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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.
191

Physicochemical and Biopharmaceutical Characterisation of Small Drug Molecules by Capillary Electrophoresis

Örnskov, Eivor January 2004 (has links)
Capillary Electrophoresis (CE) was explored as a means for physicochemical and biopharmaceutical characterisation of small drug molecules. Special attention was paid to the characterisation of acid-base and lipophilic properties of drug compounds by analysing their migration behaviour in different CE systems. The thesis comprises an overview of the field together with separate studies on the different topics. The utility of CE for the determination of pKa of labile drug compounds was investigated. A general methodology was developed comprising key steps such as the use of a stabilising sample diluent, electromigration injection, and analyte characterisation by UV-Vis spectroscopy. The methodology was successfully applied for two sets of drug compounds, labile at low and high pH, respectively. CE was also evaluated for experimental modelling of passive intestinal membrane permeability by studying analyte migration in liposomal, microemulsion and micellar electrolytes. Good correlation is reported between CE migration and Caco-2 cell absorption estimates and for in vitro inhibition of thrombin. Interestingly, a slightly better correlation was obtained for liposomal electrolytes. The utility of liposomes in CE was further extended by developing a novel procedure for immobilising liposomes inside fused silica capillaries. This approach enabled direct on-line coupling of liposome CE to high sensitivity mass spectrometry. The utility of liposome-coated capillaries is demonstrated for estimating drug passive intestinal membrane permeability. Its use in biopharmaceutical drug profiling is discussed. Utilising advanced molecular descriptors, commonly applied to in silico prediction of passive intestinal membrane permeability, migration of analytes in micellar CE systems could be well predicted. The novel approach was based on hierarchical multivariate analytics and use of molecular descriptors for both analytes and micellar media surfactants. Demonstrated results propose that the CE format could be useful to validate how representative molecular descriptors are for describing molecular behaviour in complex liquid media, e.g. physiological systems.
192

Diacylglycerol, novel protein kinase C isozymes [eta] and [theta], and other diacylglycerol activated proteins promote neuroprotective plasmalemmal sealing in B104 neurons in vitro and rat sciatic nerve axons in vivo

Zuzek, Aleksej 25 February 2013 (has links)
To survive, neurons and other eukaryotic cells must rapidly repair (seal) plasmalemmal damage. Such repair occurs by an accumulation of intracellular vesicles at or near the plasmalemmal disruption. Diacylglycerol (DAG)-dependent and cAMP-dependent proteins are involved in many vesicle trafficking pathways. Although recent studies have implicated the signaling molecule cAMP in sealing, no study has investigated how DAG and DAG-dependent proteins affect sealing and, whether pharmacological inhibition of such proteins could promote immediate repair of damaged mammalian axons. To this end, I investigated the role of DAG, protein kinase C (PKC) and other DAG-activated proteins in plasmalemmal sealing in B104 neurons in vitro and rat sciatic nerves in vivo. Using dye exclusion to assess Ca2+-dependent vesicle-mediated sealing of transected neurites of individually identifiable rat hippocampal B104 cells, I now report that, compared to non-treated controls, sealing probabilities and rates are increased by DAG and cAMP analogs that activate PKC and Munc13-1, and protein kinase A (PKA). Sealing is decreased by inhibiting DAG-activated novel protein kinase C isozymes η (nPKCη) and θ (nPKCθ) and, Munc13-1, the PKC effector myristoylated alanine rich PKC substrate (MARCKS) or phospholipase C (PLC). DAG-increased sealing is prevented by inhibiting MARCKS or PKA. Sealing probability is further decreased by simultaneously inhibiting nPKCη, nPKCθ and PKA. Extracellular Ca2+, DAG or cAMP analogs do not affect this decrease in sealing. I also report that applying inhibitors of nPKC and PKA to rat sciatic axons crush-severed in vivo under physiological calcium, do not promote immediate repair by polyethylene glycol (PEG), as assessed by compound action potential conduction and dye diffusion through crush sites. These and other data suggest that DAG increases sealing through MARCKS and that nPKCη, nPKCθ and PKA are all required to seal plasmalemmal damage in B104 neurons, and likely all eukaryotic cells. / text
193

リン脂質症リスクの低減を意図したbFGF様低分子化合物の探索研究

坂井, 啓紀 23 March 2021 (has links)
京都大学 / 新制・論文博士 / 博士(薬科学) / 乙第13402号 / 論薬科博第4号 / 新制||薬科||15(附属図書館) / (主査)教授 川端 猛夫, 教授 掛谷 秀昭, 教授 山下 富義 / 学位規則第4条第2項該当 / Doctor of Pharmaceutical Sciences / Kyoto University / DFAM
194

Untersuchungen zur GLP-1-(Glucagon-like peptide-1) induzierten Signaltransduktion und Genexpression an der pankreatischen ß-Zellinie INS-1.

Trusheim, Heidi 11 September 2000 (has links)
Das Darmhormon Glucagon-like peptide-1 (GLP-1) ist ein vielversprechendes Therapeutikum in der Behandlung des Typ 2-Diabetes. Allerdings liegen nur wenige Daten über die molekulare Wirkung des Hormons vor. Daher wurden die intrazellulären Effekte, die GLP-1-induzierten Signaltransduktion und Genexpression am Beispiel der pankreatischen ß-Zellinie INS-1 untersucht. In den INS-1-Zellen zeigte sich nach einer GLP-1-Stimulation eine zeit-, dosis- und glukose-abhängige Phosphorylierung von ERK1/2 bzw. der Aktivierung der Transkriptionsfaktoren Elk-1 und CREB. Während GLP-1 die beiden Signalmoleküle bereits nach wenigen Minuten transient aktivierte, führte Glukose zu einer verzögerten, aber anhaltenden Aktivierung. Beide Stimulanzien gemeinsam bewirkten eine synergistische Aktivierung von ERK1/2 und CREB. Sowohl am Mechanismus der glukose- als auch GLP-1-induzierten Aktivierung sind Ca2[plus]-regulierte Signalprozesse in antagonistischer Weise involviert. So führte die Inhibition von CaM-Kinasen und der intrazellulären Ca2[plus]-Erhöhung zu einer Reduktion der GLP-1- und glukosestimulierten ERK1/2-Phosphorylierung, die induzierte Aktivierung von CREB wurde leicht verstärkt. Die Inhibition der PKA und MEK ließen die Rückschlüsse zu, daß die Aktivie-rung der MAPK-Kaskade teilweise durch die PKA vermittelt wird und eine Wechselwirkung zwischen den Kaskaden existiert. Insbesondere die Induktion der frühen Gene junB, c-fos, nur-77 und zif268, die mit der GLP-1-induzierten ERK1/2- und CREB-Phosphorylierung korrelierten, belegten, daß GLP-1 einen Teil seiner Wirkung über diese Signalwege vermittelt. Die Glukosewirkung hinsichtlich der IEG-Induktion war gering. Beide Stimuli gemeinsam führten analog zum synergistischen Effekt auf signaltransduktorischer Ebene zu einer gesteigerten und verlängerten IEG-Expression, die somit die physiologische Bedeutung von GLP-1 als Glukosekompetenzfaktor unterstrichen.
195

Funktionelle Untersuchungen von Ahnak durch Protein-Protein-Wechselwirkungen und in Ahnak-Defizienzmodellen

Petzhold, Daria 14 December 2007 (has links)
Ahnak ist ein ubiquitäres Protein, das an einer Vielzahl biologischer Prozesse beteiligt ist. In der Herzmuskelzelle ist Ahnak überwiegend am Sarkolemma lokalisiert und bindet an Aktin und an die regulatorischen Beta2-Untereinheit des L-Typ-Kalzium-Kanals. Das Ziel dieser Arbeit war die Funktion von Ahnak im Herzen mit Hilfe eines Knock-out-Maus-Modells und in Bindungsstudien zu untersuchen. Morphologische Untersuchungen zeigten, dass das Längenwachstum adulter Kardiomyozyten bei Ahnakdefizienz signifikant reduziert war. Die Kontraktionseigenschaften adulter isolierter Ahnak-defizienter Kardio-myozyten (im Alter von 6 Monaten) waren ebenfalls verändert. Die Kontraktions- und Relaxaktionsgeschwindigkeiten waren erhöht. Eine Erhöhung des diastolischen Kalzium-Spiegels zeigten die Kardiomyozyten schon im Alter von 3 Monaten. Diese beobachteten phänotypischen Veränderungen lassen vermuten, dass die Aktivität des L-Typ-Kalzium-Kanals erhöht ist. In dieser Arbeit konnte das PXXP-Motiv, in der C-terminalen Ahnak-Domäne, als die hochaffine Beta2-Bindungsstelle (KD ~ 60 nM) identifiziert werden. Substitution von Prolin gegen Alanin verringerte zwar die Bindung zur Beta2-Untereinheit dramatisch (KD ~ 1 µM), hob sie aber nicht auf. In weiteren Bindungsstudien zeigte sich, dass die natürlich vorkommende Missensmutation I5236T die Bindung zur regulatorischen Beta2-Untereinheit verstärkte, dagegen verminderte die PKA-abhängige Phosphorylierung der beiden Proteinpartner die Bindung. Experimente am ganzen isoliert perfundierten Herzen zeigten, dass Ahnak-Knock-Out-Herzen geringer Beta-adrenerg stimulierbar waren. Ahnak scheint wie eine physiologische Bremse des kardialen Kalzium-Kanals zu wirken. / Ahnak is an ubiquitous protein with in unique structure, which has been implicated in cell type specific functions. In cardiomyocytes, ahnak is predominantly localized at the sarcolemma and is associated with actin and with the regulatory beta2 subunit of the L-type calcium-channel. The aim of this work was to unravel the function of ahnak in the heart, using a knock-out-mouse model and binding studies. Morphological studies showed a significant decrease in the cell-length of ahnak deficient cardiomyocytes. The contractile parameters of isolated adult ahnak deficient cardiomyocytes (in the age of 6 month) were altered. The development of tension and relaxation were increased. An increase of diastolic calcium was already observed at the age of 3 month. In general the observed phenotypic changes suggested an increased activity of the L-type calcium-channel. In this study, a PXXP-motif, which locates in ahnaks C-terminus, was identified as the high affinity beta2 subunit binding site (KD ~ 60 nM). Substitution of both proline residues by alanine reduced, but did not abolish the binding (KD ~ 1 µM). Further binding studies revealed that the natural occurring ahnak missense mutation I5236T increases the binding affinity to the regulatory beta2 subunit. By contrast PKA dependant phosphorylation of both protein partners decreases the interaction. In studies with isolated perfused working heart preparations, the ahnak deficient hearts were less beta-adrenergic stimulated than hearts from wild type. Taken together ahnak seems to be a physiological brake of the cardiac calcium-channel.
196

Structure-property relationships of dyes as applied to dye-sensitized solar cells

Gong, Yun January 2018 (has links)
This work investigates the correlation of structural and photovoltaic properties of dyes used in dye-sensitized solar cells. Experimental methods, including ultraviolet-visible spectroscopy, fluorescence spectroscopy, cyclic voltammetry and electrochemical impedance spectroscopy are employed to study optical and electrochemical properties of dye molecules. Computational methods, including density functional theory and time-dependent density functional theory, are used to validate and predict the optical and electronic properties of dye molecules, in their isolated state and once embedded into a working electrode device environment that comprises a dye...TiO2 interface. The results chapters begin with the presentation of a series of quinodimethene dyes that are experimentally validated for their photovoltaic application, and associated computational studies reveal that an inner structural factor - a phenyl ring rotation occurring during the optical excitation process - leads to the competitive photovoltaic device performance of these dyes. Carbazole-based dyes are then systematically studied by computation, especially considering charge transfer paths and binding modes of these dyes on a titania surface. The theoretical models for the basic building block of this chemical family of dyes, known as MK-44, successfully support and explain structural discoveries from X-ray diffraction and reflectometry that impact of their function. A benzothiadiazole-based dye, RK-1, is then systematically studied by both experimental and computational methods, and the results show that the π-bridge composed of thiophene, benzothiadiazole and benzene rings leads to excellent charge separation; and the rotation of these rings during the optical excitation process may well be consistent with the fluorescence spectrum. Finally, the well-known ruthenium-based dyes are theoretically studied to determine the properties of different ligands connected to the metal core of the complex. Conformations with different NCS ligands are calculated in terms of energy and explain well the corresponding results from X-ray diffraction. Acid-base properties of carboxyl groups connected to pyridine ligands in N3 and N749 are theoretically calculated based on thermodynamics and density functional theory. Implicit and explicit models are both adopted to predict these acid dissociative constant values, which are generally in a good agreement with the reported experimental data. The thesis concludes with conclusions and a future outlook.
197

Über die differentielle Regulation von Ionenkanälen in spezifischen Nanodomänen atrialer und ventrikulärer Kardiomyozyten / Differential Regulation of Ion Channels in Specific Nanodomains of Atrial and Ventricular Cardiomyocytes

Brandenburg, Sören 29 June 2017 (has links)
No description available.

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