TY  - THES
A1  - Blachutzik, Jörg O.
T1  - Visualisierung von Plasmamembran-Domänen in Arabidopsis thaliana
T1  - Visualization of plasma membrane domains in Arabidopsis thaliana
N2  - Unter Verwendung fluoreszenzmarkierter Remorine der taxonomischen Gruppe 1b wurden Nanodomänen in Arabidopsis Plasmamembranen (PM) unter Verwendung hoch auflösender Laser Scanning-Systeme sichtbar gemacht. In diesen kompartimentierten Membranbereichen lagerten sich Sterol-abhängige Remorine aus verschiedenen Pflanzen-familien zusammen und zeigten dort Kolokalisation. Dies wurde statistisch belegt durch hohe Pearson und Spearman Korrelationskoeffizienten. Remorine konnten schließlich als pflanzliche Markerproteine für kompartimentierte Membranbereiche etabliert werden. Die Nanodomänen zeigten zu keinem Zeitpunkt laterale Bewegungen in der PM und scheinen sowohl von zytoskelettären Strukturen als auch von Komponenten der Zellwand stabilisiert zu werden. Möglicherweise spielen transmembrane Tetraspanine sowie GPI-verankerte SKU5-Proteine eine Rolle bei der stabilen Verankerung. Für zwei native Arabidopsis Remorine wurden posttranslationale Modifikationsstellen aufgedeckt, die der Anheftung dieser hydrophilen Proteine an die PM dienen. Weiterhin scheinen gleichartige Remorine miteinander zu interagieren. Beispielsweise waren im Zytosol lokalisierte Remorin-Mutanten bei einer gleichzeitigen Expression der entsprechenden Vollängenproteine erneut an der PM zu finden. Für die Remorine wurde postuliert, dass sie mit anderen Proteinen interagieren und dabei makromolekulare Strukturen ausbilden. Den Remorinen könnte daher eine Aufgabe bei der molekularen Organisation pflanzlicher Membrandomänen zukommen, indem sie ein filamentartiges Netzwerk innerhalb distinkter Domänen ausbilden, das möglicherweise zur Stabilität und Aufrechterhaltung dieser spezialisierten Bereiche beiträgt. Unter Einbeziehung der STED-Mikroskopie wurde eine empirische Größenverteilung von 97±4nm Durchmesser für PM-ständige Domänen in Arabidopsis ermittelt. Hinsichtlich der physiologischen Relevanz konnte gezeigt werden, dass die Domänen eine Rolle bei der ABA-vermittelten, kalziumabhängigen Regulation des Anionenkanals SLAH3 einnehmen. SLAH3 wird durch kalziumabhängige Kinasen aus der CDPK-Familie aktiviert, im Speziellen durch CPK21 und CPK23. Beide Kinasen werden durch die ABA-sensitiven Phosphatasen ABI1 und ABI2 reguliert. Die spezifisch stattfindenden Interaktionen zwischen SLAH3 und CPK21, sowie zwischen CPK21 und ABI1 waren auf Nanodomänen beschränkt und wurden durch die Methodik der bimolekularen Fluoreszenzkomplementation erstmals in planta nachgewiesen, mit Remorinen der taxonomischen Gruppe 1b als etablierte Markerproteine für Membrandomänen.
N2  - In this work, membrane nanodomains have been visualized in planta via confocal microscopy of group 1b Remorin proteins fused to fluorescent proteins. Within these nanodomains, sterol-dependent Remorins originating from different plant species accumulated as shown by multiple color colocalization microscopy, and through which it was statistically verified by high Spearman and Pearson correlation coefficients. Thus, group 1b Remorins were established here as reliable marker proteins for plasma membrane (PM) nanodomains in plants. Since individual domains did not exhibit any kind of lateral movement within the plane of the membrane, a stabilization of them from cytoskeletal components as well as from components of the cell wall was presumed. Other proteins such as trans-membrane Tetraspanins and GPI-anchored proteins like SKU5 were ruled out as possible candidates being involved in the maintenance of domains´ lateral stability. For two Remorins originating from Arabidopsis thaliana, sites of posttranslational lipid modifications, which allow the proteins to anchor to the plasma membrane, were revealed. In experiments using truncated Remorins with these modification sites deleted, the mutant Remorins appeared to be no longer located at the PM but rather within the cytosol. Truncated Remorins re-appeared at the PM as soon as the full length Remorin proteins were co-expressed. In close proximity to the sites of lipid modifications a highly conserved C-terminal region, whose likely role is to facilitate homo-Remorin protein interactions, was uncovered. Therefore Remorins could possibly be involved in the molecular organization of a filamentous protein structure that could help mediate the stability and maintenance of individual domains. As well, the sizes of individual nanodomains were empirically measured in Arabidopsis thaliana mesophyll cells with STED microscopy, which allowed for optical measurements of domains with 60nm resolution, and were narrowly distributed in a histogram of domain diameters with an average diameter of 97 ± 4nm. One possible physiological role of PM-based nanodomains was demonstrated to be the ABA-mediated, calcium-dependent regulation of the SLAH3 anion channel. At the inception of the regulation, SLAH3 becomes activated upon phosphorylation by calcium-dependent protein kinases of the CDPK-family, CPK21 and CPK23. Both CPK´s in turn are regulated by the ABA-dependent phosphatases ABI1 and ABI2. As visualized by fluorescence colocalization microscopy for the first time, the interactions between SLAH3 and CPK21, as well as interactions between CPK21 and ABI1 were restricted to PM compartments. As well, these protein interactions were corroborated by also imaging them in planta using the bimolecular fluorescence complementation technique - involving group 1b Remorins as the established marker proteins for PM nanodomains.
KW  - Plasmamembran
KW  - Fluoreszmikroskopie
KW  - Ackerschmalwand
KW  - plasma membrane
KW  - fluorescence microscopy
KW  - Remorin
KW  - protoplasts
KW  - Protoplasten
Y1  - 2012
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-71925
ER  - 
TY  - THES
A1  - Schmithausen, Patrick Alexander Gerhard
T1  - Three-dimensional fluorescence image analysis of megakaryocytes and vascular structures in intact bone
T1  - Dreidimensionale Fluoreszenzbildanalyse von Megakaryozyten und Gefäßstrukturen in intaktem Knochen
N2  - The thesis provides insights in reconstruction and analysis pipelines for processing of
three-dimensional cell and vessel images of megakaryopoiesis in intact murine bone.
The images were captured in a Light Sheet Fluorescence Microscope. The work
presented here is part of Collaborative Research Centre (CRC) 688 (project B07) of
the University of Würzburg, performed at the Rudolf-Virchow Center. Despite ongoing
research within the field of megakaryopoiesis, its spatio-temporal pattern of
megakaryopoiesis is largely unknown. Deeper insight to this field is highly desirable to
promote development of new therapeutic strategies for conditions related to
thrombocytopathy as well as thrombocytopenia. The current concept of
megakaryopoiesis is largely based on data from cryosectioning or in vitro studies
indicating the existence of spatial niches within the bone marrow where specific stages
of megakaryopoiesis take place. Since classic imaging of bone sections is typically
limited to selective two-dimensional views and prone to cutting artefacts, imaging of
intact murine bone is highly desired. However, this has its own challenges to meet,
particularly in image reconstruction. Here, I worked on processing pipelines to account
for irregular specimen staining or attenuation as well as the extreme heterogeneity of
megakaryocyte morphology. Specific challenges for imaging and image reconstruction
are tackled and solution strategies as well as remaining limitations are presented and
discussed. Fortunately, modern image processing and segmentation strongly benefits
from continuous advances in hardware as well as software-development. This thesis
exemplifies how a combined effort in biomedicine, computer vision, data processing
and image technology leads to deeper understanding of megakaryopoiesis. Tailored
imaging pipelines significantly helped elucidating that the large megakaryocytes are
broadly distributed throughout the bone marrow facing a surprisingly dense vessel
network. No evidence was found for spatial niches in the bone marrow, eventually
resulting in a revised model of megakaryopoiesis.
N2  - Im Rahmen dieses Dissertationsvorhabens wurden Segmentierungs- und
Auswertepipelines dreidimensionaler Bilder von Zellen und Gefäßen im intakten
Mausknochen erarbeitet. Die Bilder entstanden durch Fluoreszenzaufnahmen eines
Lichtblattmikroskops. Das Dissertationsvorhaben war Teil des
Sonderforschungsbereichs 688 (Teilprojekts B07) der Universität Würzburg und es
wurde am Rudolf-Virchow-Zentrum durchgeführt. Trotz einer Vielzahl aktueller
Forschungsprojekte auf dem Gebiet der Megakaryopoese sind Erkenntnisse über
deren räumlich-zeitliche Zusammenhänge größtenteils unbekannt. Neuere
wissenschaftliche Erkenntnisse auf diesem Gebiet wären insbesondere hilfreich für die
Weiterentwicklung von Behandlungsstrategien für Patienten, die an
Thrombozytopenien oder Thrombozytopathien leiden. Das aktuell vorherrschende
Modell zur Erklärung der Megakaryopoese geht von der Existenz räumlicher Nischen
im Knochenmark aus, in denen sich die einzelnen Schritte der Megakaryopoese
vollziehen. Dieses Modell basiert hauptsächlich auf Auswertungen von
Gefrierschnitten sowie in-vitro Experimenten. Da die klassische Bildgebung von
Knochenschnitten nur auf eine bestimmte Anzahl zweidimensionaler Schnitte begrenzt
ist und deren Qualität unter Schnittartefakten leidet, ist die Bildgebung des intakten
Knochens von besonderem Interesse. Dennoch führt dies zu neuen
Herausforderungen im Bereich der Bilddatenauswertung. Im vorliegenden
Dissertationsvorhaben beschäftige ich mich in diesem Bereich mit der Erarbeitung von
Auswerteprotokollen, welche beispielsweise den Einfluss unregelmäßiger Färbungen
oder Signalabschwächungen sowie die extreme Heterogenität der
Megakaryozytenmorphologie berücksichtigen. Spezifische Herausforderungen für die
Bildgebung und Bildrekonstruktion werden in Angriff genommen und
Lösungsstrategien sowie verbleibende Einschränkungen werden vorgestellt und
diskutiert. Erfreulicherweise profitieren insbesondere die moderne Bildbearbeitung
sowie die Objekterkennung in großem Ausmaß von fortlaufenden Entwicklungen aus
dem Hard- sowie Softwarebereich. Dieses Dissertationsvorhaben zeigt auf
exemplarische Art und Weise auf, wie gemeinsame Forschungsanstrengungen im
Bereich der Biomedizin, des Maschinellen Sehens, der Datenverarbeitung sowie der
Bildtechnologie zu einem tieferen Verständnis der Megakaryopoese führen. Die
maßgeschneiderten Pipelines zur Bilddatenauswertung stützten letztlich die These,
dass größere Megakaryozyten im Knochenmark breit verteilt sind und von einem überraschend dichten Gefäßnetz umgeben sind. Beweise für die Existenz räumlicher
Nischen im Knochenmark konnten nicht gefunden warden. Dieses führte schließlich
zur Vorstellung eines überarbeiteten Modells der Megakaryopoese.
KW  - Megakaryozytopoese
KW  - Fluoreszenzmikroskopie
KW  - Megakaryozyt
KW  - Lichtscheibenmikroskopie
KW  - Bildverarbeitung
KW  - lightsheet microscopy
KW  - megakaryopoiesis
KW  - fluorescence microscopy
KW  - intact bone imaging
KW  - object segmentation
KW  - Lichtblattmikroskopie
KW  - Bildbearbeitung
KW  - Megakaryopoese
KW  - Bildgebung intakten Knochens
Y1  - 2019
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-178541
ER  - 
TY  - JOUR
A1  - Dotterweich, Julia
A1  - Tower, Robert J.
A1  - Brandl, Andreas
A1  - Müller, Marc
A1  - Hofbauer, Lorenz C.
A1  - Beilhack, Andreas
A1  - Ebert, Regina
A1  - Glüer, Claus C.
A1  - Tiwari, Sanjay
A1  - Schütze, Norbert
A1  - Jakob, Franz
T1  - The KISS1 Receptor as an In Vivo Microenvironment Imaging Biomarker of Multiple Myeloma Bone Disease
JF  - PLoS One
N2  - Multiple myeloma is one of the most common hematological diseases and is characterized by an aberrant proliferation of plasma cells within the bone marrow. As a result of crosstalk between cancer cells and the bone microenvironment, bone homeostasis is disrupted leading to osteolytic lesions and poor prognosis. Current diagnostic strategies for myeloma typically rely on detection of excess monoclonal immunoglobulins or light chains in the urine or serum. However, these strategies fail to localize the sites of malignancies. In this study we sought to identify novel biomarkers of myeloma bone disease which could target the malignant cells and/or the surrounding cells of the tumor microenvironment. From these studies, the KISS1 receptor (KISS1R), a G-protein-coupled receptor known to play a role in the regulation of endocrine functions, was identified as a target gene that was upregulated on mesenchymal stem cells (MSCs) and osteoprogenitor cells (OPCs) when co-cultured with myeloma cells. To determine the potential of this receptor as a biomarker, in vitro and in vivo studies were performed with the KISS1R ligand, kisspeptin, conjugated with a fluorescent dye. In vitro microscopy showed binding of fluorescently-labeled kisspeptin to both myeloma cells as well as MSCs under direct co-culture conditions. Next, conjugated kisspeptin was injected into immune-competent mice containing myeloma bone lesions. Tumor-burdened limbs showed increased peak fluorescence compared to contralateral controls. These data suggest the utility of the KISS1R as a novel biomarker for multiple myeloma, capable of targeting both tumor cells and host cells of the tumor microenvironment.
KW  - multiple myeloma Lesions
KW  - fluorescence microscopy
KW  - biomarkers Myelomas
KW  - bone imaging
KW  - myeloma cells
KW  - fluorescent dyes
Y1  - 2016
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-146960
VL  - 11
IS  - 5
ER  - 
TY  - JOUR
A1  - Simsekyilmaz, Sakine
A1  - Liehn, Elisa A.
A1  - Weinandy, Stefan
A1  - Schreiber, Fabian
A1  - Megens, Remco T. A.
A1  - Theelen, Wendy
A1  - Smeets, Ralf
A1  - Jockenhövel, Stefan
A1  - Gries, Thomas
A1  - Möller, Martin
A1  - Klee, Doris
A1  - Weber, Christian
A1  - Zernecke, Alma
T1  - Targeting In-Stent-Stenosis with RGD- and CXCL1-Coated Mini-Stents in Mice
JF  - PLoS ONE
N2  - Atherosclerotic lesions that critically narrow the artery can necessitate an angioplasty and stent implantation. Long-term therapeutic effects, however, are limited by excessive arterial remodeling. We here employed a miniaturized nitinol-stent coated with star-shaped polyethylenglycole (star-PEG), and evaluated its bio-functionalization with RGD and CXCL1 for improving in-stent stenosis after implantation into carotid arteries of mice. Nitinol foils or stents (bare metal) were coated with star-PEG, and bio-functionalized with RGD, or RGD/CXCL1. Cell adhesion to star-PEG-coated nitinol foils was unaltered or reduced, whereas bio-functionalization with RGD but foremost RGD/CXCL1 increased adhesion of early angiogenic outgrowth cells (EOCs) and endothelial cells but not smooth muscle cells when compared with bare metal foils. Stimulation of cells with RGD/CXCL1 furthermore increased the proliferation of EOCs. In vivo, bio-functionalization with RGD/CXCL1 significantly reduced neointima formation and thrombus formation, and increased re-endothelialization in apoE\(^{-/-}\) carotid arteries compared with bare-metal nitinol stents, star-PEG-coated stents, and stents bio-functionalized with RGD only. Bio-functionalization of star-PEG-coated nitinol-stents with RGD/CXCL1 reduced in-stent neointima formation. By supporting the adhesion and proliferation of endothelial progenitor cells, RGD/CXCL1 coating of stents may help to accelerate endothelial repair after stent implantation, and thus may harbor the potential to limit the complication of in-stent restenosis in clinical approaches.
KW  - carotid arteries
KW  - polymers
KW  - stent implantation
KW  - coatings
KW  - endothelial cells
KW  - mice
KW  - fluorescence microscopy
KW  - stem cells
Y1  - 2016
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-179745
VL  - 11
IS  - 5
ER  - 
TY  - JOUR
A1  - Laine, Romain F.
A1  - Albecka, Anna
A1  - van de Linde, Sebastian
A1  - Rees, Eric J.
A1  - Crump, Colin M.
A1  - Kaminski, Clemens F.
T1  - Structural analysis of herpes simplex virus by optical super-resolution imaging
JF  - Nature Communications
N2  - Herpes simplex virus type-1 (HSV-1) is one of the most widespread pathogens among humans. Although the structure of HSV-1 has been extensively investigated, the precise organization of tegument and envelope proteins remains elusive. Here we use super-resolution imaging by direct stochastic optical reconstruction microscopy (dSTORM) in combination with a model-based analysis of single-molecule localization data, to determine the position of protein layers within virus particles. We resolve different protein layers within individual HSV-1 particles using multi-colour dSTORM imaging and discriminate envelope-anchored glycoproteins from tegument proteins, both in purified virions and in virions present in infected cells. Precise characterization of HSV-1 structure was achieved by particle averaging of purified viruses and model-based analysis of the radial distribution of the tegument proteins VP16, VP1/2 and pUL37, and envelope protein gD. From this data, we propose a model of the protein organization inside the tegument.
KW  - tegument protein pUL36
KW  - fluorescence microscopy
KW  - monoclonal antibodies
KW  - 3-dimensional structure
KW  - type-1
KW  - nuclear pore complex
KW  - reconstruction microscopy
KW  - localization microscopy
KW  - resolution
KW  - envelopment
Y1  - 2015
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-144623
VL  - 6
IS  - 5980
ER  - 
TY  - JOUR
A1  - Schneider, Johannes
A1  - Klein, Teresa
A1  - Mielich-Süss, Benjamin
A1  - Koch, Gudrun
A1  - Franke, Christian
A1  - Kuipers, Oskar P.
A1  - Kovács, Ákos T.
A1  - Sauer, Markus
A1  - Lopez, Daniel
T1  - Spatio-temporal Remodeling of Functional Membrane Microdomains Organizes the Signaling Networks of a Bacterium
JF  - PLoS Genetics
N2  - Lipid rafts are membrane microdomains specialized in the regulation of numerous cellular processes related to membrane organization, as diverse as signal transduction, protein sorting, membrane trafficking or pathogen invasion. It has been proposed that this functional diversity would require a heterogeneous population of raft domains with varying compositions. However, a mechanism for such diversification is not known. We recently discovered that bacterial membranes organize their signal transduction pathways in functional membrane microdomains (FMMs) that are structurally and functionally similar to the eukaryotic lipid rafts. In this report, we took advantage of the tractability of the prokaryotic model Bacillus subtilis to provide evidence for the coexistence of two distinct families of FMMs in bacterial membranes, displaying a distinctive distribution of proteins specialized in different biological processes. One family of microdomains harbors the scaffolding flotillin protein FloA that selectively tethers proteins specialized in regulating cell envelope turnover and primary metabolism. A second population of microdomains containing the two scaffolding flotillins, FloA and FloT, arises exclusively at later stages of cell growth and specializes in adaptation of cells to stationary phase. Importantly, the diversification of membrane microdomains does not occur arbitrarily. We discovered that bacterial cells control the spatio-temporal remodeling of microdomains by restricting the activation of FloT expression to stationary phase. This regulation ensures a sequential assembly of functionally specialized membrane microdomains to strategically organize signaling networks at the right time during the lifespan of a bacterium.
KW  - membrane proteins
KW  - gene expression
KW  - bacillus subtilis
KW  - fluorescence microscopy
KW  - cell fusion
KW  - signal transduction
KW  - gene regulation
KW  - lipids
Y1  - 2015
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-125577
VL  - 11
IS  - 4
ER  - 
TY  - JOUR
A1  - Weibel, Stephanie
A1  - Basse-Luesebrink, Thomas Christian
A1  - Hess, Michael
A1  - Hofmann, Elisabeth
A1  - Seubert, Carolin
A1  - Langbein-Laugwitz, Johanna
A1  - Gentschev, Ivaylo
A1  - Sturm, Volker Jörg Friedrich
A1  - Ye, Yuxiang
A1  - Kampf, Thomas
A1  - Jakob, Peter Michael
A1  - Szalay, Aladar A.
T1  - Imaging of Intratumoral Inflammation during Oncolytic Virotherapy of Tumors by \(^{19}\)F-Magnetic Resonance Imaging (MRI)
JF  - PLoS ONE
N2  - Background
Oncolytic virotherapy of tumors is an up-coming, promising therapeutic modality of cancer therapy. Unfortunately, non-invasive techniques to evaluate the inflammatory host response to treatment are rare. Here, we evaluate \(^{19}\)F magnetic resonance imaging (MRI) which enables the non-invasive visualization of inflammatory processes in pathological conditions by the use of perfluorocarbon nanoemulsions (PFC) for monitoring of oncolytic virotherapy.

Methodology/Principal Findings
The Vaccinia virus strain GLV-1h68 was used as an oncolytic agent for the treatment of different tumor models. Systemic application of PFC emulsions followed by \(^1H\)/\(^{19}\)F MRI of mock-infected and GLV-1h68-infected tumor-bearing mice revealed a significant accumulation of the \(^{19}\)F signal in the tumor rim of virus-treated mice. Histological examination of tumors confirmed a similar spatial distribution of the \(^{19}\)F signal hot spots and \(CD68^+\)-macrophages. Thereby, the \(CD68^+\)-macrophages encapsulate the GFP-positive viral infection foci. In multiple tumor models, we specifically visualized early inflammatory cell recruitment in Vaccinia virus colonized tumors. Furthermore, we documented that the \(^{19}\)F signal correlated with the extent of viral spreading within tumors.

Conclusions/Significance
These results suggest \(^{19}\)F MRI as a non-invasive methodology to document the tumor-associated host immune response as well as the extent of intratumoral viral replication. Thus, \(^{19}\)F MRI represents a new platform to non-invasively investigate the role of the host immune response for therapeutic outcome of oncolytic virotherapy and individual patient response.
KW  - inflammation
KW  - fluorescence microscopy
KW  - oncolytic viruses
KW  - fluorescence imaging
KW  - macrophages
KW  - magnetic resonance imaging
KW  - histology
KW  - in vivo imaging
Y1  - 2013
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-130311
VL  - 8
IS  - 3
ER  - 
TY  - JOUR
A1  - Götz, Ralph
A1  - Panzer, Sabine
A1  - Trinks, Nora
A1  - Eilts, Janna
A1  - Wagener, Johannes
A1  - Turrà, David
A1  - Di Pietro, Antonio
A1  - Sauer, Markus
A1  - Terpitz, Ulrich
T1  - Expansion Microscopy for Cell Biology Analysis in Fungi
JF  - Frontiers in Microbiology
N2  - Super-resolution microscopy has evolved as a powerful method for subdiffraction-resolution fluorescence imaging of cells and cellular organelles, but requires sophisticated and expensive installations. Expansion microscopy (ExM), which is based on the physical expansion of the cellular structure of interest, provides a cheap alternative to bypass the diffraction limit and enable super-resolution imaging on a conventional fluorescence microscope. While ExM has shown impressive results for the magnified visualization of proteins and RNAs in cells and tissues, it has not yet been applied in fungi, mainly due to their complex cell wall. Here we developed a method that enables reliable isotropic expansion of ascomycetes and basidiomycetes upon treatment with cell wall degrading enzymes. Confocal laser scanning microscopy (CLSM) and structured illumination microscopy (SIM) images of 4.5-fold expanded sporidia of Ustilago maydis expressing fluorescent fungal rhodopsins and hyphae of Fusarium oxysporum or Aspergillus fumigatus expressing either histone H1-mCherry together with Lifeact-sGFP or mRFP targeted to mitochondria, revealed details of subcellular structures with an estimated spatial resolution of around 30 nm. ExM is thus well suited for cell biology studies in fungi on conventional fluorescence microscopes.
KW  - Expansion microscopy
KW  - fluorescence microscopy
KW  - fungi
KW  - sporidia
KW  - hyphae
Y1  - 2020
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-202569
SN  - 1664-302X
VL  - 11
ER  - 
TY  - THES
A1  - Köhler, Rolf
T1  - Entwicklung eines GFP-Reportersystems in Legionella und molekularbiologische Funktionsanalyse des Legionella Mip-Proteins
T1  - Development of a GFP-Reportersystems in Legionella and molecular analysis of the Legionella Mip-protein
N2  - Das fakultativ intrazelluläre Bakterium Legionella pneumophila wurde erstmals 1977 als Erreger der Legionellose, einer schweren atypisch verlaufenden Pneumonie identifiziert. Es besitzt ein duales Wirtssystem und kann sich sowohl in aquatischen Habitaten in Protozoen als auch in phagozytierenden Humanzellen als Pathogen vermehren. Zur Analyse der komplexen Interaktion zwischen Pathogen und Wirtszelle wurde in dieser Arbeit ein GFP (Green Fluorescent Protein)-Reportersystem etabliert und erfolgreich eingesetzt. Es erlaubt ein in vivo Monitoring von Legionella Infektionen und ermöglicht die schnelle Quantifizierung bakterieller Invasion in Wirtszellen in Abhängigkeit von verschiedenen Faktoren. Zur Etablierung der GFP-vermittelten Fluoreszenz wurde eine transkriptionelle Fusion des gfpmut2-Gens mit dem Legionella spezifischen mip ("macrophage infectivity potentiator")-Promoter (Pmip) konstruiert. Zusätzlich wurde ein Vektor mit dem von Listeria stammenden sod ("super oxid dismutase")-Promoter eingesetzt. Mit diesen Vektoren transformierte Legionella-Stämme zeigten nach entsprechender Anregung eine starke Grünfluoreszenz und belegen somit erstmals die Funktionalität von GFP in Legionella. Durch den Einsatz von Fluoreszenzmikroskopie, Spektrofluorimetrie und Durchflusszytometrie (FACS-Analyse) wurden die Stämme hinsichtlich der Unterschiede in der Virulenz und der intrazellulären Vermehrung untersucht. Ergebnisse, die durch die zeitaufwendige Bestimmung von CFU-Werten ermittelt wurden, konnten verifiziert und damit die Validität des GFP-Reportersystems in Legionella bestätigt werden. Quantitative Analysen der mip-Promoteraktivität belegen die konstitutive Expression und zeigen, dass Unterschiede in der Virulenz nicht auf variierende mip-Promoteraktivität zurückzuführen sind. Darüber hinaus konnte der Einfluss verschiedener Phagozytose-Inhibitoren auf die Aufnahme von Legionellen in die Protozoenwirte Acanthamoeba castellanii und Hartmannella vermiformis mittels des GFP-Reportersystems quantifiziert und qualitativ bewertet werden. Durch die Verwendung des Inhibitors Cytochalasin D konnte ein Einfluss Mikrofilament-abhängiger Phagozytose auf die Aufnahme in H. vermiformis und A. castellanii ausgeschlossen werden. Wie in Inhibitionsstudien mit Cycloheximid und Methylamin bestätigt werden konnte, erfolgt die Phagozytose in H. vermiformis wahrscheinlich vorwiegend über Rezeptor-vermittelte-Endozytose. Dem Protozoenwirt A. castellanii stehen dagegen zusätzliche Möglichkeiten der bakteriellen Internalisierung zur Verfügung. Diese Ergebnisse bestätigen die postulierte Heterogenität der Aufnahme-Mechanismen innerhalb verschiedener Protozoenwirte. Nach erfolgter Phagozytose von L. pneumophila wird der endosomale Weg der Phagolysosom- Reifung blockiert, hierfür wird die Sekretion bislang unbekannter Effektoren verantwortlich gemacht. Durch die Konstruktion von C-terminalen Mip::GFP-Fusionsproteinen sollte die Detektion einer eventuellen Translokation des Mip-Proteins als Virulenzfaktor innerhalb der Wirtszelle ermöglicht werden. Die erzeugten Fusionsproteine waren wahrscheinlich aufgrund der homodimeren Mip-Struktur instabil und wurden nicht über die Cytoplasmamembran hinweg transportiert. Sie erwiesen sich daher als nicht geeignet, dieser Fragestellung weiter nachzugehen. Da die in vivo Funktion von PPIasen (Peptidyl-Prolyl-cis/trans-Isomerasen) wie dem Mip-Protein in Prokaryoten bis heute weitgehend unbekannt ist, sollte im zweiten Teil dieser Arbeit versucht werden, einen Interaktionspartner zu identifizieren und den Einfluss der Dimerisierung und der PPIase-Aktivität des Mip-Proteins auf die Virulenz von L. pneumophila zu untersuchen. Durch Quervernetzung-Experimente konnte ein putativer, prokaryotischer Interaktionspartner des Legionella Mip-Proteins detektiert werden. Die N-terminale Aminosäure-Sequenzierung ergab jedoch keinerlei Homologie zu bereits bekannten Legionella- oder anderen Proteinen. Es kann nicht ausgeschlossen werden, dass eine N-terminale Blockierung die Aufklärung der Sequenz ursächlich verhindert. Wie in früheren Arbeiten gezeigt wurde, ist die PPIase-Aktivität des Legionella Mip-Proteins für die Invasion und das intrazelluläre Überleben in Protozoen, Monozyten und der Makrophagen-ähnlichen Zelllinie U937 nicht notwendig. Ein weiteres Charakteristikum des Proteins ist seine homodimere Struktur und die Assoziation mit der äußeren Membran. In Kooperation mit der Arbeitsgruppe von Prof. Dr. G. Fischer in Halle konnte durch Deletion der N-terminalen Domäne (AS 4-79) ein verkürztes Dimer-defizientes Legionella Mip-Protein (L.p.FKBP-20-3, 80-213) erzeugt und biochemisch charakterisiert werden. Durch site-spezifische Mutagenese N-terminal lokalisierter Aminosäuren (K11A/D32A, Y16A/D32A und M38,42E) konnte deren Beteiligung an der Dimerisierung nachgewiesen werden. Zur Analyse des Einflusses der dimeren Ouartärstruktur auf die Pathogenität wurde ein mip-negativer Stamm mit dem nur noch als Monomer vorliegenden Mip-Protein (L.p.FKBP-20-3, 80-213) in cis komplementiert und die Expression sowie Integration in L. pneumophila PhilI JR32-2.4 verifiziert. Ergebnisse aus Infektionsstudien zeigten deutlich, dass die Dimerisierung des Legionella Mip-Proteins und nicht die Isomerase-Aktivität für die Infektion von monozellulären Systemen entscheidend ist. Im Gegensatz dazu konnte in Tierexprimenten (Meerschweinchen) die Beteiligung der Isomerase-Aktivität an der Pathogenität von L. pneumophila nachgewiesen werden. Der Verlust der Isomerase-Aktivität wirkt sich, verglichen mit dem monozellulären System (A. castellanii), im Tiermodel wesentlich dramatischer auf das intrazelluläre Überleben aus. Mit site-spezifisch verändertem Mip-Protein komplementierte Legionella-Stämme zeigten eine intrazelluläre Vermehrung in Abhängigkeit der gemessenen in vitro Isomerase-Restaktivität. Durch den Einsatz der dimerisierungsdefizienten Mip-Komplementante, L. pneumophila PhilI JR32-2.4, wurde die Notwendigkeit der Dimerisierung des Mip-Proteins auch im Tiermodell bestätigt. Durch die vorliegende Arbeit konnte gezeigt werden, dass die Funktion der Isomerase-Aktivität für die Infektion monozellulärer Systeme und höherer Organismen unterschiedlich ist.
N2  - The facultative intracellular bacterium Legionella pneumophila was first identified in 1977 as the etiologic agent of legionellosis, a severe and atypical pneumonia. It possesses a dual host system which allows the bacteria to replicate in protozoa in aquatic habitats as well as a pathogen in human phagocytic cells. In order to analyze the complex interaction of the bacterial pathogen and its host cells, in this thesis a new GFP reporter system was established and sussessfully evaluated. It is now possible to monitor a Legionella infection in vivo and to quantify bacterial invasion influenced by different factors in a more convenient way. To analyze GFP expression in Legionella a transcriptional fusion of the gfpmut2 gene with the Legionella-specific mip (macrophage infectivity potentiator) promoter was constructed. In addition, a vector habouring the sod (super oxid dimutase) promoter derived from Listeria monocytogenes was used. Following transformation into Legionella strains strong GFP-mediated fluorescence was detected confirming the functionality of GFP in Legionella for the first time. Using fluorescence microscopy, spectrofluorimetry and flow cytometry (FACS-analysis) the strains were examined regarding differences in virulence and intracellular replication. Re-confirming results from earlier studies obtained by using enumeration of CFU values showed the validity of the method. Quantification of the mip promoter activity revealed a constitutively expression, this indicates that differences in Legionella virulene are not due to variations in mip promoter activity. Moreover, the influence of different phagocytosis inhibitors on Legionella uptake into the protozoan hosts Acanthamoeba castellanii and Hartmannella vermiformis using the GFP reporter system was examined. Application of cytochalasin D had no influence on bacterial uptake in A. castellanii and H. vermiformis suggesting in microfilament-independent mechanism. Phagocytosis in H. vermiformis is mainly accomplished using receptor-mediated phagocytosis as it was evident from inhibition studies with cycloheximide and methylamine. In contrast, phagocytosis in A. castellanii is mediated by other receptors or additional mechanisms are available. This results confirm the proposed heterogeneity of uptake mechanisms by different protozoan hosts. After L. pneumophila is phagocytosed the endosomal pathway of phagosome maturation is blocked, by means of secreted but as yet unidentified effector molecules. To study a putative protein translocation C-terminal Mip::GFP fusion proteins were constructed. The stability of the proteins was rather weak which is likely due to the dimeric conformational state of the Mip protein. In addition, transport over the cytoplasmic membran was not accomplished. Therefore the fusion proteins proved not to be useful for examine translocational events. Because of the unknown in vivo function of bacterial PPIases the focus in the the second part of this work was to identify a putative interaction partner of the Mip protein and to elucidate the influence of dimerization and PPIase activity on Legionella's virulence. Using cross linking experiments a putative interaction partner could be detected. N-terminal sequencing revealed no homology to already known Legionella or other proteins. N-terminal blockade of the putative partner molecule may be the cause that hampered sequence identification. It has been shown that the isomerase activity of the Legionella Mip protein is not necessary for invasion and intracellular survival in protozoan, monocytes and U937 macrophages. Additional features of the protein are its homodimeric conformational state and the assoziation with the outer membrane. In cooperation with the group of Prof. Dr. G. Fischer in Halle a N-terminal truncated (aa 4-79) dimerization-deficient Mip protein (L.p.FKBP25-20-3, 80-213) was constructed and biochemically characterized. Using site specific mutagenesis participation of the N-terminal located amino acids (K11A/D32A, Y16A/D32A und M38,42E) in the dimerization of the Mip protein was confirmed. To analyze the influence on pathogenicity of the dimeric state of the Mip protein a mip negative strain was complemented by providing the gene encoding the monomeric Mip (L.p.FKBP25-20-3, 80-213) in cis. The proper integration and protein expression was confirmed. The results demonstrate that the isomerase activity is dispensable for intracellular growth in protozoan hosts. Moreover, the results clearly demonstrated that dimerization and not the isomearse activity are essential for virulence of Legionella in a monocellular system. In contrast, it could be shown that the isomerase activity is necessary for full virulence in the animal model (guinea pigs). The loss of the isomerase avtivity have a more dramatic impact on the intracellular survival of Legionella compared to the monocellular system (A. castellanii). Moreover, Legionella strains replicated intracellulary dependent on their remaining in vitro isomerase activity. Using the monomeric Mip expressing strain L.p.JR32-2.4 it could be demonstrated that dimerization also plays a role in the animal model. This work provides evidence for a different role of the isomerase activity of the Mip protein in monocellular systems and during the infection of higher organisms.
KW  - Legionella pneumophila
KW  - Bakterielle Infektion
KW  - Grün fluoreszierendes Protein
KW  - In vivo
KW  - Legionella pneumophila
KW  - GFP-Reportergen
KW  - in vivo Monitoring
KW  - Fluoreszenzmikroskopie
KW  - FACS-Analyse
KW  - MIP
KW  - PPIasen
KW  - Dimerisierung
KW  - Legionella pneumophila
KW  - GFP-reportersystem
KW  - in vivo monitoring
KW  - fluorescence microscopy
KW  - FACS-analysis
KW  - Mip
KW  - PPIases
KW  - dimerization
Y1  - 2000
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-1594
ER  - 
TY  - JOUR
A1  - Proppert, Sven
A1  - Wolter, Steve
A1  - Holm, Thorge
A1  - Klein, Theresa
A1  - van de Linde, Sebastian
A1  - Sauer, Markus
T1  - Cubic B-spline calibration for 3D super-resolution measurements using astigmatic imaging
JF  - Optics Express
N2  - In recent years three-dimensional (3D) super-resolution fluorescence imaging by single-molecule localization (localization microscopy) has gained considerable interest because of its simple implementation and high optical resolution. Astigmatic and biplane imaging are experimentally simple methods to engineer a 3D-specific point spread function (PSF), but existing evaluation methods have proven problematic in practical application. Here we introduce the use of cubic B-splines to model the relationship of axial position and PSF width in the above mentioned approaches and compare the performance with existing methods. We show that cubic B-splines are the first method that can combine precision, accuracy and simplicity.
KW  - three-dimensional microscopy
KW  - fluorescence microscopy
KW  - medical and biological imaging
KW  - superresolution
Y1  - 2014
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-119730
SN  - 1094-4087
VL  - 22
IS  - 9
ER  - 
TY  - JOUR
A1  - Shityakov, Sergey
A1  - Salvador, Ellaine
A1  - Pastorin, Giorgia
A1  - Förster, Carola
T1  - Blood-brain barrier transport studies, aggregation, and molecular dynamics simulation of multiwalled carbon nanotube functionalized with fluorescein isothiocyanate
JF  - International Journal of Nanomedicine
N2  - In this study, the ability of a multiwalled carbon nanotube functionalized with fluorescein isothiocyanate (MWCNT-FITC) was assessed as a prospective central nervous system-targeting drug delivery system to permeate the blood-brain barrier. The results indicated that the MWCNT-FITC conjugate is able to penetrate microvascular cerebral endothelial monolayers; its concentrations in the Transwell® system were fully equilibrated after 48 hours. Cell viability test, together with phase-contrast and fluorescence microscopies, did not detect any signs of MWCNT-FITC toxicity on the cerebral endothelial cells. These microscopic techniques also revealed presumably the intracellular localization of fluorescent MWCNT-FITCs apart from their massive nonfluorescent accumulation on the cellular surface due to nanotube lipophilic properties. In addition, the 1,000 ps molecular dynamics simulation in vacuo discovered the phenomenon of carbon nanotube aggregation driven by van der Waals forces via MWCN-TFITC rapid dissociation as an intermediate phase.
KW  - endothelial cells
KW  - cytotoxicity
KW  - blood-brain barrier
KW  - fluorescein isothiocyanate
KW  - aggregation
KW  - molecular dynamics
KW  - fluorescence microscopy
KW  - Transwell® system
KW  - multiwalled carbon nanotube
KW  - mice
Y1  - 2015
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-149233
VL  - 10
ER  -