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Manipula??o de imagens astron?micas com o uso Aladin para o ensino de astronomiaLima, Melina Silva de 13 August 2015 (has links)
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Previous issue date: 2015-08-13 / We have used the Aladin software, a sky atlas used to visualize and manipulate astronomical images developed by CDS of Strasbourg. To elaborate teaching activities involving astronomical concepts, such as distance, brightness, image manipulation, colors as well as to explain the nature of different objects showing their images in different filters, among others. In the total, we have elaborated four activities that were applied to students of the 6th year of elementary school, high school and undergraduate ones for the Engineering and Pedagogy courses. All activities and the results of their evaluation with students are detailed discussed and analyzed; a teacher guide is also provided. Our results show that in the four activities, the students have a significant learning supporting the use of such methodology. Also, we elaborated two memory games, based on Java platform, with the images of some astronomical objects. The activities are in The Portuguese language, but they can easily be adapted for any other language. This research also made the translation of Aladin to Portuguese. / Este trabalho contempla a an?lise de um estudo de aplica??es, em sala de aula, de estrat?gias e t?cnicas de facilita??o, que utilizem o software Aladin (http://aladin.u-strasbg.fr/) na forma??o de conceitos de Astronomia e possibilidade de desenvolvimento cognitivo, por meio da aprendizagem, consolidando o aprendizado atrav?s do uso de computadores. Conceitos de dist?ncia, brilho, cor, exist?ncia de diferentes tipos de objetos astron?micos, manipula??o de imagens e dados astron?micos, entre outros aspectos, foram tratados em sala de aula e fizeram parte deste trabalho. A pesquisa foi aplicada em diversas etapas do ciclo de aprendizagem escolar, mais especificamente: 6? ano do ensino fundamental, 2? ano do ensino m?dio, alunos de gradua??o em Engenharia e, por fim, uma turma de alunas de Pedagogia, quase todos professores atuantes e, portanto, divulgadores dos conceitos para eles passados. Todas as atividades utilizaram o software Aladin e uma o aplicativo de Observat?rio Virtual, denominado VO-Stat. Como produto, foi elaborado material did?tico com o conte?do das atividades assim como um roteiro voltado para os professores realizarem a aplica??o da atividade para o ensino fundamental, um jogo da mem?ria virtual que trata de Astronomia. A tradu??o do Aladin para a l?ngua portuguesa tamb?m foi realizada nesse trabalho.
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Characterisation of ALADIN's function during cell divisionCarvalhal, Sara January 2015 (has links)
Cell division relies on many steps, precisely synchronised, to ensure the fidelity of chromosome segregation. To achieve such complex and multiple functions, cells have evolved mechanisms by which one protein can participate in numerous events on the cell life. Over the past few years, an increasing number of functions have been assigned to the proteins of the nuclear pore complex (NPC) also called nucleoporins. NPCs are large complexes studded in the nuclear envelope, which control the nucleocytoplasmic transport. It is now known that nucleoporins participate in spindle assembly, kinetochore organisation, spindle assembly checkpoint, and all processes important for genome integrity maintenance. This work demonstrates that the nucleoporin ALADIN participates in mitosis, meiosis and in cilia. In both mitosis and meiosis, ALADIN is important for proper spindle assembly. In mitosis, it was also discovered that ALADIN is a novel factor in the spatial regulation of the mitotic regulator Aurora A kinase. Without ALADIN, active Aurora A spreads from centrosomes onto spindle microtubules, which affects the distribution of a subset of microtubule regulators and slows spindle assembly and chromosome alignment. Interestingly, mutations in ALADIN causes triple A syndrome and some of the mitotic phenotypes observed after ALADIN depletion also occur in cells from triple A syndrome patients. In meiosis, ALADIN contributes to trigger the resumption of meiosis in female mouse. Impairment of ALADIN from mouse oocyte slows spindle assembly, migration and reduces oocytes ability to extrude polar bodies during meiosis I, which concomitantly affects the robustness of oocyte maturation and impairs mouse embryo development. Nucleoporins were also found at the base of the cilia, a centriole-derived organelle that participates in differentiation, migration, cell growth from development to adulthood. Here it is shown that ALADIN is also localised at the base of the cilia. With this work, new ALADIN’s functions have been identified across cell division, as well as uncovered an unexpected relation between triple A syndrome and cell division.
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Late-Onset Triple A Syndrome: A Risk of Overlooked or Delayed Diagnosis and ManagementSalmaggi, Andrea, Zirilli, Lucia, Pantaleoni, Chiara, De Joanna, Gabriella, Del Sorbo, Francesca, Köhler, Katrin, Krumbholz, Manuela, Hübner, Angela, Rochira, Vincenzo 19 February 2014 (has links) (PDF)
Background/Aims: A 33-year-old man was referred for the first time to the Division of Neurology because of the presence and progression of neurological symptoms. Dysphagia, weakness, reduced tear production, and nasal speech were present. In order to point the attention of late-onset triple A syndrome we describe this case and review the literature. Methods: Hormonal and biochemical evaluation, Schirmer test, tilt test and genetic testing for AAAS gene mutations. Results: Late-onset triple A syndrome caused by a novel homozygous missense mutation in the AAAS gene (A167V in exon 6) was diagnosed at least 17 years after symptom onset. Conclusions: The association between typical signs and symptoms of triple A syndrome should suggest the diagnosis even if they manifest in adulthood. The diagnosis should be confirmed by Schirmer test, endocrine testing (both basal and dynamic), genetic analysis, and detailed gastroenterological and neurological evaluations. Awareness of the possible late onset of the disease and of diagnosis in adulthood is still poor among clinicians, the acquaintance with the disease is more common among pediatricians. The importance of an adequate multidisciplinary clinical approach, dynamic testing for early diagnosis of adrenal insufficiency and periodical reassessment of adrenal function are emphasized. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.
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Compensation for chronic oxidative stress in ALADIN null miceJühlen, Ramona, Peitzsch, Mirko, Gärtner, Sebastian, Landgraf, Dana, Eisenhofer, Graeme, Huebner, Angela, Koehler, Katrin 08 June 2018 (has links) (PDF)
Mutations in the AAAS gene coding for the nuclear pore complex protein ALADIN lead to the autosomal recessive disorder triple A syndrome. Triple A patients present with a characteristic phenotype including alacrima, achalasia and adrenal insufficiency. Patient fibroblasts show increased levels of oxidative stress, and several in vitro studies have demonstrated that the nucleoporin ALADIN is involved in both the cellular oxidative stress response and adrenal steroidogenesis. It is known that ALADIN knock-out mice lack a phenotype resembling human triple A syndrome. The objective of this study was to determine whether the application of chronic oxidative
stress by ingestion of paraquat would generate a triple A-like phenotype in ALADIN null mice. Adult male mice were fed either a paraquat (0.25 g/kg diet) or control diet for 11 days. After application of chronic oxidative stress, ALADIN knock-out mice presented with an unexpected compensated glutathione metabolism, but lacked a phenotype resembling human triple A syndrome. We did not observe increased levels of oxidative stress and alterations in adrenal steroidogenesis in mice depleted for ALADIN. This study stresses the species-specific role of the nucleoporin ALADIN, which in mice involves a novel compensatory mechanism for regulating the cellular glutathione redox response.
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Late-Onset Triple A Syndrome: A Risk of Overlooked or Delayed Diagnosis and ManagementSalmaggi, Andrea, Zirilli, Lucia, Pantaleoni, Chiara, De Joanna, Gabriella, Del Sorbo, Francesca, Köhler, Katrin, Krumbholz, Manuela, Hübner, Angela, Rochira, Vincenzo January 2008 (has links)
Background/Aims: A 33-year-old man was referred for the first time to the Division of Neurology because of the presence and progression of neurological symptoms. Dysphagia, weakness, reduced tear production, and nasal speech were present. In order to point the attention of late-onset triple A syndrome we describe this case and review the literature. Methods: Hormonal and biochemical evaluation, Schirmer test, tilt test and genetic testing for AAAS gene mutations. Results: Late-onset triple A syndrome caused by a novel homozygous missense mutation in the AAAS gene (A167V in exon 6) was diagnosed at least 17 years after symptom onset. Conclusions: The association between typical signs and symptoms of triple A syndrome should suggest the diagnosis even if they manifest in adulthood. The diagnosis should be confirmed by Schirmer test, endocrine testing (both basal and dynamic), genetic analysis, and detailed gastroenterological and neurological evaluations. Awareness of the possible late onset of the disease and of diagnosis in adulthood is still poor among clinicians, the acquaintance with the disease is more common among pediatricians. The importance of an adequate multidisciplinary clinical approach, dynamic testing for early diagnosis of adrenal insufficiency and periodical reassessment of adrenal function are emphasized. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.
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Distributed Control of Electric Vehicle Charging: Privacy, Performance, and Processing TradeoffsBotkin-Levy, Micah 01 January 2019 (has links)
As global climate change concerns, technological advancements, and economic shifts increase the adoption of electric vehicles, it is vital to study how best to integrate these into our existing energy systems. Electric vehicles (EVs) are on track to quickly become a large factor in the energy grid. If left uncoordinated, the charging of EVs will become a burden on the grid by increasing peak demand and overloading transformers. However, with proper charging control strategies, the problems can be mitigated without the need for expensive capital investments. Distributed control methods are a powerful tool to coordinate the charging, but it will be important to assess the trade-offs between performance, information privacy, and computational speed between different control strategies.
This work presents a comprehensive comparison between four distributed control algorithms simulating two case studies constrained by dynamic transformer temperature and current limits. The transformer temperature dynamics are inherently nonlinear and this implementation is contrasted with a piece-wise linear convex relaxation. The more commonly distributed control methods of Dual Decomposition and Alternating Direction Method of Multipliers (ADMM) are compared against a relatively new algorithm, Augmented Lagrangian based Alternating Direction Inexact Newton (ALADIN), as well as against a low-information packetized energy management control scheme (PEM). These algorithms are implemented with a receding horizon in two distinct case studies: a local neighborhood scenario with EVs at each network node and a hub scenario where each node represents a collection of EVs. Finally, these simulation results are compared and analyzed to assess the methods’ performance, privacy, and processing metrics for each case study as no algorithm is found to be optimal for all applications.
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Compensation for chronic oxidative stress in ALADIN null miceJühlen, Ramona, Peitzsch, Mirko, Gärtner, Sebastian, Landgraf, Dana, Eisenhofer, Graeme, Huebner, Angela, Koehler, Katrin 08 June 2018 (has links)
Mutations in the AAAS gene coding for the nuclear pore complex protein ALADIN lead to the autosomal recessive disorder triple A syndrome. Triple A patients present with a characteristic phenotype including alacrima, achalasia and adrenal insufficiency. Patient fibroblasts show increased levels of oxidative stress, and several in vitro studies have demonstrated that the nucleoporin ALADIN is involved in both the cellular oxidative stress response and adrenal steroidogenesis. It is known that ALADIN knock-out mice lack a phenotype resembling human triple A syndrome. The objective of this study was to determine whether the application of chronic oxidative
stress by ingestion of paraquat would generate a triple A-like phenotype in ALADIN null mice. Adult male mice were fed either a paraquat (0.25 g/kg diet) or control diet for 11 days. After application of chronic oxidative stress, ALADIN knock-out mice presented with an unexpected compensated glutathione metabolism, but lacked a phenotype resembling human triple A syndrome. We did not observe increased levels of oxidative stress and alterations in adrenal steroidogenesis in mice depleted for ALADIN. This study stresses the species-specific role of the nucleoporin ALADIN, which in mice involves a novel compensatory mechanism for regulating the cellular glutathione redox response.
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Změna vodnosti povodí Hačky s ohledem na předpokládanou změnu klimatu / The assessment of change in the water balance of Hačka catchment due to the climate changeMoravec, Vojtěch January 2016 (has links)
In the presented paper the changes in mean runoff, temperature and precipitation totals in
an observed period 1962-2015 in the catchment river Hačka are assessed. The paper further
presents the analysis of climate change impact on mean runoff between the periods 1984-2014
(control period) and 2035-2065 and 2068-2098 (scenario periods) using the projections of three
regional climate model simulations. Thin Plate Spline interpolation was used to estimate basin
precipitation and temperature. Modified hydrological analogy was used for precise quantification
of naturalized runoff (i.e. not affected by water use). Climate change scenarios were
derived using simple delta change approach, i.e. observed series of precipitation and temperature
were adjusted in order to give the same changes between the control and scenario period
as regional climate model simulations. Hydrological balance was modelled with a conceptual
hydrological model Bilan. The parameters of the hydrological model were estimated using observed
data. These parameters were subsequently used to derive discharge series under climate
change conditions for each regional climate model simulation. Results showed a 1.7 °C average
increase in mean annual temperature in the scenario period 2035-2065 and a 2.8 °C average
increase in the scenario period 2068-2098. The seasonal cycle of precipitation in the scenario
conditions is shifted, although mean annual precipitation totals remain practically unchanged
(max changes -8.1 %; +9.3 %). The mean annual discharge decreases by 5.7% in average (most
20.3 %) in period 2035-2065 and a significant decrease of 25.5% in average (most 45.9 %) in
annual mean discharge is expected in the period 2068-2098. Frequency of minimal runoff is expected
to increase up to two times. Precipitation increase is expected from the beginning of the
fall to the beginning of the summer, with a slight decrease in spring. Increase in precipitation
is followed by evapotranspiration increase, caused by increase in temperature. Summer precipitation
is expected to decrease as well as summer runoff. Due to the temperature increase, time
shift of the snowmelt is expected from the periods between March-April to January-February.
This will also affect the increase of the discharge in this period. This knowledge can be applied
in water management planning in the future.
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Role of ALADIN for Oxidative Stress Response and Microsomal Steroidogenesis in Human Adrenocortical CellsJühlen, Ramona 12 January 2016 (has links) (PDF)
Autosomal recessive triple A syndrome is caused by mutations in the AAAS gene encoding the protein ALADIN. The disorder manifests with the triad of adrenocorticotropin-resistant adrenal insufficiency, achalasia of the stomach cardia and impaired tear production (alacrima) in combination with progressive neurological impairment of the central, peripheral and autonomic nervous systems. ALADIN is part of the nuclear pore complex acting as a scaffold nucleoporin. In this work the role of ALADIN in the human adrenocortical tumour cell line NCI-H295R1 was investigated. These cells were engineered to either over-express or down-regulate AAAS by inducible stable transfection. Alterations in steroidogenic gene expression and functional consequences were determined. In addition, the role of ALADIN on cell viability and oxidative stress response was analysed. Using both the human adrenal NCI-H295R1-TR AAAS knock-down and over-expression models the potential impairment of the nuclear import of aprataxin, DNA ligase 1 and ferritin heavy chain 1 was investigated. For this YFP-specific vectors transiently transfected into the cell lines were employed.
The findings indicate that AAAS knock-down induces a down-regulation of genes coding for type II microsomal cytochrome P450 hydroxylases CYP17A1 and CYP21A2 and their electron donor enzyme cytochrome P450 oxidoreductase, thereby decreasing biosynthesis of precursor metabolites required for glucocorticoid and androgen production. Furthermore I demonstrate that ALADIN deficiency leads to increased susceptibility to oxidative stress and alteration in redox homeostasis after paraquat treatment. Finally, I show significantly impaired nuclear import of DNA ligase 1, aprataxin and ferritin heavy chain 1 in ALADIN knock-down cells. I conclude that down-regulating ALADIN results in decreased oxidative stress response leading to alteration in steroidogenesis, highlighting the knock-down cell model as an important in vitro tool for studying the adrenal phenotype in triple A syndrome.
In an approach to identify new interaction partners of ALADIN, co-immunoprecipitation followed by proteome analyses using mass spectrometry was conducted in a GFP-ALADIN over-expression model using the human adrenocortical tumor cell line NCI-H295R. These results were verified in co-immunoprecipitation assays of endogenous ALADIN using NCI-H295R wild-type cells. The results suggest a possible interaction between ALADIN and microsomal flavoprotein cytochrome P450 oxidoreductase and progesterone receptor membrane compartment 2. Co-localisation analyses of these findings were done using immunofluorescence. The data are suggestive for an involvement of ALADIN in the export of nuclear-encoded mitochondrial proteins.
Regulation of adrenocortical steroidogenesis is complex and there is increasing evidence that oxidative stress due to ROS accumulation and mitochondria are significantly involved. Furthermore, there may be an important cross-talk between functional organelles comprising nucleus, ER and mitochondria which presumably involves lipid metabolism. The goal of this work was to elucidate the function of ALADIN for the cellular oxidative stress response and its possible consequences for adrenocortical steroidogenesis in triple A syndrome patients. / Mutationen im AAAS Gen verursachen die autosomal rezessive Krankheit Triple-A-Syndrom. AAAS kodiert das Nukleoporin ALADIN, welches Bestandteil des nukleären Porenkomplexes ist. Phänotypische Charakteristika des Triple-A-Syndroms sind Nebennierenrinden-Insuffizienz, Achalasie des unteren Speiseröhrenschließmuskels und eine fehlende Tränenproduktion (Alakrimie). Diese Symptome sind kombiniert mit progredienten neurologischen Störungen des zentralen, peripheren und autonomen Nervensystems. In dieser Arbeit wurde die Rolle von ALADIN in der humanen Karzinom-Zelllinie NCI-H295R1 untersucht. Diese Nebennierenrinden-Zellen wurden stabil transfiziert und mit einem induzierbaren Expressionssystem modifiziert, so dass sie AAAS entweder überexprimierten oder herunterregulierten. In NCI-H295R1-Zellen wurden Veränderungen der Genexpression von Enzymen der Steroidogenese und funktionelle Konsequenzen der Überexpression oder Herunterregulation von ALADIN gemessen. Des Weiteren wurde die Rolle von ALADIN auf die Zellviabilität und die Redox-Homöostase analysiert. ALADIN überexprimierende und herunterregulierte Zellen wurden verwendet, um die potentielle Behinderung des nukleären Imports von Proteinen zu untersuchen, welche den Zellkern gegen oxidativen Stress schützen (z.B. Aprataxin, DNA-Ligase 1 und Ferritin Heavy Chain 1). Dazu wurden YFP-spezifische Vektoren transient in diese Zellen gebracht.
Mit den Ergebnissen dieser Arbeit wurde gezeigt, dass die Herunterregulation von AAAS eine Verminderung der Genexpression von CYP17A1 und CYP21A2 und deren Elektronendonor Cytochrom P450 Oxidoreduktase bewirken. Die Biosynthese der Vorläufermetabolite von Kortisol und Aldosteron ist in diesen Zellen ebenfalls vermindert. Des Weiteren zeigen die ALADIN-defizienten NCIH295R1-Zellen eine erhöhte Sensitivität gegenüber oxidativem Stress und eine veränderte Redox-Homöostase nach der Behandlung mit Paraquat. Darüber hinaus konnte in dieser Studie auch gezeigt werden, dass herunterregulierte ALADIN NCI-H295R1-Zellen einen verminderten Zellkernimport von Aprataxin, DNA-Ligase 1 und Ferritin heavy chain 1 besitzen. Aus diesen Ergebnissen kann geschlussfolgert werden, dass ALADIN-defiziente Nebennierenzellen eine verminderte Stressantwort auf oxidativen Stress besitzen; dies führt schlussendlich zu einer veränderten Steroidogenese. Das beschriebene ALADIN knock-down Modell in NCI-H295R1-Zellen ist ein wichtiges in vitro Werkzeug, um die Pathogenese der Nebennierenveränderungen im Triple-A-Syndrom zu erforschen.
Neue Interaktionspartner von ALADIN wurden mit Hilfe von Co-Immunpräzipitation gefolgt von Proteom-Analysen durch Massenspektrometrie in einem GFP-ALADIN Überexpressionsmodell in NCI-H295R charakterisiert. Die Ergebnisse wurden durch Experimente auf endogenem Niveau in NCI-H295R-Wildtypzellen verifiziert. Mit diesen Daten wird in dieser Arbeit erstmals eine Interaktion zwischen ALADIN und dem Flavoprotein Cytochrom P450 Oxidoreduktase und Progesterone Receptor Membrane Compartment 2 nachgewiesen. Diese Ergebnisse wurden mit Co-Lokalisierungsanalysen durch Immunfluoreszenzfärbung von ALADIN und Cytochrome P450 Oxidoreduktase ergänzt. Außerdem gibt die Arbeit Hinweise darauf, dass ALADIN als Nukleoporin an dem nuklearen Export mitochondrialer Vorläuferproteine beteiligt ist.
Die Regulation der Steroidogenese in der Nebennierenrinde ist komplex und es existieren zahlreiche Hinweise darauf, dass oxidativer Stress aufgrund der Ansammlung reaktiver Sauerstoffradikale und. dass die Mitochondrien involviert sind. Außerdem ist ein funktionelles Zusammenspiel verschiedener Organellen, darunter Nukleus, ER und Mitochondrien, von großer Bedeutung. Das Ziel dieser Arbeit war die Identifizierung der Funktion von ALADIN in der zellulären oxidativen Stressantwort und die möglichen Konsequenzen für die Steroidogenese in der Nebennierenrinden in Triple-A-Syndrom-Patienten.
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Role of ALADIN for Oxidative Stress Response and Microsomal Steroidogenesis in Human Adrenocortical CellsJühlen, Ramona 12 November 2015 (has links)
Autosomal recessive triple A syndrome is caused by mutations in the AAAS gene encoding the protein ALADIN. The disorder manifests with the triad of adrenocorticotropin-resistant adrenal insufficiency, achalasia of the stomach cardia and impaired tear production (alacrima) in combination with progressive neurological impairment of the central, peripheral and autonomic nervous systems. ALADIN is part of the nuclear pore complex acting as a scaffold nucleoporin. In this work the role of ALADIN in the human adrenocortical tumour cell line NCI-H295R1 was investigated. These cells were engineered to either over-express or down-regulate AAAS by inducible stable transfection. Alterations in steroidogenic gene expression and functional consequences were determined. In addition, the role of ALADIN on cell viability and oxidative stress response was analysed. Using both the human adrenal NCI-H295R1-TR AAAS knock-down and over-expression models the potential impairment of the nuclear import of aprataxin, DNA ligase 1 and ferritin heavy chain 1 was investigated. For this YFP-specific vectors transiently transfected into the cell lines were employed.
The findings indicate that AAAS knock-down induces a down-regulation of genes coding for type II microsomal cytochrome P450 hydroxylases CYP17A1 and CYP21A2 and their electron donor enzyme cytochrome P450 oxidoreductase, thereby decreasing biosynthesis of precursor metabolites required for glucocorticoid and androgen production. Furthermore I demonstrate that ALADIN deficiency leads to increased susceptibility to oxidative stress and alteration in redox homeostasis after paraquat treatment. Finally, I show significantly impaired nuclear import of DNA ligase 1, aprataxin and ferritin heavy chain 1 in ALADIN knock-down cells. I conclude that down-regulating ALADIN results in decreased oxidative stress response leading to alteration in steroidogenesis, highlighting the knock-down cell model as an important in vitro tool for studying the adrenal phenotype in triple A syndrome.
In an approach to identify new interaction partners of ALADIN, co-immunoprecipitation followed by proteome analyses using mass spectrometry was conducted in a GFP-ALADIN over-expression model using the human adrenocortical tumor cell line NCI-H295R. These results were verified in co-immunoprecipitation assays of endogenous ALADIN using NCI-H295R wild-type cells. The results suggest a possible interaction between ALADIN and microsomal flavoprotein cytochrome P450 oxidoreductase and progesterone receptor membrane compartment 2. Co-localisation analyses of these findings were done using immunofluorescence. The data are suggestive for an involvement of ALADIN in the export of nuclear-encoded mitochondrial proteins.
Regulation of adrenocortical steroidogenesis is complex and there is increasing evidence that oxidative stress due to ROS accumulation and mitochondria are significantly involved. Furthermore, there may be an important cross-talk between functional organelles comprising nucleus, ER and mitochondria which presumably involves lipid metabolism. The goal of this work was to elucidate the function of ALADIN for the cellular oxidative stress response and its possible consequences for adrenocortical steroidogenesis in triple A syndrome patients. / Mutationen im AAAS Gen verursachen die autosomal rezessive Krankheit Triple-A-Syndrom. AAAS kodiert das Nukleoporin ALADIN, welches Bestandteil des nukleären Porenkomplexes ist. Phänotypische Charakteristika des Triple-A-Syndroms sind Nebennierenrinden-Insuffizienz, Achalasie des unteren Speiseröhrenschließmuskels und eine fehlende Tränenproduktion (Alakrimie). Diese Symptome sind kombiniert mit progredienten neurologischen Störungen des zentralen, peripheren und autonomen Nervensystems. In dieser Arbeit wurde die Rolle von ALADIN in der humanen Karzinom-Zelllinie NCI-H295R1 untersucht. Diese Nebennierenrinden-Zellen wurden stabil transfiziert und mit einem induzierbaren Expressionssystem modifiziert, so dass sie AAAS entweder überexprimierten oder herunterregulierten. In NCI-H295R1-Zellen wurden Veränderungen der Genexpression von Enzymen der Steroidogenese und funktionelle Konsequenzen der Überexpression oder Herunterregulation von ALADIN gemessen. Des Weiteren wurde die Rolle von ALADIN auf die Zellviabilität und die Redox-Homöostase analysiert. ALADIN überexprimierende und herunterregulierte Zellen wurden verwendet, um die potentielle Behinderung des nukleären Imports von Proteinen zu untersuchen, welche den Zellkern gegen oxidativen Stress schützen (z.B. Aprataxin, DNA-Ligase 1 und Ferritin Heavy Chain 1). Dazu wurden YFP-spezifische Vektoren transient in diese Zellen gebracht.
Mit den Ergebnissen dieser Arbeit wurde gezeigt, dass die Herunterregulation von AAAS eine Verminderung der Genexpression von CYP17A1 und CYP21A2 und deren Elektronendonor Cytochrom P450 Oxidoreduktase bewirken. Die Biosynthese der Vorläufermetabolite von Kortisol und Aldosteron ist in diesen Zellen ebenfalls vermindert. Des Weiteren zeigen die ALADIN-defizienten NCIH295R1-Zellen eine erhöhte Sensitivität gegenüber oxidativem Stress und eine veränderte Redox-Homöostase nach der Behandlung mit Paraquat. Darüber hinaus konnte in dieser Studie auch gezeigt werden, dass herunterregulierte ALADIN NCI-H295R1-Zellen einen verminderten Zellkernimport von Aprataxin, DNA-Ligase 1 und Ferritin heavy chain 1 besitzen. Aus diesen Ergebnissen kann geschlussfolgert werden, dass ALADIN-defiziente Nebennierenzellen eine verminderte Stressantwort auf oxidativen Stress besitzen; dies führt schlussendlich zu einer veränderten Steroidogenese. Das beschriebene ALADIN knock-down Modell in NCI-H295R1-Zellen ist ein wichtiges in vitro Werkzeug, um die Pathogenese der Nebennierenveränderungen im Triple-A-Syndrom zu erforschen.
Neue Interaktionspartner von ALADIN wurden mit Hilfe von Co-Immunpräzipitation gefolgt von Proteom-Analysen durch Massenspektrometrie in einem GFP-ALADIN Überexpressionsmodell in NCI-H295R charakterisiert. Die Ergebnisse wurden durch Experimente auf endogenem Niveau in NCI-H295R-Wildtypzellen verifiziert. Mit diesen Daten wird in dieser Arbeit erstmals eine Interaktion zwischen ALADIN und dem Flavoprotein Cytochrom P450 Oxidoreduktase und Progesterone Receptor Membrane Compartment 2 nachgewiesen. Diese Ergebnisse wurden mit Co-Lokalisierungsanalysen durch Immunfluoreszenzfärbung von ALADIN und Cytochrome P450 Oxidoreduktase ergänzt. Außerdem gibt die Arbeit Hinweise darauf, dass ALADIN als Nukleoporin an dem nuklearen Export mitochondrialer Vorläuferproteine beteiligt ist.
Die Regulation der Steroidogenese in der Nebennierenrinde ist komplex und es existieren zahlreiche Hinweise darauf, dass oxidativer Stress aufgrund der Ansammlung reaktiver Sauerstoffradikale und. dass die Mitochondrien involviert sind. Außerdem ist ein funktionelles Zusammenspiel verschiedener Organellen, darunter Nukleus, ER und Mitochondrien, von großer Bedeutung. Das Ziel dieser Arbeit war die Identifizierung der Funktion von ALADIN in der zellulären oxidativen Stressantwort und die möglichen Konsequenzen für die Steroidogenese in der Nebennierenrinden in Triple-A-Syndrom-Patienten.
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