales. La comparaison phénotypique avec les cas porteurs d’une mutation WNK4 et d’une délétion de l’intron 1 de WNK1 a montré des différences de pression artérielle significatives. La transfection d’ARNc mutés dans les œufs de Xénope, effectuées en collaboration, a permis de démontrer que ces nouvelles mutations faux-sens de WNK1 entrainent une accumulation de son isoforme rénale KS-WNK1 (soumis à J Am Soc Nephrol). L’ensemble de ces résultats ouvre une nouvelle voie de compréhension moléculaire de la régulation du transport des ions sodium, potassium et chlore au niveau du rein et par conséquence de la pression artérielle. / Familial Hyperkalemia Hypertension (FHHt), also known as Gordon syndrome is a rare form of hypertension associated with hyperkalemia and hyperchloremic metabolic acidosis, very sensitive to thiazide diuretics. In 2001, the first genetic analysis identified two genes, coding for two serine/threonine kinases WNK1 and WNK4, which explained only 8% of our cohort. The aim of my thesis was to search new genes or variants responsible for FHHt. We decided to combine a linkage analysis and a whole exome sequencing in three affected families. We identified a new gene responsible for the disease coding for an unsuspected actor KLHL3 (Kelch-like 3), responsible for 39% of our cohort. The majority of the mutations are present at a heterozygous state leading to a moderate phenotype, whereas patients with homozygous mutation, all from consanguineous families, displayed a stronger phenotype. The spectrum of mutations showed the importance of the loop structures of this protein playing an adaptor role in an ubiquitination complex (published in Nature Genetics, 2012). The discovery of a particular type of mutations in CUL-3 by another team was confirmed in our cohort, leading to an earlier and more severe phenotype. These changes have highlighted the importance of these two proteins in the formation of the E3 ubiquitin-ligase-complex and in the WNKs degradation in the nephron by the proteasome after ubiquitination. We have also identified missense mutations in the acidic motif of WNK1, highly conserved in patients with FHHt without hypertension. This pattern is similar to the WNK4 mutations and is responsible for the binding of the substrate adaptor KLHL3. Affected individuals have an earlier age of onset with normal blood pressure values for most of them. Phenotypic comparison with cases carrying WNK4 mutations and deletion of the intron 1 of WNK1 showed significant differences in blood pressure values. Transfection of mutated cRNA in Xenopus laevis oocyte demonstrated that these new WNK1 missense mutations result in the accumulation of the renal isoform KS-WNK1 (submitted to J Am Soc Nephrol). Taken together, these results open a new pathway for understanding the molecular regulation of ion transport and WNK kinases in the kidney and consequently the regulation of blood pressure.
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Molecular imaging of serine protease activity-driven pathologies by magnetic resonance / Imagerie moléculaire par résonance magnétique de l’activité de sérines protéases à serine en pathologiesJugniot, Natacha 18 September 2019 (has links)
Ce travail porte sur le développement de sondes peptidiques pour le suivi de la protéolyse par spectroscopie de résonance paramagnétique électronique (RPE) et pour l'imagerie in vivo par résonance magnétique rehaussée de l’effet Overhauser (OMRI). Plus précisément, ce travail étudie pour la première fois une famille d’agents d’imagerie appelée « nitroxyde à déplacement de raies spectrales » spécifique d’activités enzymatiques. L'activité protéolytique, entraînant un décalage de 5 G dans les constantes de couplages hyperfins, permet une quantification individuelle des espèces substrat et produit par RPE et une excitation sélective par OMRI. Trois substrats ont été élaborés, montrant une spécificité enzymatique pour l’élastase du neutrophile (NE) (MeO-Suc-Ala-Ala-Pro-Val-Nitroxyde & Suc-Ala-Ala-Pro-Val-Nitroxyde), et pour la chymotrypsine et la cathepsine G (Suc-Ala-Ala-Pro-Phe-Nitroxyde). Les constantes enzymatiques ont montré de bonnes valeurs avec globalement, Km = 28 ± 25 µM et kcat = 19 ± 3 s-1. Ex vivo, l’utilisation des substrats NE en OMRI a révélé un contraste élevé dans les lavages broncho-alvéolaires de souris sous stimulus inflammatoire. Les rehaussements de signaux IRM sont en corrélation avec la sévérité de l’inflammation. L'irradiation à la fréquence RPE de 5425,6 MHz a permis d'accéder à la bio-distribution des substrats in vivo et pourrait ainsi servir d’outil diagnostic. Les perspectives à moyen terme de ce travail reposent sur le développement de l’OMRI à très faibles champs magnétiques en vue d’une application chez l’homme. / This work focuses on substrate-based probes for proteolysis monitoring by Electron Paramagnetic Resonance spectroscopy (EPR) and for in vivo imaging by Overhauser-enhanced Magnetic Resonance (OMRI). More precisely, this work investigates for the first time a family of MRI agents named “line-shifting nitroxide” specific for proteolytic activities. Proteolytic action results in a shift of 5 G in EPR hyperfine coupling constants allowing individual quantification of substrate and product species by EPR and selective excitation by OMRI. Three substrates were worked out, showing enzymatic specificity for neutrophil elastase (MeO-Suc-Ala-Ala-Pro-Val-Nitroxide & Suc-Ala-Ala-Pro-Val-Nitroxide), and for Chymotrypsin/Cathepsin G (Suc-Ala-Ala-Pro-Phe-Nitroxide). Enzymatic constants were remarkably good with globally Km = 28 ± 25 µM and kcat = 19 ± 3 s-1. Ex vivo, the use of NE substrates in OMRI revealed a high contrast in bronchoalveolar lavages of mice under inflammatory stimulus. MRI signal enhancements correlate with the severity of inflammation. Irradiation at the RPE frequency of 5425.6 MHz provided access to the bio-distribution of substrates in vivo and could thus serve as a diagnostic tool. The medium-term perspectives of this work are based on the development of OMRI with very low magnetic fields for human application
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The molecular control and biological implications of autolysis in enterococcus faecalis biofilm developmentChittezham Thomas, Vinai January 1900 (has links)
Doctor of Philosophy / Department of Biology / Lynn E. Hancock / The enterococci are gaining much notoriety as common nosocomial pathogens. One aspect of their pathogenesis, especially characteristic to infectious endocarditis and urinary tract infections, involves their ability to transition from the sessile state of existence to surface adherent structured communities called biofilms. Existence as biofilms, affords enterococci protection against a number of growth limiting challenges including antibiotic therapy and host immunity.
In the current study a mechanistic role for two Fsr quorum-regulated extracellular proteases- gelatinase (GelE) and its cotranscribed serine protease (SprE), were explored in biofilm development of E. faecalis V583. Confocal imaging of biofilms suggested that GelE[superscript]– mutants were significantly reduced in biofilm biomass compared to V583, whereas the absence of SprE appeared to accelerate the progression of biofilm development. Culture supernatant and biofilm analysis confirmed that decreased biofilms observed in GelE[superscript]– mutants resulted from their inability to undergo autolysis and release extracellular DNA (eDNA) in planktonic and biofilm cultures, whereas SprE[superscript]– mutants produced significantly more eDNA as components of the biofilm matrix.
The governing principle behind GelE mediated autolysis and eDNA release in E. faecalis V583 was demonstrated to be fratricide. GFP reporter assays of V583 populations confirmed that GBAP (gelatinase biosynthesis-activating pheromone encoded by fsrD) quorum non-responders (GelE[superscript]–SprE[superscript]–) were a minority subpopulation of prey cells susceptible to the targeted fratricidal action of the quorum responsive predatorial majority (GelE[superscript]+SprE[superscript]+). The killing action is dependent on GelE, and the GelE producer population is protected from self-destruction by the co-production of SprE as an immunity protein. Targeted gene inactivation and protein interaction studies demonstrate that extracellular proteases execute their characteristic effects following downstream interactions with the primary autolysin, AtlA. Finally, comparison of virulence effects of isogenic extracellular protease mutants (∆gelE, ∆sprE and ∆gelEsprE) relative to parental strain (V583) in a rabbit model of enterococcal endocarditis confirmed a critical role for GelE in the infection process.
In conclusion, the data presented in this thesis are consistent with significant roles for GelE and SprE in biofilm mediated pathogenesis of enterococcal infections.
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