Global ETD Search

101	Cellular design of heparan sulfate : The NDST enzymes and their regulation Carlsson, Pernilla January 2008 (has links) <p>Heparan sulfate proteoglycans are proteins with long, unbranched heparan sulfate (HS) polysaccharide chains attached to them. They are found on cell surfaces and in basement membranes where they exert their action by interacting with a wide range of enzymes and signaling molecules and are thereby involved in a range of various processes both during embryonic development and in adult physiology.</p><p>A great part of the biological functionality of proteoglycans can be directly related to the polysaccharide part. HS chains display very variable sulfation patterns where highly sulfated regions are responsible for a large part of the biological activity. The biosynthesis of HS is a complex process in which a number of enzymes are involved. Better comprehension of how this process is regulated could reveal clues to how formation of HS sulfation patterns occurs, and thereby how HS functionality is controlled.</p><p>This thesis is focusing on regulation of one of the enzymes responsible for HS sulfation, glucosaminyl N-deacetylase/N-sulfotransferase (NDST), in an attempt to understand these mechanisms better. Different aspects of NDST regulation were studied in three projects:</p><p>I) “Heparin/heparan sulfate biosynthesis: Processive formation of N-sulfated domains”, where the sulfate donor PAPS is shown to influence the manner in which NDST modifies the substrate, affecting the domain structure of the polysaccharide.</p><p>II) “Heparan sulfate biosynthesis: Characterization of an NDST1 splice variant”, where a splice variant of NDST1 which appears to influence NDST1 protein levels and affect HS structure is described.</p><p>III) “Heparan sulfate biosynthesis in zebrafish: Five NDST genes with distinct expression patterns during embryonic development”, in which five zebrafish NDSTs were cloned and shown to be expressed in a temporally and spatially regulated manner.</p> heparan sulfate heparin proteoglycan NDST PAPS Golgi Cell and molecular biology Cell- och molekylärbiologi
102	Les membranes cellulaires : identité et transport Dmitrieff, Serge 29 September 2011 (has links) (PDF) Dans ce travail théorique, nous avons étudié les relations entre l'identité d'une membrane (sa composition chimique et ses propriétés physique), le transport lié à cette membrane, et la structure adoptée par cette membrane. Nous avons d'abord étudié l'entrée de pathogènes dans la cellule. Nous avons montré que ce sont les propriétés physiques et la composition de la membrane qui contrôlent l'entrée des pathogènes dans la cellule en contrôlant leur adhésion sur la membrane et leur aggrégation. Nous nous sommes ensuite tournés vers le transport dans l'appareil de Golgi, où nous montrons qu'une formulation adéquate des processus de transport permet de donner une interprétation précise d'expériences passées. Nous avons montré que des différences d'identité dans les membranes peuvent causer un transport des molécules dans l'appareil de Golgi. Nous nous intéressons ensuite à la maintenance de cette identité dans des organelles qui s'échangent en permanence des molécules. Nous montrons que cet échange doit avoir des propriétés particulières pour permettre la conservation de l'identité. Ces propriétés du transport ont un grand rôle sur la physiologie de l'organelle, et nous montrons qu'ils peuvent augmenter le rendement de l'appareil de Golgi. Enfin, nous montrons que le changement progressif d'identité dans un organelle peut contrôler la structure même de cet organelle. Biophysique Membrane Cellule Transport Thermodynamique Golgi
103	Anaplasma phagocytophilum nutritional virulence mechanisms target the host cell secretory pathway Truchan, Hilary Kay 01 January 2014 (has links) Obligate intracellular pathogens must acquire host cell-derived nutrients to facilitate their survival. One such bacterial pathogen, Anaplasma phagocytophilum, replicates within neutrophils and non-phagocytic cells in a bacterial-modified, host cell-derived vacuole. The bacterium exploits host cell vesicular trafficking pathways to route nutrients to its vacuole and utilizes Rab GTPases, guanine nucleotide-dependent, vesicular trafficking regulators, to do so. We previously discovered that the A. phagocytophilum vacuolar membrane is decorated with a specific subset of Rab GTPases - Rab1, Rab4A, Rab10, Rab11, Rab14, Rab22A and Rab35. Rab1 is exclusively found on the endoplasmic reticulum (ER) and thus its localization suggests that the bacterium intercepts the ER. Rab10, which is found on the ER, trans-Golgi and recycling endosomes, localizes to the vacuolar membrane in a guanine nucleotide-independent and bacterial protein synthesis-dependent manner. This suggests that a bacterial-encoded protein is binding to and recruiting Rab10. In this study, we determined that A. phagocytophilum hijacks two very nutrient-rich sources in the secretory pathway - trans-Golgi- and endoplasmic reticulum-derived vesicles. A. phagocytophilum localizes perinuclearly adjacent to the Golgi apparatus during infection. A. phagocytophilum and Anaplasma marginale, an intravacuolar bovine pathogen, also localize near the smooth ER and rough ER in both mammalian and tick host cells. These results are supported by transmission electron microscopy analyses of infected cells. Membrane markers for the rough ER label the peripheries of A. marginale and A. phagocytophilum organisms in both mammalian and tick host cells, which suggests that they are translocated into the pathogen vacuole. Furthermore, membrane markers for trans-Golgi-derived vesicles, including endogenous Rab10, label the periphery of intravacuolar A. phagocytophilum organisms. Markers for the trans-Golgi and the ER co-fractionate with A. phagocytophilum in density gradient centrifugation studies. siRNA knockdown of Rab10 pronouncedly reduces delivery of trans-Golgi markers into the pathogen-occupied vacuole, significantly reduces infection, and impedes bacterial conversion to the bacterium’s dense-cored form. These results suggest that trans-Golgi recruitment is Rab10 dependent and is critical for bacterial development. We identified an outer membrane A. phagocytophilum moonlighting protein, uridine monophosphate kinase that specifically binds GST-Rab10 in affinity chromatography assays and interacts with Rab10 in vivo. We hypothesize that this surface protein is mediating the interaction of the bacteria with intravacuolar trans-Golgi derived vesicles. This interaction could be critical for the delivery of essential nutrients. Taken together, these data suggest that nutritional virulence mechanisms of A. phagocytophilum and A. marginale target the host secretory pathway. Additionally, they suggest a novel mechanism whereby pathogens translocate nutrient rich vesicles into the pathogen vacuole, thus delivering essential nutrients right to their front door. Anaplasma phagocytophilum secretory pathway Rab GTPases nutritional virulence Golgi endoplasmic reticulum Bacteriology
104	Intrinsic Features of the Multisensory Cortical Area LRSS in the Ferret Cojanu, Alexandru Ioan 29 November 2010 (has links) Environmental events simultaneously transduced by more than one sensory modality underlie multisensory processing in the CNS. While most studies of multisensory processing examine functional effects, none have evaluated the influence of local or columnar circuitry. The goal of the present study is to examine of local features of the ferret lateral rostral suprasylvian sulcus (LRSS), a multisensory cortex. Immunostaining revealed the cytoarchitectonic features of the LRSS: thick supragranular layers, a narrow layer IV, and moderately stained but differentiated infragranular layers. Golgi-Cox techniques were used with light microscopy and digital reconstruction to document neuronal morphology. Among the 90 reconstructed neurons, 4 distinct forms or pyramidal and 2 types of non-pyramidal neurons were found. Measurement of maximal dendritic spread indicates that a cortical column in the LRSS was 250.9 um in diameter. These results describe local features of the LRSS upon which future experiments of intrinsic circuitry will be based. multisensory LRSS neuronal morphology cytoarchitecture cortical column Golgi-Cox Anatomy Medicine and Health Sciences Nervous System
105	Étude du rôle pathogénique de la formiminotransférase-cyclodésaminase dans l'hépatite auto-immune de type 2 Rénoüs, Réginald January 2003 (has links) Mémoire numérisé par la Direction des bibliothèques de l'Université de Montréal. Autoantigène Appareil de Golgi Microtubules Cytokératine 8 Cytokératine 18
106	Caractérisation de l'interaction des protéines associées aux microtubules, MAP2 et Tau avec les organelles membranaires et le rôle de ces protéines dans le maintien de la structure de ces organelles Liazoghli, Dalinda January 2006 (has links) Thèse numérisée par la Direction des bibliothèques de l'Université de Montréal. Neurone Polarité neuronale Microtubules MAP2 Tau Réticulum endoplasmique rugueux Appareil de Golgi Fragmentation Démences frontotemporales
107	Neuronal Reorganization in Adult Rats Neonatally Exposed to (±)-3,4-Methylenedioxymethamphetamine Williams, Michael T., Skelton, Matthew R., Longacre, Ian D., Huggins, Kimberly N., Maple, Amanda M., Vorhees, Charles V., Brown, Russell W. 01 January 2014 (has links) The abuse of methylenedioxymethamphetamine (MDMA) during pregnancy is of concern. MDMA treatment of rats during a period of brain growth analogous to late human gestation leads to neurochemical and behavioral changes. MDMA from postnatal day (P)11–20 in rats produces reductions in serotonin and deficits in spatial and route-based navigation. In this experiment we examined the impact of MDMA from P11 to P20 (20 mg/kg twice daily, 8 h apart) on neuronal architecture. Golgi impregnated sections showed significant changes. In the nucleus accumbens, the dendrites were shorter with fewer spines, whereas in the dentate gyrus the dendritic length was decreased but with more spines, and for the entorhinal cortex, reductions in basilar and apical dendritic lengths in MDMA animals compared with saline animals were seen. The data show that neuronal cytoarchitectural changes are long-lasting following developmental MDMA exposure and are in regions consistent with the learning and memory deficits observed in such animals. dentate gyrus development entorhinal cortex golgi–Cox staining Biomedical Sciences Neurosciences
108	A new paradigm in GPCR signaling at the trans-Golgi network of thyroid cells / Ein neues Model der GPCR Signaltransduktion am trans-Golgi-Netzwerk von Schilddrüsenzellen Godbole, Amod Anand January 2018 (has links) (PDF) Whereas G-protein coupled receptors (GPCRs) have been long believed to signal through cyclic AMP exclusively at cell surface, our group has previously shown that GPCRs not only signal at the cell surface but can also continue doing so once internalized together with their ligands, leading to persistent cAMP production. This phenomenon, which we originally described for the thyroid stimulating hormone receptor (TSHR) in thyroid cells, has been observed also for other GPCRs. However, the intracellular compartment(s) responsible for such persistent signaling and its consequences on downstream effectors were insufficiently characterized. The aim of this study was to follow by live-cell imaging the trafficking of internalized TSHRs and other involved signaling proteins as well as to understand the consequences of signaling by internalized TSHRs on the downstream activation of protein kinase A (PKA). cAMP and PKA activity was measured in real-time in living thyroid cells using FRET-based sensors Epac1-camp and AKAR2 respectively. The results suggest that TSH co-internalizes with its receptor and that the internalized TSH/TSHR complexes traffic retrogradely to the trans-Golgi network (TGN). This study also provides evidence that these internalized TSH/TSHR complexes meet an intracellular pool of Gs proteins in sorting endosomes and in TGN and activate it there, as visualized in real-time using a conformational biosensor nanobody, Nb37. Acute Brefeldin A-induced Golgi collapse hinders the retrograde trafficking of TSH/TSHR complexes, leading to reduced cAMP production and PKA signaling. BFA pretreatment was also able to attenuate CREB phosphorylation suggesting that an intact Golgi/TGN organisation is essential for an efficient cAMP/PKA signaling by internalized TSH/TSHR complexes. Taken together this data provides evidence that internalized TSH/TSHR complexes meet and activate Gs proteins in sorting endosomes and at the TGN, leading to a local activation of PKA and consequently increased CREB activation. These findings suggest unexpected functions for receptor internalization, with major pathophysiological and pharmacological implications. / G-Protein-gekoppelte Rezeptoren sind nur in Eukaryonten vorhandeln und bilden die größte und diverseste Familie von Zellmembranrezeptoren. Sie reagieren auf eine vielfältige Gruppe von Stimuli die verschiedene Effektoren aktivieren und damit nachgelagerte Signalkaskaden auslösen, die letztlich entscheidend für die Zellphysiologie sind. Die Regelung der Ligand-vermittelten Signaltransduktion wird hauptsächlich durch die Desensibilisierung des GPCR mittels Dephosphorylierung (katalysiert durch GRK) und zusätzlich durch Internalisierung des GPCR gesteuert. Die Annahme, dass GPCRs für cAMP nur an der Zellmembran signalisieren und nicht mehr sobald sie in die Zelle internalisiert wurden, konnte durch wegweisende unabhängige Forschung an GPCRs im Besonderen an TSHR und PTHR geändert werden. So konnte gezeigt werden, dass sie für cAMP nicht nur an der Zellmembran signalisieren, sondern auch, wenn sie in intrazelluläre Zellkompartimente internalisiert wurde. Dieses Phänomen („sustained signaling“ hier „anhaltende Signalisierung“) wurde seitdem für andere GPCRs (z.B. 2-AR, V2R und LHR) beschrieben. Aber die Zellkompartimente wurden für nachhaltige intrazelluläre Signale nicht ausreichend charakterisiert. Das Ziel dieser Arbeit war es die Bewegung und die dynamische Natur der möglichen signalisierenden Kompartimente mittels „real-time TIRF“-Mikroskopie und die Signalisierung unter Verwendung von „real-time FRET“ in primären Maus Schilddrüsenzellen zu untersuchen. Die vorliegende Arbeit berichtet, dass TSH/TSHR Komplexe internalisieren und ein signifikanter Teil, welcher vom Retromer Komplex angeführt wird, gelangt über den retrograden (rückwärts gerichteten) Transport in das trans-Golgi-Netzwerk (TGN). Diese TSH/TSHR-Komplexe treffen nicht in den frühen Endosomen auf die Gs-Proteine, sondern in den „Sortierer Endosomen“ und in dem TGN. Ein direkter Beweis für Gs Protein Aktivierung und Signaltransduktion am TGN und in Sortierer Endosomen konnte mittels des nanobody Nb37, einem spezifischen Biosensor für das aktive Gs Protein, erbracht werden. Es konnte gezeigt werden, dass die Sequestrierung von Nb37 an diesen Kompartimenten ein szintillierendes Verhalten in Zeit und Raum zeigt. Die vorliegende Arbeit zeigt, dass die katalytische Untereinheit der PKA am Golgi/TGN angereichert ist. Die Behandlung mit Brefeldin A führt zum Verlust dieser PKA Lokalisation am Golgi. Die Beschädigung und Reorganisation des TGN durch Brefeldin A führt zu a) einer abgeschwächten cAMP Reaktion b) einer dreiphasigen PKA Reaktion charakterisiert durch eine schnelle erste Phase, eine langsame (deutlich abgeschwächte) zweite Phase und eine verzögerte dritte Phase und schließlich c) einer abgeschwächte CREB Phosphorylierung. Es gibt Anzeichen dafür, dass die Reorganisation des TGN Kompartimente betrifft, die verantwortlich für intrazelluläre cAMP- und PKA-Signalisierung sind. Zusammenfassend lässt sich sagen, dass das TGN eines der Kompartimente ist, das für die anhaltende TSHR-Signalisierung verantwortlich ist. G-Protein gekoppelte Rezeptoren Signaltransduktion Golgi-Apparat Schilddrüse ddc:570 ddc:610
109	The Synthesis and Evaluation of Functionalised Carbohydrates as Probes of Tumour Metastasis Abu-Izneid, Tareq, n/a January 2005 (has links) Sialyltransferases, CMP-sialic acid synthetases and CMP-sialic acid transport proteins play a crucial role in the construction of cell surface glycoconjugates. These proteins also have a pivotal role to play in a number of diseases, including cancer. The sialyltransferase enzymes are responsible for transfering sialic acids from the donor substrate (CMP-sialic acid) to growing cell surface glycoconjugate chains within the Golgi apparatus. The CMP-sialic acid synthetase enzymes are responsible for the synthesis of the CMP-sialic acid, the donor substrate of the sialyltransferases in the nucleus, while the CMP-sialic acid transport proteins are responsible for transporting CMP-sialic acid from the Cytosol to the Golgi apparatus. When these proteins function in an abnormal way, hypersialylation results, leading to an increased level of sialylation on the cell surface. This increased level of sialylation aids in the detachment of primary tumour cells due to an increase in the level of overall negative charge, causing repulsion between the cancer cells. Therefore, the sialyltransferase enzymes, CMP-sialic acid synthetases and CMP-sialic acid transport proteins are intimately involved in the metastatic cascade associated with cancer. Chapter 1 provides a general introduction of cancer metastasis, discussing the roles of three target proteins (CMP-sialic acid synthetases, CMP-sialic acid transport proteins and sialyltransferases), as well as discussing their substrate specificities, with an emphasis on their involvements in cancer metastasis. The Chapter concludes with an overview of the types of compounds intended to be utilised as probes or inhibitors of these proteins. Chapter 2 describes the general approach towards the synthesis of CMP-Neu5Ac mimetics with a sulfur linkage in the presence of a phosphate group in the general structure 38. The precursor phosphoramidite derivative 45 was prepared and isolated in a good yield using Py.TFA. Unfortunately, the target compound 38 could not be prepared. Chapter 3 describes an alternative strategy wherein S-linked sialylnucleoside mimetics, of the general structure 39, with a sulfur linkage, but no phosphate group, between the sialylmimetic and the ribose moiety in the base is targeted. A series of these S-linked sialylnucleoside mimetics were successfully prepared. Cytidine, uridine, adenosine and 5-fluorouridine nucleosides were used to create a library of different nucleosides and with structural variability also present in the sialylmimetic portion. This small 'library' of 15 compounds was designed to shed light on the interaction of these compounds with the binding sites of the sialyltranferase, CMP-sialic acid synthetase and/or CM-sialic acid transport protein. Approaches towards the synthesis of O-linked sialylnucleoside mimetics of the general structure 40 are described in Chapter 4. Several methodologies are reported, as well as protecting group manipulations, for successful preparation of these sialylnucleoside mimetics. Cytidine and uridine were employed as the nucleosides, thus allowing a direct comparison between the O- and S-linked sialylnucleoside mimetics in biological evaluation. It appears from these synthetic investigations that gaining access into the O-linked series is not as straightforward as for the S-linked series, with alternative protecting group strategies required for the different nucleosides. The biological evaluation of some of the compounds reported in Chapters 3 and 4 is detailed in Chapter 5. The sialylnucleoside mimetics were evaluated, by 1H NMR spectroscopy, for their ability to inhibit CMP-KDN synthetase. In addition, an initial 1H NMR spectroscopic-based assay was investigated for inhibition studies of α(2,6)sialyltranferase in the absence of potential inhibitors. The final chapter (Chapter 6) brings together full experimental details in support of the compounds described in the preceding Chapters. Tumour metastasis sialyltransferases CMP-sialic acid synthetases CMP-sialic acid transport proteins Golgi apparatus
110	Caractérisation d'une nouvelle protéine associée aux microtubules, SL21. Windscheid, Vanessa 24 September 2008 (has links) (PDF) Dans les neurones, la stabilité des microtubules est induite par leur association avec deux protéines associées aux micotubules, les protéines E- et N-STOP (Early and adult neuronal Stable Tubule Only Polypeptide). L'invalidation du gène stop chez la souris entraîne des défauts de la transmission synaptique associée à une réduction du nombre de vésicules synaptiques. <br />Les neurones matures contiennent également une protéine apparentée à la protéine N-STOP, la protéine SL21 (STOP like protein of 21 kDa) qui possède deux zones homologues aux protéines STOPs : un domaine homologue au domaine de liaison et de stabilisation des microtubules et une région de 35 acides aminés située à l'extrémité amino-terminale. Cette protéine se localise à la fois au niveau de l'appareil de Golgi et des microtubules.<br />La première partie de ce travail est consacrée à la caractérisation fonctionnelle du domaine amino-terminal. Il contient 3 résidus cystéines en position 5, 10 et 11 qui peuvent être palmitoylée (modification permettant l'association des protéines aux membranes). Nous avons montré que les cystéines 5 et 11 de SL21 sont palmitoylables mais que seule la cystéine 5 est suffisante et nécessaire pour localiser SL21 au niveau de l'appareil de Golgi. Nous avons également mis en évidence que la protéine STOP, en plus d'être localisée aux microtubules, s'associe également au Golgi par l'intermédiaire de son domaine amino-terminal homologue à SL21 et qu'elle est aussi palmitoylable.<br />Dans la deuxième partie de ce travail, pour mieux comprendre la fonction de SL21, nous nous sommes intéressées aux partenaires de SL21. Un criblage ciblé en Double-Hybride, utilisant comme protéines cibles des protéines connues comme étant des partenaires de STOP, a été réalisé au laboratoire. Trois partenaires potentiels ont été mis en évidence : la protéine Tctex1, une des chaînes légère du moteur moléculaire dynéine. Nous avons confirmé l'interaction de ces protéines avec SL21 par co-immunoprécipitation après surexpression dans les cellules et aussi, à partir d'un extrait de cerveau pour l'interaction de SL21 et de STOP. Nous avons également déterminé leur site d'interaction au niveau de SL21. La protéine Tctex1 interagit avec SL21 au niveau de son module de liaison aux microtubules, le site de multimérisation de SL21 se localise au niveau du domaine amino-terminal, pouvant impliquer la palmitoylation de ces protéines. <br />L'ensemble de ces résultats permet d'envisager un rôle des protéines STOPs au niveau de la régulation de la relation microtubule-membrane des vésicules synaptique au sein de la synapse [SDV:BC] Life Sciences/Cellular Biology SL21 microtubules STOP Golgi palmitoylation vésicules multimerisation neurone

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