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Dictyostelium als Wirtsmodell und Funktionsanalyse des Virulenzfaktors Mip aus Legionella pneumophila / Dictyostelium as Host Model and Funktion Analysis of the Virulence Faktor Mip out of Legionella pneumophilaWagner, Carina January 2004 (has links) (PDF)
Legionella pneumophila wurde erstmals 1977 beschrieben, nachdem der Erreger aus dem Lungengewebe eines Patienten isoliert wurde, der an einer schweren atypischen Pneumonie erkrankt war. Das Bakterium zeichnet sich durch ein duales Wirtssystem aus und kann sich sowohl in Protozoen als auch in humanen Zellen vermehren. Ein Ziel dieser Arbeit war es, wichtige Faktoren einer Legionelleninfektion seitens der Wirtszelle zu betrachten. Als Wirtsmodell diente die soziale Amöbe Dictyostelium discoideum. Mit Hilfe eines von Patrick Farbrother (Universität Köln) etablierten Dictyostelium DNA-Microarrays mit 5906 genspezifischen Sonden, wurde die Genexpression von D. discoideum in Reaktion auf eine Infektion durch L. pneumophila untersucht. Zur Kontrolle dienten uninfizierte Zellen, und Zellen, die mit L. hackeliae bzw. einer dotA-Mutante von L. pneumophila koinkubiert wurden. Diese beiden Stämme weisen eine verminderte Pathogenität bzw. ein deletiertes Pathogenitätsgen auf. Für den Zeitpunkt 24 h nach Infektionsbeginn wurden 140 Gene gefunden, die in D. discoideum in Reaktion auf eine Infektion mit L. pneumophila differentiell exprimiert werden. Einige Gene codieren bereits bekannte Proteine von D. discoideum. Dazu gehören das RtoA (ratioA, Fusion von Vesikeln), Discoidin I, CotB (spore coat Protein SP70) und die lysosomale α-Mannosidase. Mit Hilfe von Homologie-Suchen konnte weiteren unbekannten Proteinen eine Funktion zugeteilt werden. Hierzu zählen die Chaperone ClpB (heat shock protein Hsp104), β’-COP (coat protein) und drei calciumbindende Proteine. Nach Einteilung in funktionelle Kategorien, konnte gezeigt werden, dass viele Gene reguliert werden, deren Produkte am Aminosäure-Metabolismus beteiligt sind oder bei denen es sich um ribosomale Proteine handelt. Des Weiteren wurde in dieser Arbeit das Nramp-Protein von D. discoideum näher untersucht. Nramp transportiert zweiwertige Kationen über die phagosomale Membran. Es konnte festgestellt werden, dass die Aufnahme von L. pneumophila und M. avium in eine nramp-Mutante deutlich reduziert ist. Allerdings ist eine vermehrte Replikation von Legionellen und Mykobakterien in der Wirtsmutante zu beobachten. In Zusammenarbeit mit Salvatore Bozzaro (Turin, Italien) konnte gezeigt werden, dass während einer Infektion mit L. pneumophila die nramp-Expression sinkt und bereits nach 48 h annähernd keine nramp-RNA im Northern-Blot nachweisbar ist. Im Gegensatz dazu bleibt die nramp-Expression während einer Infektion mit M. avium relativ konstant. In Infektionsstudien konnte nachgewiesen werden, dass sich die Endozytobionten TUME1, UWE25 und UWC6 in D. discoideum vermehren können. Mit Hilfe von spezifischen Cy3-markierten 16S-rRNA Sonden wurde die intrazelluläre Zunahme der Bakterien über 48 h beobachtet. Zum Zeitpunkt 48 h nach Inokulation konnte eine erhöhte Anzahl der drei Endozytobionten in D. discoideum festgestellt werden. Anhand von elektronenmikro-skopischen Aufnahmen konnte gezeigt werden, dass die Stämme TUME1 und UWE25 im Zytoplasma des Wirtes von membranösen Strukturen eng umschlossen sind. UWC6 konnte sowohl in Vakuolen als auch frei im Zytoplasma nachgewiesen werden. Die Lokalisierung der Endozytobionten entspricht ihrer Lokalisierung in ihren natürlichen Wirten. Ein weiteres Ziel dieser Arbeit war die Funktionsanalyse des Mip-Proteins aus L. pneumophila. Das Mip-Protein von Legionella gehört in die Klasse der FK506-Bindeproteine. Es besitzt Peptidyl-Prolyl cis/trans Isomeraseaktivität und bildet Homodimere. Mip kann an die extrazelluläre Matrix von Lungenepithelzellen binden, speziell an das Collagen IV. Mit Hilfe von Transwell-Versuchen konnte festgestellt werden, dass Mip für die Penetration von Legionella durch eine Barriere aus Lungenepithelzellen verantwortlich ist. Die Penetrationsfähigkeit konnte nach Hemmung der PPIase-Aktivität durch FK506 bzw. Rapamycin gehemmt werden. Ebenso waren Legionellen nach Hemmung der Serinproteaseaktivitäten im Transwell-System nicht mehr in der Lage die Barriere aus Epithelzellen mit extrazellulärer Matrix zu durchwandern. Mit Hilfe von Degradationsassays mit S35-markierter extrazellulärer Matrix konnte gezeigt werden, dass mip-positive Legionellen extrazelluläre Matrix degradieren können. Nach Hemmung der PPIase-Aktivität bzw. Serinproteaseaktivität konnten mip-positive Legionellen extrazelluläre Matrix nicht mehr degradieren. / The facultative intracellular bacterium Legionella pneumophila is the etiological agent of Legionnaire’s disease. It was first described in the year 1977 after isolation of the lung of a patient who had a severe atypical pneumonia. The bacterium possesses a dual host system and can replicate within protozoa and human cells. The main focus of this work was to identify host cell factors which are important during Legionella infection. As a host model system we used the social amoeba Dictyostelium discoideum. In cooperation with Patrick Farbrother (University of Cologne) who established a Dictyostelium DNA-microarray we have been able to investigate the gene expression of Dictyostelium during Legionella infection. The microarray consists of 5906 gene-specific probes representing about half the genome of D. discoideum. As controls we isolated RNA from uninfected cells and cells after coincubation with L. hackeliae as well as a dotA-mutant of L. pneumophila. Both are Legionella strains with reduced pathogenicity and a deleted pathogenicity gene respectively. Approximately 24 h after infection we identified 140 differentially expressed D. discoideum genes. Some of these genes encode well characterised D. discoideum proteins like RtoA (ratioA, vesicle fusion protein), Discoidin I, CotB (spore coat protein SP70) and the lysosomal α-Mannosidase. By homology searches the functions of others could be assigned, like the chaperones ClpB (heat shock protein Hsp104), β’-COP (coat protein) and three calcium-binding proteins. When characterising the probes by cellular processes the alteration of gene expression was analysed on functional level. A lot of genes were regulated whose products are involved in nucleotid metabolism or that are ribosomal proteins. Furthermore we investigated the role of the Nramp-protein of D. discoideum. L. pneumophila as well as M. avium were more efficiently phagocytosized from wildtype Dictyostelium than from nramp-mutants. In contrast to phagocytosis, the replication rate of both bacteria was much higher in the mutant than in the wildtype. In cooperation with Salvatore Bozzaro (Turin, Italy) we have been able to show a decrease of nramp-expression during infection with Legionella. Approximately 48 h after infection virtually no nramp-RNA was detectable by northern blots. In contrast to these results, the nramp-expression was nearly constant during an infection by Mycobacteria. By infection studies it was shown that the endocytobionts TUME1 UWE25 and UWC6 were able to replicate within D. discoideum. The intracellular increase of the bacteria within 48 h was detected by fluorescent in situ hybridisation with specific Cy3-labeled 16S-rRNA probes. By means of electron micrographs we were able to show that the strains TUME1 and UWE25 resided within the host cytoplasm closely surrounded by membranous structures. UWC6 was found in vacuoles as well as in the cytoplasm. Localisation of the endocytobionts corresponds to their localisation in their natural hosts. A further aim of this work was to investigate the function of the L. pneumophila Mip-protein. The Mip-protein of Legionella belongs to the FK506 binding proteins. Mip exhibits peptidyl-prolyl cis/trans isomerase activity and creates homodimers. We showed that mip binds to the extracellular matrix of lung epithelial cells especially to collagen IV. By using the transwell-system we demonstrated that Mip is responsible for Legionella penetrating a barrier of lung epithelial cells and their extracellular matrix. After blocking the PPIase-activity by FK506 or Rapamycin, the ability of Legionella-penetration was dramatically reduced. Also after inhibition of serinprotease-activities in the transwell-system, Legionella was not able to penetrate through the barrier. Degradation-assays with S35-labeled extracellular matrix indicated that mip-positive Legionella are able to degrade extracellular matrix. After inhibiting the PPIase-activity or serinprotease-activities mip-positive Legionella were no longer able to degrade extracellular matrix.
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Untersuchung der Legionella-Infektion in der genetisch manipulierbaren Amöbe Dictyostelium discoideum / Analysis of the Legionella infection in the modelorganism Dictyostelium discoideum.Fajardo-Moser, Marcela January 2006 (has links) (PDF)
Die haploide Amöbe Dictyostelium discoideum hat sich als geeinet erwiesen für die Untersuchung der zellulären Aspekte der Legionella Infektion. Nach der Aufnahme befindet sich L. pneumophila innerhalb eines unreifen Phagosoms das weder angesäuert wird noch mit Lysosomen fusioniert. In dieser Studie wurden die Wirtzellfaktoren untersucht, die Legionella eine erfolgreiche Kolonizierung des Wirt ermöglichen. Phagozytoseversuche mit spezifischen zellulären Inhibitoren und die Analyse der Aufnahme in definierten Wirtzell-Mutanten haben gezeigt, daß das zytoplasmatische Kalziumniveau, Zytoskelettproteine und die Kalzium-bindenden Proteine des ERs, Calreticulin und Calnexin, spezifisch die Aufnahme und das intrazelluläre Wachstum von L. pneumophila beeinflussen. Mikroskopisches Untersuchungen mit GFP-markierten Calnexin und Calreticulin haben gezeigt, dass beide Proteine spezifisch in den "phagocytic cups" der L. pneumophila-infizierten Wirtszellen akkumulieren. Beide Proteine umhüllten die replikative Vakuole von L. pneumophila während der gesamten Replikation des Bakteriums. Die kumulativen Effekte intrazellulären Kalziumniveaus, die räumliche Verteilung von Calnexin und Calreticulin und die Defekte Aufnahme und intrazelluläre Vermehrung von L. pneumophila im Calnexin- und Calreticulin-minus der Zellen deuten darauf hin, daß diese Faktoren ein Teil des Regulationssystems sind, der zu der Bildung der spezifische Vakuole von L. pneumophila führt. / The haploid amoeba Dictyostelium discoideum is a versatile host system for studying cellular aspects of Legionella pathogenicity. Previous studies have shown that the internalization of L. pneumophila leads to an endoplasmic reticulum (ER)-derived organelle that supports intracellular replication of the bacteria. In this study a roadmap of host-cell factors involved in this process was developed. Phagocytosis assays with specific cellular inhibitors and the effects of well defined host-cell mutants revealed that cytoplasmic calcium levels, cytoskeleton-associated proteins and the calcium-binding proteins of the ER, calreticulin and calnexin, specifically influence the uptake and intracellular growth of L. pneumophila. Confocal microscopic time series with green fluorescent protein (GFP)-tagged calnexin and calreticulin demonstrated the accumulation of both proteins in the phagocytic cup of L. pneumophila-infected host cells. In contrast to the control experiment with Escherichia coli-containing phagosomes, both proteins decorated the replicative vacuole of L. pneumophila during the entire growth phase of the bacteria. The cumulative effects of cytosolic calcium levels, the spatial distribution of calnexin and calreticulin, and the defective invasion and replication of L. pneumophila in calnexin- and calreticulin-minus cells suggest that these factors are part of a regulatory system that leads to the specific vacuole of L. pneumophila.
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Influence of Flow and Spatial Heterogeneities on Pattern Formation of Dictyostelium discoideumVidal, Estefania 26 April 2019 (has links)
No description available.
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A Computer Model of the Cellular Slime Mould Dictyostelium DiscoideumStevens, Roger P, n/a January 2002 (has links)
Excitable media are an important class of systems, examples of which include epidemics, predator-prey interactions, nervous systems, and heart muscle. Aggregating cellular slime moulds are an example of an excitable medium. The species of cellular slime mould Dictyostelium discoideum is an important model organism that many science laboratories use. Studying the aggregation of slime moulds increases knowledge about excitable media generally. One method of studying the aggregation of slime mould is to simulate theft behaviour on a computer model. This thesis presents the author's computer model of cellular slime mould Dictyostelium discoideum and the results of experiments carried out using the computer model. The experiments investigate the relation between the aggregation patterns and the various parameters of the model. These parameters are the density of artificial slime moulds, the acrasin threshold, the acrasin degradation rate, and the rate of acrasin secretion. Randomness has an effect on the aggregation patterns produced. Results of experiments are presented that examine the effect of randomness. Two forms of randomness are investigated: random secretion of acrasin by the artificial slime moulds; random initial reactivity of the artificial slime moulds. The computer model describes an artificial environment in which artificial slime mould amoebae interact with each other and their environment. Out of these individual interactions the global patterns that characterize slime mould aggregations emerge. The model facilitates the study of these individual interactions and hence the global patterns that emerge. The model and the experimental results described in this thesis contribute to the study of the aggregation phase of the life cycle of Dictyosteliuni discoideum. The author proposes mechanism that could underlie certain classes of aggregation patterns. These patterns include net-like aggregations and loop aggregations. The computer model presented in this thesis is successful in emulating the behaviour of the cellular slime mould Dictyostelium discoideum. In its present form the model is a useful tool to biologists. The results of experiments conducted with the model suggest mechanisms that may underlie certain pattern produced by living slime moulds. A result of particular interest is the initiation of the spiral wave pattern from a loop wave, which produces a loop aggregation.
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Characterization of the putative modulatory calcineurin-interacting protein in Dictyostelium discoideum /Joulaie, Roshanak. January 1900 (has links)
Thesis (M.Sc.)--York University, 20uu. Graduate Programme in Biology. / Typescript. Includes bibliographical references (leaves 105-113). Also available on the Internet. MODE OF ACCESS via web browser by entering the following URL:http://gateway.proquest.com/openurl?url%5Fver=Z39.88-2004&res%5Fdat=xri:pqdiss&rft%5Fval%5Ffmt=info:ofi/fmt:kev:mtx:dissertation&rft%5Fdat=xri:pqdiss:MQ99332
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Studies of the actin binding activity of Dictyostelium discoideum myosin II heavy chain kinase AKeener, Mary Elizabeth. January 1900 (has links)
Thesis (M.S.)--The University of North Carolina at Greensboro, 2008. / Directed by Paul Steimle; submitted to the Dept. of Biology. Title from PDF t.p. (viewed Mar. 19, 2010). Includes bibliographical references (p. 30-31).
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The regulation of expression of the cpbA gene during Dictyostelium developmentPun, Jason. January 1999 (has links)
Thesis (M. Sc.)--York University, 1999. Graduate Programme in Biology. / Typescript. Includes bibliographical references (leaves 88-96). Also available on the Internet. MODE OF ACCESS via web browser by entering the following URL: http://wwwlib.umi.com/cr/yorku/fullcit?pMQ39222.
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Study of LvsB in Dictyostelium discoideum provides insights into the Chediak-Higashi syndromeKypri, Elena, 1980- 29 August 2008 (has links)
The Chediak-Higashi Syndrome is a disorder affecting lysosome biogenesis. At the cellular level, the Chediak-Higashi syndrome is characterized by the presence of grossly enlarged lysosomes in every tissue. Impaired lysosomal function in CHS patients results in many physiological problems, including immunodeficiency, albinism and neurological problems. The Chediak-Higashi syndrome is caused by the loss of a BEACH protein of unknown function named Lyst. In this work, I have studied the function of the Dictyostelium LvsB protein, the ortholog of mammalian Lyst and a protein that is also important for lysosomal function. Using a knock-in approach we tagged LvsB with GFP and expressed it from its single chromosomal locus. GFP-LvsB was observed on endocytic and phagocytic compartments. Specific analysis of the endocytic compartments labeled by LvsB showed that they represented late lysosomes and postlysosomes. The analysis of LvsB-null cells revealed that loss of LvsB resulted in enlarged postlysosomes, in the abnormal localization of proton pumps on postlysosomes and their abnormal acidification. This work demonstrated that the abnormal postlysosomes in LvsB-null cells were produced by the inappropriate fusion of lysosomes with postlysosomal compartments. Furthermore, this work provided the first evidence that LvsB is a functional antagonist of the GTPase Rab14 in vesicle fusion events. In particular, we demonstrated that reduction of Rab14 activity suppressed the LvsB-null phenotype by reducing the enlarged post-lysosomes and the enhanced rate of heterotypic fusion. In contrast, expression of an active form of Rab14 enhanced the LvsB-null phenotype by causing an even more severe enlargement of endosome size. The results provided by this work support the model that LvsB and Lyst proteins act as negative regulators of fusion by limiting the heterotypic fusion of early with late compartments and antagonize Rab GTPases in membrane fusion. The LvsB localization studies and the functional assessment of the LvsB-null phenotype helped make unique contributions to the understanding of the molecular function of Lyst proteins.
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Contribution of AP2 and AP180 to clathrin function in Dictyostelium discoideumWen, Yujia, 1975- 23 March 2011 (has links)
AP2 complex protein is an essential clathrin adaptor protein during clathrin mediated endocytosis. However, this view has been challenged in simple organisms. To gain insight into this conflict, the role of AP2 in clathrin localization and other clathrin related processes were assessed in Dictyostelium discoideum. In Dictyostelium, deleting function AP2 caused mild phenotypes in clathrin membrane localization, cytokinesis, osmoregulation and cell development. This supported the idea that AP2 have significant roles in multicellular organisms but not in unicellular system. Clathrin mediated processes carries important function not only on the plasma membrane but also on some internal organelles. But clathrin coated vesicles on internal organelles are not as well studied as on the plasma membrane. To understand more of the clathrin coated vesicles on internal organelles, the clathrin coated vesicles on Dictyostelium discoideum contractile vacuole were studied. Contractile vacuole associated clathrin coated vesicles contained clathrin adaptor proteins AP2, AP180, and epsin but not Hip1r. The absence of AP180 or AP2 produced abnormal large vacuoles, but the absence of epsin did not cause any detectable contractile vacuole abnormality. The enlarged contractile vacuoles in AP180 minus cells were caused by excessive homotypic fusion among contractile vacuoles. Using both GST-pull down and immunostaining AP180 was identified as the possible adaptor protein for a contractile vacuole-associated SNARE protein, Vamp7B. Therefore recycling Vamp7B from contractile vacuole by AP180 through clathrin coated vesicles could be an efficient way to prevent excessive homotypic fusions among contractile vacuoles. Dictyostelium contractile vacuoles offer a valuable system to study clathrin coated vesicles on cell internal organelles. / text
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Study of LvsB in Dictyostelium discoideum provides insights into the Chediak-Higashi syndromeKypri, Elena, January 1900 (has links)
Thesis (Ph. D.)--University of Texas at Austin, 2007. / Vita. Includes bibliographical references.
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