Global ETD Search

1	Attempts to Elucidate the Role of SNAP23 in Regulated and Pathological Exocytosis in Pancreatic Acinar Cells Using an Inducible SNAP23 Knockout Mouse Fernandez, Nestor Alejandro 31 December 2010 (has links) One contentious issue regarding pancreatic acinar exocytosis concerns which SNAP25 isoform (SNAP23/29/47) mediates the various fusion events in this cell type. Based on dominant-negative over-expression studies, SNAP23 was hypothesized to be the putative isoform mediating apical exocytosis, basolateral exocytosis, and ZG-ZG fusion. Unfortunately, using a SNAP23 KD mouse model, 80% SNAP23 KD was insufficient to manifest any secretion phenotype. A novel syncollin-pHluorin exocytosis imaging technique initially meant to assess which fusion events are perturbed by SNAP23 KD was successfully developed and displayed improvements over previous imaging techniques. The syncollin-pHluorin imaging enabled visualization of apical and basolateral exocytosis as well as sequential ZG-ZG fusions. Combined with spinning disk microscopy, this assay allows 3D live exocytosis imaging with high temporal and spatial resolution. This novel imaging assay will be useful in visualizing apical, basolateral, sequential, and lateral fusion events for future acinar studies. pancreatic acinar cell exocytosis SNAP23 pHluorin 0719
2	Attempts to Elucidate the Role of SNAP23 in Regulated and Pathological Exocytosis in Pancreatic Acinar Cells Using an Inducible SNAP23 Knockout Mouse Fernandez, Nestor Alejandro 31 December 2010 (has links) One contentious issue regarding pancreatic acinar exocytosis concerns which SNAP25 isoform (SNAP23/29/47) mediates the various fusion events in this cell type. Based on dominant-negative over-expression studies, SNAP23 was hypothesized to be the putative isoform mediating apical exocytosis, basolateral exocytosis, and ZG-ZG fusion. Unfortunately, using a SNAP23 KD mouse model, 80% SNAP23 KD was insufficient to manifest any secretion phenotype. A novel syncollin-pHluorin exocytosis imaging technique initially meant to assess which fusion events are perturbed by SNAP23 KD was successfully developed and displayed improvements over previous imaging techniques. The syncollin-pHluorin imaging enabled visualization of apical and basolateral exocytosis as well as sequential ZG-ZG fusions. Combined with spinning disk microscopy, this assay allows 3D live exocytosis imaging with high temporal and spatial resolution. This novel imaging assay will be useful in visualizing apical, basolateral, sequential, and lateral fusion events for future acinar studies. pancreatic acinar cell exocytosis SNAP23 pHluorin 0719
3	The Role of Munc18 Proteins in Physiologic and Pathologic Exocytoses in the Pancreatic Acinar Cell Lam, Patrick Pak Ling 18 February 2010 (has links) Distinct membrane fusion events in the polarized pancreatic acinar cell involve highly specific interactions between distinct sets of SNARE proteins forming exocytotic complexes, whose assembly is modulated by distinct Munc18 proteins. The Munc18 isoform responsible for these exocytotic events in the acinar cell is unknown. Here, I postulate Munc18b to regulate apical exocytosis in the acinar cell. Current dogma for the pathogenesis of acute pancreatitis, including alcoholic pancreatitis, is mis-targeting and deregulated fusion of zymogen granules with lysosomal bodies in the acinar cells. This derangement results in premature activation of proteolytic zymogens and autophagic digestion of cellular contents. I have hypothesized an alternate mechanism, which is pathologic exocytosis occurring at the basolateral plasma membrane, and further propose Munc18c to mediate this process in alcoholic pancreatitis. The aims of this thesis are to demonstrate the roles of Munc18b and Munc18c in regulated apical exocytosis and pathologic basolateral exocytosis underling alcoholic pancreatitis, respectively. In Chapter Three, using both real-time and static imaging techniques and biochemical tools, I demonstrated that Munc18c is dissociated from the acinar basal plasma membrane (BPM) when stimulated with postprandial CCK8 preceding preincubation of acini with postprandial 20-50mM ethanol concentrations. This activated Syntaxin (Syn)-4 and SNAP-23 on the BPM to complex with VAMP proteins on the granule to form the exocytotic SNARE complex that triggered basolateral exocytosis. This molecular mechanism of pathologic basolateral exocytosis was recapitulated in an Ethanol-diet rat model of pancreatitis. In Chapter Four, I determined Munc18b to be in the apical pole of the acinar cell to appropriately bind cognate Syn-2 and Syn-3 in the apical PM and ZGs. Here, I examined the structure-function of Munc18b on amylase secretion by employing Munc18b mutants with distinct affinities to Syn-2 and Syn-3. In Chapter Five, I discovered a novel EF-hand Ca2+-binding protein called Cab45b, which binds Munc18b to regulate its membrane targeting and interactions with Syntaxins in the acinar cell in a manner that influenced Ca2+-induced amylase release. Taken together, these studies clarify our understanding of the role of Munc18 proteins involved in regulated and pathologic membrane fusion events underlying physiologic digestive enzyme secretion and clinical alcoholic pancreatitis. Pancreatitis Exocytosis Acinar Cell Molecular Biology SNARE proteins Munc18 0719
4	The Role of Munc18 Proteins in Physiologic and Pathologic Exocytoses in the Pancreatic Acinar Cell Lam, Patrick Pak Ling 18 February 2010 (has links) Distinct membrane fusion events in the polarized pancreatic acinar cell involve highly specific interactions between distinct sets of SNARE proteins forming exocytotic complexes, whose assembly is modulated by distinct Munc18 proteins. The Munc18 isoform responsible for these exocytotic events in the acinar cell is unknown. Here, I postulate Munc18b to regulate apical exocytosis in the acinar cell. Current dogma for the pathogenesis of acute pancreatitis, including alcoholic pancreatitis, is mis-targeting and deregulated fusion of zymogen granules with lysosomal bodies in the acinar cells. This derangement results in premature activation of proteolytic zymogens and autophagic digestion of cellular contents. I have hypothesized an alternate mechanism, which is pathologic exocytosis occurring at the basolateral plasma membrane, and further propose Munc18c to mediate this process in alcoholic pancreatitis. The aims of this thesis are to demonstrate the roles of Munc18b and Munc18c in regulated apical exocytosis and pathologic basolateral exocytosis underling alcoholic pancreatitis, respectively. In Chapter Three, using both real-time and static imaging techniques and biochemical tools, I demonstrated that Munc18c is dissociated from the acinar basal plasma membrane (BPM) when stimulated with postprandial CCK8 preceding preincubation of acini with postprandial 20-50mM ethanol concentrations. This activated Syntaxin (Syn)-4 and SNAP-23 on the BPM to complex with VAMP proteins on the granule to form the exocytotic SNARE complex that triggered basolateral exocytosis. This molecular mechanism of pathologic basolateral exocytosis was recapitulated in an Ethanol-diet rat model of pancreatitis. In Chapter Four, I determined Munc18b to be in the apical pole of the acinar cell to appropriately bind cognate Syn-2 and Syn-3 in the apical PM and ZGs. Here, I examined the structure-function of Munc18b on amylase secretion by employing Munc18b mutants with distinct affinities to Syn-2 and Syn-3. In Chapter Five, I discovered a novel EF-hand Ca2+-binding protein called Cab45b, which binds Munc18b to regulate its membrane targeting and interactions with Syntaxins in the acinar cell in a manner that influenced Ca2+-induced amylase release. Taken together, these studies clarify our understanding of the role of Munc18 proteins involved in regulated and pathologic membrane fusion events underlying physiologic digestive enzyme secretion and clinical alcoholic pancreatitis. Pancreatitis Exocytosis Acinar Cell Molecular Biology SNARE proteins Munc18 0719
5	Ptf1a inactivation in adult pancreatic acinar cells causes apoptosis through activation of the endoplasmic reticulum stress pathway / 成体の膵腺房細胞においてPtf1aを失活させると小胞体ストレス経路の活性化を通じてアポトーシスを生じる Sakikubo, Morito 25 March 2019 (has links) 京都大学 / 0048 / 新制・論文博士 / 博士(医学) / 乙第13235号 / 論医博第2175号 / 新制\|\|医\|\|1037(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授竹内理, 教授渡邊直樹, 教授山下潤 / 学位規則第4条第2項該当 / Doctor of Medical Science / Kyoto University / DFAM ptf1a pancreatic acinar cell endoplasmic reticulum stress mouse study 490
6	Chemokine CXCL16 mediates acinar cell necrosis in cerulein induced acute pancreatitis in mice / マウスのセルレイン誘導急性膵炎においてケモカインCXCL16は腺房細胞壊死を調節する Sakuma, Yojiro 25 March 2019 (has links) 京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第21632号 / 医博第4438号 / 新制\|\|医\|\|1034(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授生田宏一, 教授上本伸二, 教授竹内理 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM acute pancreatitis acinar cell necrosis chemokine CXCL16 490
7	Barrett's oesophagus and metaplasia at the oesophagogastric junction : an epidemiological approach / Johansson, Johan, January 2006 (has links) Diss. (sammanfattning) Stockholm : Karol. inst., 2006. / Härtill 4 uppsatser.
8	Die neuronale Kontrolle der Speicheldrüse von Periplaneta americana / The neuronal control of the salivary glands of Periplaneta americana Rotte, Cathleen January 2009 (has links) Die acinösen Speicheldrüsen der Schabe Periplaneta americana sind reich durch serotonerge, dopaminerge und GABAerge Fasern innerviert. Die biogenen Amine Serotonin (5-HT) und Dopamin (DA) induzieren die Sekretion eines NaCl-haltigen Primärspeichels. Die physiologische Rolle der GABAergen Innervation des Drüsenkomplexes war bislang unbekannt. Weiterhin wurde vermutet, dass Tyramin (TA) und Octopamin (OA) an der Speichelbildung beteiligt sind. Mittels intrazellulärer Ableitungen von sekretorischen Acinuszellen mit und ohne Stimulierung des Speicheldrüsennervs (SDN) sollte daher die Wirkung von GABA, TA und OA im Speicheldrüsenkomplex untersucht werden. Intrazelluläre Ableitungen aus Acinuszellen zeigten, dass sowohl DA als auch 5 HT biphasische Änderungen des Membranpotentials induzierten. Diese bestanden aus einer initialen Hyperpolarisation und einer darauf folgenden transienten Depolarisation. Stimulierung des SDN mittels einer Saugelektrode verursachte ebenfalls biphasische Änderungen des Membranpotentials der Acinuszellen, die mit den DA- bzw. 5-HT-induzierten Änderungen kinetisch identisch waren. Dieses Ergebnis zeigte, dass die elektrische Stimulierung des SDN im Nerv-Speicheldrüsenpräparat eine verlässliche Methode zur Untersuchung der Wirkungen von Neuromodulatoren auf die dopaminerge und/oder sertotonerge Neurotransmission ist. Die Hyperpolarisation der DA-induzierten Potentialänderungen wurde durch eine intrazelluläre Ca2+-Freisetzung und die Öffnung basolateral lokalisierter Ca2+-gesteuerter K+-Kanäle verur-sacht. Die DA- und 5-HT-induzierte Depolarisation hing kritisch von der Aktivität eines basolateral lokalisierten Na+-K+-2Cl--Symporters ab. GABA, TA und OA potenzierten die elektrischen Antworten der Acinuszellen, wenn diese durch SDN-Stimulierung hervorgerufen wurden. Dabei war OA wirksamer als TA. Dieses Ergebnis zeigte, dass diese Substanzen als im Drüsenkomplex präsynaptisch und erregend als Neuromodulatoren wirken. Pharmakologische Untersuchungen ergaben, dass die erregende Wirkung von GABA durch einen G-Protein-gekoppelten GABAB-Rezeptor vermittelt wurde. Messungen der durch SDN-Stimulierung induzierten Flüssigkeits- und Proteinsekretionsraten zeigten, dass beide Parameter in Anwesenheit von GABA verstärkt waren. Dies ließ auf eine verstärkte serotonerge Neurotransmission schließen, da nur 5-HT die Bildung eines Protein-haltigen Speichels verursacht. Immuncytochemische Untersuchungen zeigten, dass die Drüsen tyraminerge und octopaminerge Innervation empfangen. Weiterhin wurde der erste charakterisierte TA-Rezeptor (PeaTYR1) der Schabe auf einem paarigen, lateral zur Drüse ziehenden Nerv markiert, der auch tyraminerge Fasern enthielt. Die vorliegende Arbeit trug zum Verständnis der komplexen Funktionsweise der Speicheldrüse der Schabe bei und erweiterte das lückenhafte Wissen über die neuronale Kontrolle exokriner Drüsen in Insekten. / The cockroach Periplaneta americana has acinar type salivary glands. The secretory acini consist of P-cells, responsible for electrolyte and water secretion and C-cells that secrete protein into the saliva. Salivation is controlled by the dopaminergic and GABAergic salivary neurons SN1 and SN2, and by several smaller serotonergic neurons. Dopamine (DA) and serotonin (5-HT) induce the secretion of a NaCl-rich saliva. The physiological role of the GABAergic innervation was unknown. Furthermore, the cellular actions of the biogenic amines DA and 5-HT were poorly understood. Based on studies on other insect salivary glands a role for octopamine (OA) and tyramine (TA) acting as neuromodulators was suggested. In this study, intracellular recordings of the basolateral membrane potential of acinar cells were performed to examine direct and modulating actions of the biogenic amines DA, 5-HT, OA, TA and of GABA. A nerve-gland preparation was developed and used to investigate the actions of neuromodulators, namely GABA, OA and TA. DA and 5-HT induced biphasic membrane potential changes, consisting of an initial hyperpolarization and a transient depolarization. The DA-induced hyperpolarization was mediated by intracellular Ca2+-release and subsequent opening of basolateral Ca2+-dependent K+-channels. The DA- and 5-HT-induced depolarization was dependent on the presence of extracellular Na+ and the activity of a basolateral Na+-K+-2Cl--cotransporter. Electrical stimulation of the salivary duct nerve (SDN) by means of a suction electrode induced membrane potential changes with the same kinetics as those induced by bath application of DA and 5-HT. These results suggested that electrical nerve stimulation is a adequate method to investigate presynaptic effects of neuromodulators. GABA, OA and TA affected neither the resting membrane potential of the acinar cells, nor the DA- or 5 HT- induced potential changes. When GABA was applied during SDN-stimulation, it enhanced the amplitudes of the membrane potential changes of the acinar cells as well as fluid- and protein secretion rates of the glands. Pharmacological experiments revealed that the excitatory action of GABA in the gland complex is mediated by a metabotropic GABA receptor (GABAB-type). OA and TA enhanced the membrane potential changes of the acinar cells when these were induced by SDN-stimulation, suggesting presynaptic excitatory roles for both amines in the gland complex. Immunocytochemistry revealed rich innervation of the salivary glands with octopamine- immunoreactive fibers that were also stained by the tyramine-antibody, and with tyramine-immunoreactive fibers lacking octopamine-immunoreactivity. Since the tyramine receptor PeaTYR1 is expressed in the salivary gland complex, its distribution was investigated by using a specific antibody. Immunoreactivity was detected in a paired nerve of unknown root. This nerve innervated only few acini lying in the periphery of the gland complex and contained tyraminergic fibers. This study extends our knowledge about the complex neuronal control and function of insect salivary glands. Schabe Speicheldrüse GABA Octopamin Tyramin cockroach salivary gland biogenic amines acinar cell dopamine Life sciences
9	Estrategias para la diferenciación in vitro de células ES de ratón a células acinares pancreáticas Rovira Clusellas, Meritxell 31 January 2007 (has links) Las patologías más importantes del páncreas exocrino, como la pancreatitis crónica (PC) o el cáncer de páncreas, representan un gran problema de salud pública en Europa. En la PC, el tejido acinar es substituido por complejos ductales. Además, es difícil mantener el fenotipo diferenciado de las células acinares en cultivo ya que sufren una transdiferenciación acinar-ductal.Las células madre embrionarias (ES) de ratón han sido utilizadas en la última década para generar in vitro células completamente diferenciadas de varios linajes celulares. No obstante, la capacidad de las células ES a diferenciarse a tipos celulares de origen endodérmico es muy limitada. El objetivo principal de este proyecto ha consistido en desarrollar estrategias para diferenciar células ES de ratón a células pancreáticas acinares con una elevada eficiencia mediante 1) la optimización de las condiciones de cultivo con tal de activar vías de señalización implicadas en el desarrollo/diferenciación pancreáticas; 2) la sobreexpresión de factores transcripcionales maestros utilizando vectores virales con el fin de recapitular específicamente un programa de diferenciación acinar; 3) la selección genética de las células comprometidas al linaje acinar con el objetivo de purificar las células acinares diferenciadas.Mediante la integración de estos abordajes, hemos conseguido aislar células que comparten características fenotípicas con células acinares inmaduras según la expresión de marcadores de diferenciación y la respuesta funcional a secretagogos. / Exocrine pancreatic diseases such as chronic pancreatitis (PC) or pancreatic cancer are major health issues in Europe. In CP, the acinar tissue is substituted by ductal complexes. In addition, it is difficult to maintain the differentiated phenotype of the acinar cells in culture as within few days an acinar-ductal transdifferentiation takes place.In the last decade, mouse embryonic stem cells (mES) have been used to generate differentiated cells of a variety of cellular lineages in vitro. However, the ability of ES cells to differentiate into endodermal lineages is limited. The main objective of this project has focused on the development of strategies to differentiate mES to pancreatic acinar cells with high efficiency by means of: 1) Optimization of cell culture conditions to activate signalling pathways involved in pancreatic differentiation/development; 2) the overexpression of master transcription factors involved in pancreas development using viral vectors in order to recapitulate specific acinar differentiation program; 3) the genetic selection of cells committed to the acinar linage in order to purify the differentiated cells.The integration of these different strategies allowed us to isolate cells that share phenotypic features with immature acinar cells according to the expression of differentiation markers and the functional response to acinar secretegogues. pancreas lentivirus infection symogen granule follistatin digestive enzyme differentiation embryonic stem cell embryoid body acinar cell adenovirus secretion genetic selection overexpression fetal pancreatic supernatant 576 616.4
10	Head and neck cancer : factors affecting tumour growth / Sundelin, Kaarina, January 2007 (has links) (PDF) Diss. (sammanfattning) Linköping : Linköpings universitet, 2007. / Härtill 4 uppsatser.

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