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Unter dem Einfluss von M-CSF und GM-CSF entwickeln sich CD14-positive periphere humane Blutmonozyten zu CD68-positiven M-CSF- bzw. GM-CSF-Makrophagen. M-CSF-Makrophagen lassen sich mit INFg und LPS zu klassisch aktivierten M1-Makrophagen, oder mit IL-4 und IL-10 zu alternativ aktivierten M2-Makrophagen differenzieren. Durch GM-CSF werden aus Monozyten GM-CSF-Makrophagen induziert. Im Gegensatz zu M1-Makrophagen sind GM1-Makrophagen bisher noch wenig untersucht. Mit INFg und LPS werden GM-CSF-Makrophagen zu GM1-Makrophagen aktivert. In der vorliegenden Arbeit wurde überprüft, wie groß die Übereinstimmung zwischen M-CSF- und M2-Makrophagen sowie zwischen GM-CSF- und M1-Makrophagen / GM1-Makrophagen ist. Im Gegensatz zu M-CSF- und GM-CSF stellt Laktat aber keinen Differenzierungsfaktor für Monozyten dar. Jedoch beeinflusst Laktat den Phänotyp von M2-Makrophagen und hemmt die Ausschüttung von IL-12 und NO durch M1- und GM1-Makrophagen.
Die zelltoxische Wirkung von AVEMAR, einem medizinischen Nahrungsergänzungsmittel, wurde erstmalig an einer Vielzahl humaner Tumorzelllinien systematisch untersucht. Die einzelnen Tumorzelllinien reagierten sehr unterschiedlich auf die Inkubation mit AVEMAR. So weisen vier der zwölf Tumorzelllinien (33 %) einen EC50-Wert von mehr als 50 mg/ml auf und waren somit resistent gegenüber AVEMAR, während fünf der zwölf Tumorzelllinien (42 %) einen EC50 Wert von <10 mg/ml aufweisen. Für drei Zelllinien wurde ein EC50-Wert zwischen >10 und <25 mg/ml nachgewiesen. Zwischen der Wachstumsgeschwindigkeit der Zellen und ihrer Empfindlichkeit gegenüber dem AVEMAR-Effekt war kein Zusammenhang zu erkennen; ebenso wurde ausgeschlossen, dass der AVEMAR Effekt auf einer unspezifischen Wirkung beruht. Zur weiteren Untersuchung wurden vier der zwölf Zelllinien ausgewählt: BxPC-3 (EC50: 4,9 +/- 0,42 mg/ml); 23132/87 (EC50: 9,3 +/- 0,28 mg/ml); HT-29 (EC50: 15,35 +/- 0,21 mg/ml) und HRT-18 (EC50: 21,3 +/- 0,42 mg/ml). Die Wirkung von 10 mg/ml AVEMAR auf diese vier Zelllinien war nach einer Inkubationsdauer von 24 Stunden: zelltoxisch (BxPC-3), zytostatisch (23132/87 und HT-29) und schwach zytostatisch (HRT-18). Insbesondere für HRT-18 war der zytostatische Effekt von AVEMAR begrenzt und bereits nach 48 Stunden in Kultur ohne AVEMAR nicht mehr zu beobachten. Im Gegensatz dazu war der zelltoxische Effekt von AVEMAR auf Zellen der Linie BxPC-3 extrem rasch (<24 Stunden) und absolut irreversibel. Dieser zelltoxische Effekt ähnelt der Wirkungsweise von 2,6-Dimethoxy-1,4-Benzochinonen, wobei nicht geklärt ist, ob reaktive Sauerstoffspezies oder andere Formen von Radikalen, z.B. Stickstoffradikale, entstehen. Diese Vermutung wird dadurch gestützt, dass ausschließlich Glutathion, welches als Radikalfänger an zahlreichen enzymabhängigen Reduktionsreaktionen beteiligt ist, die zelltoxische Wirkung von AVEMAR kompensieren konnte. Katalase, die die Detoxifikation von Wasserstoffperoxid katalysiert, zeigte in Gegenwart von AVEMAR keine Wirkung, war aber in Gegenwart von Benzochinonen wirksam. Da bei oxidativem Stress auch Wasserstoffperoxid entsteht, scheint die zelltoxische Wirkung von AVEMAR bei BxPC-3 nicht auf Auslösung von oxidativem Stress zu beruhen, sondern auf der Induktion von Radikalen bzw. toxischen Metaboliten anderer Art. Der bei den Tumorzelllinien 23132/87 und HT-29 beobachtete, weniger aggressive zytostatische Effekt von AVEMAR basiert nicht auf der Induktion freier Radikale, da Glutathion ohne Wirkung war. Mit der Zytostase einhergehend war eine deutliche Verringerung des intrazellulären ATP-Gehalts um bis zu 60 % bei 10 mg/ml bzw. 100 % bei 50 mg/ml AVEMAR. Zusätzlich zur Wirkung von AVEMAR wurden weitere Weizenprodukte auf mögliche zelltoxische bzw. zytostatische Effekte getestet und zwar Weizenkeimlinge, handelsübliches Weizenmehl vom Typ 405 und Weizenlektine. Interessanterweise wurde je nach Zelllinie auch für diese Weizenprodukte ein zelltoxischer Effekt in vitro nachgewiesen. AVEMAR weist zelltoxische und zytostatische Effekte auf. Beide Effekte werden nicht über oxidativen Stress vermittelt. Die zelltoxische Wirkung von AVEMAR wird durch Nicht-Sauerstoffradikale bzw. toxische Metabolite vermittelt. Damit wurde der postulierte Hauptmechanismus von AVEMAR - nämlich die Induktion von oxidativem Stress durch Benzochinone - nicht bestätigt. AVEMAR stellt ein nebenwirkungsarmes, gut verträgliches und günstiges Nahrungsergänzungsmittel dar. Die vorliegende Arbeit, aber auch klinische Studien haben eine Wirksamkeit von AVEMAR gegenüber Tumoren gezeigt. Da zahlreiche onkologische Patienten sehr motiviert sind, neben der Chemo- und Radiotherapie, weitere Maßnahmen gegen ihr Krebsleiden zu ergreifen, sind Empfehlungen von Supportivprodukten, deren zugrunde liegenden Mechanismen weitestgehend aufgeklärt sind und für die ein wissenschaftlicher Nachweis ihrer Wirksamkeit vorliegt, sicherlich ein zu begrüßender Schritt zur ganzheitlichen Betreuung onkologischer Patienten.
Ob eine Immunonutrition einen Nutzen in der Versorgung schwer kranker oder chirurgischer Patienten bringt, ist Thema kontroverser Diskussionen. Dabei scheint unklar, welches Patientenklientel von welcher Zusammensetzung verschiedener immunmodulatorischer Substanzen am meisten profitiert. Zudem ist nicht einheitlich geklärt, zu welchen Zeitpunkten und über welche Zeiträume die Immunmodulation den größten Nutzen bringt. Die hier durchgeführte Studie wurde konzipiert, um zu untersuchen, ob die Patienten, die einer aortokoronaren Bypassoperation unter Einsatz der Herz-Lungen-Maschine zugeführt werden, eine Verbesserung ihres klinischen Outcomes zeigen, wenn sie immunmodulatorische Substanzen perioperativ erhalten. Die konkreten Fragestellungen für diese Arbeit lauten daher: 1) Kann die Immunonutrition mit Glutamin, ௰-3-Fettsäuren und antioxidativ wirksamen Vitaminen die Inzidenz von postoperativen Infektionen bei Patienten, die einer aortokoronaren Bypassoperation zugeführt werden, verringern? 2) Verkürzt sich die Liegedauer der Patienten auf der Intensivstation und nach Verlegung auf Normalstation postoperativ bei regelmäßiger Einnahme der immunmodulierenden Substanzen über den Zeitraum des stationären Aufenthaltes? 3) Verbessert sich das klinische Outcome der Patienten durch die perioperative Substitution insgesamt, durch ein selteneres Auftreten von häufigen Komplikationen und Kreislaufinstabilitäten? Zu diesem Zweck wurde eine Kohortenstudie mit 137 Patienten durchgeführt, wovon sich 97 Patienten in der Kontrollgruppe und 40 in der Experimentalgruppe befanden. Die Patienten der Experimentalgruppe erhielten ab dem Tag ihrer stationären Aufnahme 2 unterschiedliche Substanzen zur oralen Einnahme verabreicht. Die eine enthielt einen hohen Anteil an Glutamin und antioxidativ wirksamen Substanzen (Glutamine Plus®) und die andere einen hohen Gehalt an ௰-3-Fettsäuren (Supportan® Drink). Das Glutamine Plus® wurde morgens und abends, der Supportan® Drink mittags verabreicht. Die Substitution erfolgte über den kompletten stationären Aufenthalt, abgesehen von dem Tag der Operation selber. Die Blutentnahmen für die entsprechenden infektiologischen Parameter erfolgten zu den Zeitpunkten präoperativ, 6 Stunden nach Ende der Operation, 2 Tage postoperativ und vor der Entlassung. Es zeigte sich, dass die Patienten, die die Substanzen erhielten, weniger postoperative Infektionen entwickelt hatten, als die Patienten in der Kontrollgruppe. Das wurde aus einer signifikanten PCT-Erhöhung in der Kontrollgruppe abgeleitet. Allerdings hatte diese postoperative Komplikation keine Auswirkung auf die Liegezeit der Patienten auf der Intensivstation oder auf die Dauer des stationären Aufenthaltes nach Verlegung von der Intensivstation auf eine periphere Station zur Folge. Ebenfalls zeigten sich keine Unterschiede zwischen den beiden Kohorten in der Notwendigkeit einer antibiotischen Therapie, sowie im Auftreten von Kreislaufinstabilitäten oder den häufigsten Komplikationen.
Das menschliche Genom verschlüsselt 30000 bis 40000 Proteine, von denen ein Großteil kovalent gebundene Karbohydrat-Gruppen an Asparagin-, Serin-, Threonin- oder Hydroxylysin-Resten trägt. Diese sogenannten Glykoproteine sind allgegenwärtige Bestandteile der extrazellulären Matrix von Zelloberflächen. Sie steuern Zell-Zell- und Zell-Matrix-Kommunikationen, können bei der roteinfaltung helfen bzw. die Proteinstabilität erhöhen oder Immunantworten regulieren. Die Auslösung von biologischen Prozesse erfordert aber Übersetzer der zuckerbasierten Informationen. Solche Effektoren sind die Lektine, unter ihnen auch die Galektine. Galektine binden spezifisch β-Galaktosen, weisen strukturelle Übereinstimmungen in der Aminosäuresequenz ihrer Zuckererkennungsdomänen (CRDs) auf und zeigen ein „jelly-roll“-Faltungsmuster, bestehend aus einem β-Sandwich mit zwei antiparallelen Faltblättern. Strukturell werden die CRDs in drei verschiedenen, topologischen Formen präsentiert. Proto-Typen existieren als nicht-kovalent verknüpfte Dimere der CRDs, Chimera-Typen besitzen neben der CRD eine Nicht-Lektin-Domäne und bei den Tandem-Repeat-Typen sind zwei verschiedene CRDs über ein kurzes Linker-Peptid kovalent verbunden. Galektine werden sowohl in normalem wie auch pathogenem Gewebe exprimiert und das zunehmende Wissen über die Beteiligung an verschiedenen Krankheiten und Tumorwachstum liefert die Motivation, strukturelle Aspekte und die Vernetzung von Lektinen detailliert, insbesondere im Hinblick auf ihre intrafamiliären Unterschiede, zu untersuchen. Durch die Kombination verschiedener Spektroskopie-Techniken mit hoher zeitlicher und räumlicher Auflösung, basierend auf der Verwendung von Fluorophoren (intrinsisch und extrinsisch), werden in dieser Arbeit die Eigenschaften von Galektinen näher untersucht. Mit Fluoreszenz-Korrelations-Spektroskopie (FCS) und Anisotropie-Messungen wird gezeigt, dass eine Liganden-Bindung bei Proto-Typ-Galektinen mit einer Verringerung des hydrodynamischen Radius einhergeht. Bei Tandem-Repeat- und Chimera-Typen bleibt der Radius konstant. Dafür skaliert die Diffusionskonstante von Tandem-Repeat-Typen anormal mit der molaren Masse. Die Anisotropie-Messungen werden parallel zu den FCS-Messungen durchgeführt, um einen Einfluss des Fluoreszenzmarkers auszuschließen. Mit Hilfe dieser Technik wird außerdem gezeigt, dass unterschiedliche Dissoziationskonstanten und Kinetiken für den Bindungsprozess innerhalb der Proto-Typ-Gruppe möglichweise auf unterschiedliche Konformationsdynamiken zurückgehen. Der Vergleich von hGal-1 und cG-1B verdeutlicht, dass strukturelle Ähnlichkeiten zwar ein identisches Bindungsverhalten hervorrufen können, der Oxidationsprozess der Proteine aber unterschiedlich ablaufen kann. Beide Methoden können so als sehr sensitive Techniken zur Untersuchung von Strukturmerkmalen bei Galektinen etabliert werden, wobei die Übertragbarkeit auf andere Glykoproteine gewährleistet ist. Weiterhin gilt Quervernetzung als eine der wichtigsten Eigenschaften von Galektinen, da durch die Vernetzung von Glykoproteinen auf der Zelloberfläche Signalwege aktiviert und Immunantworten reguliert werden. Um die räumliche organisation und Quervernetzung von hGal-1 auf den Oberflächen von Neuroblastomzellen nachzuweisen, eignet sich das hochauflösende Mikroskopieverfahren dSTORM sehr gut. Durch Verwendung des photoschaltbaren Fluorophors Alexa647 als spezifischem Marker für hGal-1, einem Standard-Weitfeld-Aufbau und verschiedenen Analyseverfahren, kann eine Clusterformation von hGal-1 auf der Zelloberfläche bestätigt werden. hGal-1 bildet Cluster mit einem mittleren Durchmesser von 81±7 nm aus. Der Durchmesser ist unabhängig von der Konzentration, während die Anzahl der Cluster davon abhängt. Für die Clusterausbildung ist ein Startpunkt, also eine minimale Dichte der Galektin-Moleküle, notwendig. Durch Blockierung der CRDs mit Laktose wird die Clusterbildung unterdrückt und die Spezifität der CRDs gegenüber β-Galaktosen erneut herausgestellt. Anders als dimeres hGal-1 binden Monomere deutlich schlechter an die Membranrezeptoren. Es werden keine Cluster ausgebildet, eine Quervernetzung von Membranrezeptoren ist nicht möglich. Außerdem kann es durch die Monomere zu einer vollständigen Markierung und damit Abkugellung der Zellen kommen. Möglicherweise wird der Zelltod induziert. Hochauflösende Mikroskopieverfahren sind durch den Markierungsprozess limitiert. Die bioorthogonale Click-Chemie eröffnet jedoch neue Möglichkeiten zur Markierung und Visualisierung von Biomolekülen, ohne die Notwenigkeit genetischer Manipulationen. Es werden modifizierte Zuckermoleküle in die Zellmembranen eingebaut, über eine 1,3-polare Cycloaddition mit einem Alkin markiert und ihre Verteilung mit Hilfe von dSTORM untersucht. Es wird nachgewiesen, dass die Zuckermoleküle in Clustern auftreten und Click-Chemie trotz dem Katalysator Kupfer an lebenden Zellen durchführbar ist. Die Bewegung der Gesamtcluster wird mittels Mean Square Displacement aufgeschlüsselt und eine Diffusionskonstante für Cluster im Bereich von 40 - 250 nm bestimmt. Zusammenfassend stellt die Kombination verschiedener Spektroskopie-Techniken ein gutes Werkzeug zur Untersuchung von Karbohydrat-bindendenden Proteinen mit hoher räumlicher und zeitlicher Auflösung dar und ermöglicht einen neuen Einblick in die Biologie der Galektine.
Hintergrund: Das Absterben Neuromelanin (NM)-haltiger Zellen in der substantia nigra (SN), und die daraus resultierende Erniedrigung des Dopaminspiegels im striatum, ist ein pathologisches Hauptmerkmal der Parkinsonschen Krankheit. Ein neuerlicher Nachweis von Anti-Melanin-Antikörpern gibt Anlass zur Vermutung, dass NM ein Autoantigen sein könnte. In dieser Arbeit wurde gezeigt, dass NM tatsächlich von dendritischen Zellen (DZ), die in vivo hauptverantwortlich für die Auslösung von T- und B-Zellantworten sind, erkannt wird. Die Erkennung von NM durch DZ ist eine unabdingbare Voraussetzung für die Einleitung einer adaptiven Immunantwort. Methoden: Murine dendritische Zellen (mDZ) wurden aus Knochenmarkszellen generiert und mit NM aus humaner SN oder synthetischem Dopaminmelanin (DAM) behandelt, nachdem beide Melanine endotoxinfrei getestet wurden. Die Phagozytose von NM wurde mittels konfokaler Mikroskopie dokumentiert. Die Expression von MHC II und CD86 wurde mittels Durchflusszytometrie (FACS) analysiert. Zytokinkonzentrationen von TNF- und dem Interleukin IL-6 wurden mit ELISA-Assays bestimmt. Abschließend wurde die Funktion der durch NM aktivierten DZ mit einer allogenen mixed lymphocyte reaction (MLR) überprüft. Ergebnisse: NM wurde von den mDZ effektiv phagozytiert, woraufhin die mDZ einen reifen Phenotyp (CD86high/MHC IIhigh) zeigten. Zusätzlich sekretierten durch NM aktivierte mDZ die Zytokine IL-6 and TNF-. Schließlich ließen die mDZ T-Zellen in einer MLR proliferieren, und beweisen so ihre Funktionalität und die Fähigkeit eine primäre T-Zellantwort auszulösen. Im Gegenteil dazu konnte DAM, dem die Protein- und Lipidkomponenten von NM fehlen und nur das Melaninrückrat mit NM gemeinsam hat, nur einen kleinen Effekt bei den mDZ hervorrufen. Diskussion: NM wird von DZ in vitro erkannt und bewirkt deren Reifung. Sollte der Vorgang auch in vivo stattfinden, besteht die Möglichkeit, dass SN-Antigene dem adaptiven Immunsystem präsentiert werden, was in einzelnen Fällen zur Einleitung einer adaptiven Immunantwort führen könnte. NM könnte also der Auslöser für einen autoimmunen Pathomechanismus in der parkinsonschen Krankheit sein.
Knochensialoprotein (BSP) ist ein Protein der extrazellulären Matrix im Knochen und mineralisierten Geweben, wird aber auch von verschiedenen Tumorzellen exprimiert (Bellahcene et al., 1994, 1997, 1998). Dies ist assoziiert mit einer schlechten Prognose und einem erhöhten Risiko für eine spätere Entwicklung von Knochenmetastasen. Diel et al. (1999) konnte zeigen, dass ein erhöhter Serum-BSP-Wert bei Patientinnen mit Mammakarzinom zu einem gehäuften Auftreten von Knochenmetastasen im Laufe der Erkrankung führt. BSP scheint ein Marker für die Entstehung von Knochenmetastasen zu sein. In der Literatur ist ein Antikörper beschrieben, der ein Epitop des BSP erkennt, welches im BSP aus Tumorzellen nicht glykosyliert ist, im BSP aus mineralisiertem Gewebe allerdings schon (Armbruster et al., 2009). Im Tiermodell konnte gezeigt werden, dass Knochenmetastasen verhindert werden können bei gleichzeitiger Gabe von Tumorzellen und Antikörpern gegen BSP beziehungsweise, dass bei vorhandenen Knochenmetastasen eine Behandlung der Tiere mit einem Anti-BSP-Antikörper die Metastasen zurückbildet (Bäuerle et al., 2005, 2006). In der aktuellen Arbeit wird die Expression von BSP an menschlichem Gewebe von Knochenmetastasen mit unterschiedlichen Primärtumoren mittels Immunhistochemie untersucht. Insgesamt wurden 35 Fälle von Knochenmetastasen mit Primärtumor eines Mammakarzinoms untersucht, wobei 22,9% eine BSP Expression aufweisen, davon 5,7% eine starke. Knochenmetastasen mit dem Primärtumor Prostatakarzinom sind mit 8 Fällen repräsentiert, wobei 75% positiv für BSP sind, davon 25% stark positiv. Die einzelnen Fälle zeigen eine starke BSP Expression im Stroma und eine schwache BSP Expression der Tumorzellen. Diese Ergebnisse des Antikörpers gegen normal glykosyliertes BSP wurden verglichen mit dem Antikörper gegen nicht glykosyliertes BSP. Der Nachweis von BSP in Tumorzellen zeigt dasselbe Ergebnis, BSP im Stroma wird durch den Antikörper gegen nicht- glykosyliertes BSP intensiver dargestellt. Daraus lässt sich folgern, dass der Antikörper gegen nicht- glykosyliertes BSP nicht spezifisch für die Isoform des BSP aus Tumorzellen ist, sondern gleichermaßen in der Routinediagnostik von BSP eingesetzt werden kann. Die Untersuchung könnte sogar darauf hinweisen, dass dieser Antikörper die nicht- glykosylierte Isoform im Stroma erkennt und damit bei Untersuchung des Stromas die bessere Alternative darstellt.
Argumentation and proof have played a fundamental role in mathematics education in recent years. The author of this dissertation would like to investigate the development of the proving process within a dynamic geometry system in order to support tertiary students understanding the proving process. The strengths of this dynamic system stimulate students to formulate conjectures and produce arguments during the proving process. Through empirical research, we classified different levels of proving and proposed a methodological model for proving. This methodological model makes a contribution to improve students’ levels of proving and develop their dynamic visual thinking. We used Toulmin model of argumentation as a theoretical model to analyze the relationship between argumentation and proof. This research also offers some possible explanation so as to why students have cognitive difficulties in constructing proofs and provides mathematics educators with a deeper understanding on the proving process within a dynamic geometry system.
A general theory for all classes of unconventional superconductors is still one of the unsolved key issues in condensed-matter physics. Actually, it is not yet fully settled if there is a common underlying pairing mechanism. Instead, it might be possible that several distinct sources for unconventional (not phonon-mediated) superconductivity have to be considered, or an electron-phonon interaction is not negligible. The focus of this thesis is on the most probable mechanism for the formation of Cooper pairs in unconventional superconductors, namely a strictly electronic one where spin fluctuations are the mediators. Studying different superconductors in this thesis, the emphasis is put on material-independent features of the pairing mechanism. In addition, the investigation of the phase diagrams enables a view on the vicinity of superconductivity. Thus, it is possible to clarify which competing quantum fluctuations enhance or weaken the propensity for a superconducting state. The broad range of superconducting materials requires the use of more than one numerical technique to study an appropriate microscopic description. This is not a problem but a big advantage because this facilitates the approach-independent description of common underlying physics. For this evaluation, the strongly correlated cuprates are simulated with the variational cluster approach. Especially the question of a pairing glue is taken into consideration. Furthermore, it is possible to distinguish between retarded and non-retarded contributions to the gap function. The cuprates are confronted with the cobaltate NaCoO and graphene. These weakly correlated materials are investigated with the functional renormalization group (fRG) and reveal a comprehensive phase diagram, including a d+id-wave superconductivity, which breaks time-reversal symmetry. The corresponding gap function is nodeless, but for NaCoO, it features a doping-dependent anisotropy. In addition, some general considerations on the kagome lattice are completing the discussion, where a sublattice interference dramatically affects the Fermi-surface instabilities, suppressing the usual spin-density wave and d+id-wave superconductivity. Thereby, some different fascinating charge and bond orders as well as a nematic are observable. In short, this thesis provides an insight to distinct classes of unconventional superconductors with appropriate simulation techniques. This facilitates to separate the material specific properties from the universal ones.
U.S. and German Approaches to Regulating Retail Development: Urban Planning Tools and Local Policies
(2012)
This dissertation examines retail development regulation in the U.S. and in Germany, comparing the various urban planning tools and policies in use by municipal governments. These similarities and differences are explored through research into three case study cities in each country, with special attention paid to how these governments regulate large-scale or "big box" retail.
Two-Dimensional Electron Systems at Surfaces — Spin-Orbit Interaction and Electronic Correlations
(2012)
This thesis addresses three different realizations of a truly two-dimensional electron system (2DES), established at the surface of elemental semiconductors, i.e., Pt/Si(111), Au/Ge(111), and Sn/Si(111). Characteristic features of atomic structures at surfaces have been studied using scanning tunneling microscopy and low energy electron diffraction with special emphasis on Pt deposition onto Si(111). Topographic inspection reveals that Pt atoms agglomerate as trimers, which represent the structural building block of phase-slip domains. Surprisingly, each trimer is rotated by 30° with respect to the substrate, which results in an unexpected symmetry breaking. In turn, this represents a unique example of a chiral structure at a semiconductor surface, and marks Pt/Si(111) as a promising candidate for catalytic processes at the atomic scale. Spin-orbit interactions (SOIs) play a significant role at surfaces involving heavy adatoms. As a result, a lift of the spin degeneracy in the electronic states, termed as Rashba effect, may be observed. A candidate system to exhibit such physics is Au/Ge(111). Its large hexagonal Fermi sheet is suggested to be spin-split by calculations within the density functional theory. Experimental clarification is obtained by exploiting the unique capabilities of three-dimensional spin detection in spin- and angle-resolved photoelectron spectroscopy. Besides verification of the spin splitting, the in-plane components of the spin are shown to possess helical character, while also a prominent rotation out of this plane is observed along straight sections of the Fermi surface. Surprisingly and for the first time in a 2DES, additional in-plane rotations of the spin are revealed close to high symmetry directions. This complex spin pattern must originate from crystalline anisotropies, and it is best described by augmenting the original Rashba model with higher order Dresselhaus-like SOI terms. The alternative use of group-IV adatoms at a significantly reduced coverage drastically changes the basic properties of a 2DES. Electron localization is strongly enhanced, and the ground state characteristics will be dominated by correlation effects then. Sn/Si(111) is scrutinized with this regard. It serves as an ideal realization of a triangular lattice, that inherently suffers from spin frustration. Consequently, long-range magnetic order is prohibited, and the ground state is assumed to be either a spiral antiferromagnetic (AFM) insulator or a spin liquid. Here, the single-particle spectral function is utilized as a fundamental quantity to address the complex interplay of geometric frustration and electronic correlations. In particular, this is achieved by combining the complementary strengths of ab initio local density approximation (LDA) calculations, state-of-the-art angle-resolved photoelectron spectroscopy, and the sophisticated many-body LDA+DCA. In this way, the evolution of a shadow band and a band backfolding incompatible with a spiral AFM order are unveiled. Moreover, beyond nearest-neighbor hopping processes are crucial here, and the spectral features must be attributed to a collinear AFM ground state, contrary to common expectation for a frustrated spin lattice.
Die Herkunft hochenergetischer solarer Teilchen konnte in den vergangenen Jahren eindeutig auf Schockbeschleunigung an koronalen Masseauswürfen zurückgeführt werden. Durch resonante Interaktionen zwischen Wellen und Teilchen werden zum einen geladene Teilchen unter Veränderung ihrer Energie gestreut, zum anderen wird die Dynamik der Plasmawellen in solchen Beschleunigungsregionen durch diese Prozesse von selbstgenerierten Wellenmoden maßgeblich beeinflusst. Mittels numerischer Modellierungen wurden im Rahmen dieser Arbeit die grundlegenden physikalischen Regimes der Turbulenz und des Teilchentransports beschrieben. Die Simulation der Plasmadynamik bedient sich der Methodik der Magnetohydrodynamik, wohingegen kinetische Einzelteilchen durch die elementaren Bewegungsgleichungen der Elektrodynamik berechnet werden. Es konnten die Turbulenztheorien von Goldreich und Sridhar unter heliosphärischen Bedingungen bei drei solaren Radien bestätigt werden. Vor allem zeigten sich Hinweise für das Erreichen der kritischen Balance, einem Schlüsselparameter dieser Theorien. Weiterhin werden Ergebnisse der dynamischen Entwicklung angeregter Wellenmoden präsentiert, in denen die Bedeutsamkeit für die gesamte Turbulenz gezeigt werden konnte. Als zentraler Prozess bei hohen Energien hat sich das wave-steepening herausgestellt, das als effizienter Energietransportmechanismus in paralleler Richtung zum Hintergrundmagnetfeld identifiziert wurde und somit turbulente Strukturen bei hohen parallelen Wellenzahlen erklärt, deren Entstehung das Goldreich-Sridhar Modell nicht beschreiben kann. Darüber hinaus wurden grundlegende Erkenntnisse über die quasilineare Theorie des Teilchentransports erzielt. Im Speziellen konnte ein tieferes Verständnis für die Interpretation der Diffusionskoeffizienten von Welle-Teilchen Wechselwirkungen erlangt werden. Simulationen zur Streuung an angeregten Wellenmoden zeigten erstmals komplexe resonante Strukturen die im Rahmen analytischer Modelle nicht mehr adäquat beschrieben werden können.
Background
Animal models are frequently used to assess new treatment methods in cancer research. MRI offers a non-invasive in vivo monitoring of tumour tissue and thus allows longitudinal measurements of treatment effects, without the need for large cohorts of animals. Tumour size is an important biomarker of the disease development, but to our knowledge, MRI based size measurements have not yet been verified for small tumours (10−2–10−1 g). The aim of this study was to assess the accuracy of MRI based tumour size measurements of small tumours on mice.
Methods
2D and 3D T2-weighted RARE images of tumour bearing mice were acquired in vivo using a 7 T dedicated animal MR system. For the 3D images the acquired image resolution was varied. The images were exported to a PC workstation where the tumour mass was determined assuming a density of 1 g/cm3, using an in-house developed tool for segmentation and delineation. The resulting data were compared to the weight of the resected tumours after sacrifice of the animal using regression analysis.
Results
Strong correlations were demonstrated between MRI- and necropsy determined masses. In general, 3D acquisition was not a prerequisite for high accuracy. However, it was slightly more accurate than 2D when small (<0.2 g) tumours were assessed for inter- and intraobserver variation. In 3D images, the voxel sizes could be increased from 1603 μm3 to 2403 μm3 without affecting the results significantly, thus reducing acquisition time substantially.
Conclusions
2D MRI was sufficient for accurate tumour size measurement, except for small tumours (<0.2 g) where 3D acquisition was necessary to reduce interobserver variation. Acquisition times between 15 and 50 minutes, depending on tumour size, were sufficient for accurate tumour volume measurement. Hence, it is possible to include further MR investigations of the tumour, such as tissue perfusion, diffusion or metabolic composition in the same MR session.
5.1 Immuntherapie mit vom Tumorstroma abgeleiteten Peptiden Tumore bestehen nicht nur aus Tumorzellen, sondern auch aus der sie umgebenden extrazellulären Matrix (EZM), und Stromazellen wie Fibroblasten (cancer-associated fibroblast; CAF) und Endothelzellen (tumor endothelial cell; TEC). Diese Stromazellen haben durch die Ausschüttung von Zytokinen, proteolytischen Enzymen, Wachstums- und Angiogenesefaktoren einen entscheidenden Einfluss auf die Tumorprogression. Sie unterscheiden sich von den Stromazellen der normalen Gewebe durch die Expression von sogenannten Tumorstroma-assoziierten Antigenen (TSAA). Damit sollten Therapien, die auf TSAA abzielen, universell einsetzbar und weniger anfällig gegenüber Resistenzentwicklungen (immune escape Mechanismen) sein, da Stromazellen im Gegensatz zu neoplastischen Zellen genetisch relativ stabil sind. Für eine Immuntherapie mit vom Tumorstroma abgeleiteten Peptiden wählten wir die TSAA Endoglin und Fap, welche während der Wundheilung und im Tumorstroma induziert werden. Dabei sollte überprüft werden, ob prophylaktische Vakzinierungen in C57Bl/6j Mäusen Peptid-reaktive T-Zellen induzieren können, und das Wachstum von transplantieren Grm1-transgenen Tumoren reduziert werden kann. In der Tat konnten wir sowohl bei Endoglin- als auch bei Fap Peptid vakzinierten Tieren in vivo Peptid-reaktive Lymphozyten im Blut und zu einem geringeren Anteil auch in der Milz nachweisen, welche Peptid-gepulste syngene Milzzellen lysieren konnten. Allerdings konnte in beiden Fällen keine Reduktion des Tumorwachstums gegenüber der Kontrollgruppe beobachtet werden. Bei der Fap-Peptid-vakzinierten Gruppe war das Tumorwachstum gegenüber der Kontrollgruppe sogar gesteigert. Dies könnte darauf hindeuten, dass die Induktion Fap-Peptid-reaktiver T-Zellen tumorpromovierend wirkt. Möglicherweise könnte aber durch eine Modifikation des Vakzinierungsprotokolls bzw. durch eine Kombination mit anderen Immuntherapeutika ein verbessertes Ansprechen auf eine Endoglin bzw. Fap basierte Immuntherapie erzielt werden. 5.2 Immunsuppressive Mechanismen im Grm1-transgenen Melanom-Modell Grm1-transgene Mäuse entwickeln spontan kutane Melanome. Dieses Modell erlaubte es uns in der vorliegenden Arbeit spontane Immunantworten im Laufe der Melanomentstehung zu untersuchen. Hierfür analysierten wir sowohl ex vivo als auch in vitro aus Milz und Lymphknoten gewonnene Lymphozyten von Mäusen, welche keine Tumorläsionen bzw. eine niedrige oder hohe Tumorlast aufwiesen. Dabei konnten wir ex vivo einen Anstieg der Frequenz aktivierter CD4+ und CD8+ Lymphozyten mit zunehmender Tumorlast zeigen. Bei tumortragenden Tieren exprimierten jedoch hauptsächlich CD4+ T-Zellen Aktivierungsmarker nach in vitro Stimulation. Interessanterweise waren diese Zellen tumortragender Tiere auch funktionell beeinträchtigt, was sich in einer verminderten Proliferationskapazität nach in vitro Stimulation zeigte. Weitere Analysen ergaben, dass die erhöhte Frequenz regulatorischer T Zellen bei tumortragenden Tieren ein frühes Ereignis im Laufe der Tumorentstehung ist. Gleichzeitig konnte auch ein starker Anstieg der immunsupprimierenden Zytokine Tgf-β1 und Il-10 sowohl in den Lymphknoten als auch im Tumorgewebe beobachtet werden. Dabei war die Tgf-β1-Expression sowohl im Tumor als auch im tumor-drainierenden Lymphknoten erhöht, während Il-10 im Tumor nur moderat exprimiert wurde, was eine komplexere Regulation der Il-10-Expression nahe legt. Dies bedeutet, dass in Grm1-transgenen Mäusen ähnlich wie auch bei Melanompatienten zelluläre und zytokinabhängige Mechanismen zur Tumorentstehung beitragen und dieses Modell daher geeignet ist, um präklinisch immunmodulierende Therapieansätze zu testen.
Background: To evaluate oncological and clinical outcome in patients with renal cell carcinoma (RCC) and tumor thrombus involving inferior vena cava (IVC) treated with nephrectomy and thrombectomy. Methods: We identified 50 patients with a median age of 65 years, who underwent radical surgical treatment for RCC and tumor thrombus of the IVC between 1997 and 2010. The charts were reviewed for pathological and surgical parameters, as well as complications and oncological outcome. Results: The median follow-up was 26 months. In 21 patients (42%) distant metastases were already present at the time of surgery. All patients underwent radical nephrectomy, thrombectomy and lymph node dissection through a flank (15 patients/30%), thoracoabdominal (14 patients/28%) or midline abdominal approach (21 patients/42%), depending upon surgeon preference and upon the characteristics of tumor and associated thrombus. Extracorporal circulation with cardiopulmonary bypass (CPB) was performed in 10 patients (20%) with supradiaphragmal thrombus of IVC. Cancer-specific survival for the whole cohort at 5 years was 33.1%. Survival for the patients without distant metastasis at 5 years was 50.7%, whereas survival rate in the metastatic group at 5 years was 7.4%. Median survival of patients with metastatic disease was 16.4 months. On multivariate analysis lymph node invasion, distant metastasis and grading were independent prognostic factors. There was no statistically significant influence of level of the tumor thrombus on survival rate. Indeed, patients with supradiaphragmal tumor thrombus (n = 10) even had a better outcome (overall survival at 5 years of 58.33%) than the entire cohort. Conclusions: An aggressive surgical approach is the most effective therapeutic option in patients with RCC and any level of tumor thrombus and offers a reasonable longterm survival. Due to good clinical and oncological outcome we prefer the use of CPB with extracorporal circulation in patients with supradiaphragmal tumor thrombus. Cytoreductive surgery appears to be beneficial for patients with metastatic disease, especially when consecutive therapy is performed. Although sample size of our study cohort is limited consistent with some other studies lymph node invasion, distant metastasis and grading seem to have prognostic value.
Trypanosome Motion Represents an Adaptation to the Crowded Environment ofthe Vertebrate Bloodstream
(2012)
Blood is a remarkable habitat: it is highly viscous, contains a dense packaging of cells and perpetually flows at velocities varying over three orders of magnitude. Only few pathogens endure the harsh physical conditions within the vertebrate bloodstream and prosper despite being constantly attacked by host antibodies. African trypanosomes are strictly extracellular blood parasites, which evade the immune response through a system of antigenic variation and incessant motility. How the flagellates actually swim in blood remains to be elucidated. Here, we show that the mode and dynamics of trypanosome locomotion are a trait of life within a crowded environment. Using high-speed fluorescence microscopy and ordered micro-pillar arrays we show that the parasites mode of motility is adapted to the density of cells in blood. Trypanosomes are pulled forward by the planar beat of the single flagellum. Hydrodynamic flow across the asymmetrically shaped cell body translates into its rotational movement. Importantly, the presence of particles with the shape, size and spacing of blood cells is required and sufficient for trypanosomes to reach maximum forward velocity. If the density of obstacles, however, is further increased to resemble collagen networks or tissue spaces, the parasites reverse their flagellar beat and consequently swim backwards, in this way avoiding getting trapped. In the absence of obstacles, this flagellar beat reversal occurs randomly resulting in irregular waveforms and apparent cell tumbling. Thus, the swimming behavior of trypanosomes is a surprising example of micro-adaptation to life at low Reynolds numbers. For a precise physical interpretation, we compare our high-resolution microscopic data to results from a simulation technique that combines the method of multi-particle collision dynamics with a triangulated surface model. The simulation produces a rotating cell body and a helical swimming path, providing a functioning simulation method for a microorganism with a complex swimming strategy
Trypanosome Motion Represents an Adaptation to the Crowded Environment of the Vertebrate Bloodstream
(2012)
Blood is a remarkable habitat: it is highly viscous, contains a dense packaging of cells and perpetually flows at velocities varying over three orders of magnitude. Only few pathogens endure the harsh physical conditions within the vertebrate bloodstream and prosper despite being constantly attacked by host antibodies. African trypanosomes are strictly extracellular blood parasites, which evade the immune response through a system of antigenic variation and incessant motility. How the flagellates actually swim in blood remains to be elucidated. Here, we show that the mode and dynamics of trypanosome locomotion are a trait of life within a crowded environment. Using high-speed fluorescence microscopy and ordered micro-pillar arrays we show that the parasites mode of motility is adapted to the density of cells in blood. Trypanosomes are pulled forward by the planar beat of the single flagellum. Hydrodynamic flow across the asymmetrically shaped cell body translates into its rotational movement. Importantly, the presence of particles with the shape, size and spacing of blood cells is required and sufficient for trypanosomes to reach maximum forward velocity. If the density of obstacles, however, is further increased to resemble collagen networks or tissue spaces, the parasites reverse their flagellar beat and consequently swim backwards, in this way avoiding getting trapped. In the absence of obstacles, this flagellar beat reversal occurs randomly resulting in irregular waveforms and apparent cell tumbling. Thus, the swimming behavior of trypanosomes is a surprising example of micro-adaptation to life at low Reynolds numbers. For a precise physical interpretation, we compare our high-resolution microscopic data to results from a simulation technique that combines the method of multi-particle collision dynamics with a triangulated surface model. The simulation produces a rotating cell body and a helical swimming path, providing a functioning simulation method for a microorganism with a complex swimming strategy.
Background: Target values for cardiovascular risk factors in patients with coronary heart disease (CHD) are stated in guidelines for the prevention of cardiovascular disease. We studied secular trends in risk factors over a 12-year period among CHD patients in the region of Munster, Germany.
Methods: The cross-sectional EUROASPIRE I, II and III surveys were performed in multiple centers across Europe. For all three, the Munster region was the participating German region. In the three periods 1995/96, 1999/2000, and 2006/07, the surveys included (respectively) 392, 402 and 457 <= 70-year-old patients with CHD in Munster who had sustained a coronary event at least 6 months earlier.
Results: The prevalence of smoking remained unchanged, with 16.8% in EUROASPIRE I and II and 18.4% in EUROASPIRE III (p=0.898). On the other hand, high blood pressure and high cholesterol both became less common across the three EUROASPIRE studies (60.7% to 69.4% to 55.3%, and 94.3% to 83.4% to 48.1%, respectively; p<0.001 for both). Obesity became more common (23.0% to 30.6% to 43.1%, p<0.001), as did treatment with antihypertensive and lipid-lowering drugs (80.4% to 88.6% to 94.3%, and 35.0% to 67.4% to 87.0%, respectively; p<0.001 for both).
Conclusion: The observed trends in cardiovascular risk factors under-score the vital need for better preventive strategies in patients with CHD.
Background
Blood-born miRNA signatures have recently been reported for various tumor diseases. Here, we compared the miRNA signature in Wilms tumor patients prior and after preoperative chemotherapy according to SIOP protocol 2001.
Results
We did not find a significant difference between miRNA signature of both groups. However both, Wilms tumor patients prior and after chemotherapy showed a miRNA signature different from healthy controls. The signature of Wilms tumor patients prior to chemotherapy showed an accuracy of 97.5% and of patients after chemotherapy an accuracy of 97.0%, each as compared to healthy controls.
Conclusion
Our results provide evidence for a blood-born Wilms tumor miRNA signature largely independent of four weeks preoperative chemotherapy treatment.
Im Rahmen der vorliegenden Arbeit wurden neue Einblicke bezüglich des Transport-prozesses vakuolärer Protonenpumpen, Zuckertransporter und des SV-Kanals von Arabidopsis thaliana gewonnen: 1. Mittels Patch-clamp-Technik wurden ATP- und Pyrophosphat-induzierte Pump-ströme an Mesophyllvakuolen des Wildtyps gemessen. Die durch ATP hervor-gerufenen Pumpströme konnten durch den spezifischen V-ATPase-Inhibitor Concanamycin A vollständig inhibiert werden. Messungen an der V-ATPase-Doppelmutante vha-a2-vha-a3 hingegen zeigten eine kaum vorhandene ATPase-Aktivität auf. Die vakuoläre Pyrophosphatase-Aktivität der vha-a2-vha-a3-Mutante war mit dem WT vergleichbar und konnte die verminderten Pumpströme der V-ATPase nicht kompensieren. Zudem wurde an A. thaliana WT-Pflanzen die Expressionsrate und Pumpstromdichte der V-ATPase von Schließzellen und Mesophyllzellen untersucht. Dabei konnte bei Schließzellen eine höhere Expressionsrate sowie Pumpleistung im Vergleich zu Mesophyllzellen detektiert werden, wodurch an der vakuolären Membran von Schließzellen eine starke protonenmotorische Kraft generiert werden kann. 2. Des Weiteren wurden die Transporteigenschaften des im Tonoplasten lokalisierten Transportproteins AtINT1 an Arabidopsis Mesophyllzellen des Wildtyps näher untersucht. Unter inversen pH-Wert-Bedingungen konnte AtINT1 als Symporter identifiziert werden, welcher myo-Inositol H+-gekoppelt aus der Vakuole in das Cytosol transportiert. 3. Überdies wurde eine elektrophysiologische Charakterisierung des AtSUC4-Transporters durchgeführt. Unter einem physiologischen Protonengradienten konnte bei WT- und Atsuc4.1-Vakuolen ausschließlich ein Saccharose/H+ ge-triebener Antiportmechanismus detektiert werden. Im Gegensatz dazu zeigten 60 % der AtSUC4-ÜE unter inversen pH-Gradienten während Saccharose-Applikation Ströme, die auf einen Saccharose/H+-Symportmechanismus hinweisen. Bei der Atsuc4.1-Verlustmutante hingegen konnten unter gleichen Lösungsbedingungen ausschließlich Ströme detektiert werden, die mit einem Saccharose/H+-gekoppelten Antiportmechanismus in Einklang zu bringen sind. Durch die Erkenntnisse der Arbeitsgruppe unter Norbert Sauer, Universität Erlangen, wird die Vermutung untermauert, dass AtSUC4 Saccharose im Symport mit H+ aus der Vakuole in das Cytosol transportiert und somit eine Rolle bei der Remobilisierung der in der Vakuole gespeicherten Saccharose übernimmt. 4. Darüber hinaus konnten Studien am nichtselektiven spannungsabhängigen „slow-vacuolar-channel“ (SV-Kanal) von Arabidopsis Mesophyllvakuolen durchgeführt werden. Dabei wurde das 14-3-3-Protein GRF6 als regulatorisches Protein identifiziert, welches die SV-Kanalaktivität stark verringert. Die gain-of-function Mutante fou2 mit der Punktmutation D454N im TPC1-Kanalprotein zeigt abweichende Kanaleigenschaften zum WT auf. Das Aktivie-rungspotential des fou2-SV-Kanals liegt bei 30 mV negativeren Membranspan-nungen, was die Offenwahrscheinlichkeit des SV-Kanals unter physiologischen Membranspannungen erhöht. Die fou2-Mutation beeinflusst außerdem die luminale Ca2+-Bindestelle des SV-Kanals, wodurch die Affinität bzgl. luminalem Ca2+ geringer ist und die fou2-SV-Kanalaktivität bei hohen luminalen Ca2+-Konzentrationen bestehen bleibt. Die absolute Offenwahrscheinlichkeit des WT-SV-Kanals nimmt mit Ansäuern des vakuolären Lumens im Gegensatz zum fou2-SV-Kanal stark ab, die Einzelkanalleitfähigkeit des WT- als auch des fou2-SV-Kanals dagegen zu. Anhand der durchgeführten Messungen konnte eine regulatorische, vakuolär gelegene Ca2+-Bindestelle des TPC1-kodierten Kanals lokalisiert und charakterisiert werden, welche sich vermutlich nahe am Spannungssensor befindet und unter physiologischen Membranspannungen einen einwärtsgerichteten Kationenstrom ermöglicht. 5. Ferner wurden SV-Kanäle von Schließzellen untersucht und deren spezifische Eigenschaften mit Mesophyll-SV-Kanälen verglichen. In Schließzellen liegt neben einer erhöhten Transkriptmenge des single-copy Gens TPC1 eine höhere Stromdichte des SV-Kanals vor. Unter einwärtsgerichtetem K+-Gradienten liegt das Aktivierungspotential von Schließzell-SV-Kanäle um 30 mV negativer als bei Mesophyllvakuolen, was unter physiologischen Membranspannungen zu einem ausgeprägtem K+-Einstrom führt. Darüber hinaus zeigte der Schließzell-SV-Kanal eine höhere Permeabilität von Na+- gegenüber K+-Ionen (1,3:1) auf. Während Schließzell- und Mesophyll-SV-Kanäle eine vergleichbare luminale Ca2+-Sensitivität aufweisen, zeigen Schließzell-SV-Kanäle eine höhere cytosoli-sche Ca2+- und vakuoläre pH-Sensitivität auf. Sequenzanalysen der TPC1-cDNA zeigten, dass die Zelltypspezifischen Unterschiede des SV-Kanals nicht durch posttranskriptionale Modifikation hervorgerufen werden.
Compared to transcriptional activation, other mechanisms of gene regulation have not been widely exploited for the control of transgenes. One barrier to the general use and application of alternative splicing is that splicing-regulated transgenes have not been shown to be reliably and simply designed. Here, we demonstrate that a cassette bearing a suicide exon can be inserted into a variety of open reading frames (ORFs), generating transgenes whose expression is activated by exon skipping in response to a specific protein inducer. The surprisingly minimal sequence requirements for the maintenance of splicing fidelity and regulation indicate that this splicing cassette can be used to regulate any ORF containing one of the amino acids Glu, Gln or Lys. Furthermore, a single copy of the splicing cassette was optimized by rational design to confer robust gene activation with no background expression in plants. Thus, conditional splicing has the potential to be generally useful for transgene regulation.
Tardigrades have unique stress-adaptations that allow them to survive extremes of cold, heat, radiation and vacuum. To study this, encoded protein clusters and pathways from an ongoing transcriptome study on the tardigrade \(Milnesium\) \(tardigradum\) were analyzed using bioinformatics tools and compared to expressed sequence tags (ESTs) from \(Hypsibius\) \(dujardini\), revealing major pathways involved in resistance against extreme environmental conditions. ESTs are available on the Tardigrade Workbench along with software and databank updates. Our analysis reveals that RNA stability motifs for \(M.\) \(tardigradum\) are different from typical motifs known from higher animals. \(M.\) \(tardigradum\) and \(H.\) \(dujardini\) protein clusters and conserved domains imply metabolic storage pathways for glycogen, glycolipids and specific secondary metabolism as well as stress response pathways (including heat shock proteins, bmh2, and specific repair pathways). Redox-, DNA-, stress- and protein protection pathways complement specific repair capabilities to achieve the strong robustness of \(M.\) \(tardigradum\). These pathways are partly conserved in other animals and their manipulation could boost stress adaptation even in human cells. However, the unique combination of resistance and repair pathways make tardigrades and \(M.\) \(tardigradum\) in particular so highly stress resistant.
Das Nebennierenrindenkarzinom (NNR-Ca) gehört mit einer Inzidenz von 1-2/1000000 zu den seltenen malignen Neubildungen. Neben Sarkomen, Hirntumoren, Brustkrebs und Leukämie gehört das NNR-Ca zu den Kerntumoren, durch die das selten vorkommende autosomal dominante Tumor-Prädispositions Syndrom, das Li Fraumeni Syndrom (LFS) gekennzeichnet ist. Das LFS wird mit Keimbahnmutationen im Tumorsuppressor Gen TP53 in Verbindung gebracht. Die vorliegende Arbeit untersucht TP53 Keimbahnmutationen und -polymorphismen und ihre Auswirkung auf klinische Faktoren bei einem großen Kollektiv von erwachsenen NNR-Ca Patienten.
Es wurde DNS aus Blut und teilweise aus Tumorgewebe von Patienten aus dem Deutschen Nebennierenrindenkarzinom Register extrahiert und die Exons 2 bis 11 von TP53 sequenziert. Darüber hinaus wurde der Nachweis der Mutationen und eines Loss of Heterozgosity von TP53 im Tumorgewebe und die immunhistochemische Färbung von p53 vorgenommen. Die anschließende Auswertung der Daten erfolgte unter Einbeziehung des klinischen Verlaufs der Krankheit bei den Patienten.
In dieser Arbeit konnten vier NNR-Ca Patienten (3,9 %) mit mindestens einer Keimbahnmutation im TP53 identifiziert werden, bei den unter 40-jährigen entspricht dies einem Anteil von 13,0 %. Unter der Altersgrenze von 40 Jahren sollte daher ein TP53 Mutationsscreening erwogen werden.
Die Auswertung der Polymorphismen zeigte, dass diese einen Einfluss auf die Entstehung und den klinischen Verlauf des NNR-Cas zu haben scheinen, jedoch weitere Studien nötig sind.
Malaria and HIV are among the most important global health problems of our time and together are responsible for approximately 3 million deaths annually. These two diseases overlap in many regions of the world including sub-Saharan Africa, Southeast Asia and South America, leading to a higher risk of co-infection. In this study, we generated and characterized hybrid molecules to target P. falciparum and HIV simultaneously for a potential HIV/malaria combination therapy. Hybrid molecules were synthesized by covalent fusion between azidothymidine (AZT) and dihydroartemisinin (DHA), tetraoxane or chloroquine (CQ); and a small library was generated and tested for antiviral and antimalarial activity. Our data suggest that dihyate is the most potent molecule in vitro, with antiplasmodial activity comparable to that of DHA (IC50 = 26 nM, SI > 3000), a moderate activity against HIV (IC50 = 2.9 µM; SI > 35) and safe to HeLa cells at concentrations used in the assay (CC50 > 100 µM). Pharmacokinetic studies further revealed that dihyate is metabolically unstable and is cleaved following an O-dealkylation once in contact with cytochrome P450 enzymes. The later further explains the uneffectiveness of dihyate against the CQ-sensitive P. berghei N strain in mice when administered by oral route at 20 mg/kg. Here, we report on a first approach to develop antimalarial/anti-HIV hybrid molecules and future optimization efforts will aim at producing second generation hybrid molecules to improve activity against HIV as well as compound bioavailability. With the emergence of resistant parasites against all the counterpart drugs of artemisinin derivatives used in artemisinin based combination therapies (ACTs), the introduction of antibiotics in the treatment of malaria has renewed interest on the identification of antibiotics with potent antimalarial properties. In this study we also investigated the antiplasmodial potential of thiostrepton and derivatives, synthesized using combinations of tail truncation, oxidation, and addition of lipophilic thiols to the terminal dehydroamino acid. We showed that derivatives SS231 and SS234 exhibit a better antiplasmodial activity (IC50 = 1 µM SI > 59 and SI > 77 respectively) than thiostrepton (IC50 = 8.95 µM, SI = 1.7). The antiplasmodial activity of these derivatives was observed at concentrations which are not hemolytic and non-toxic to human cell lines. Thiostrepton and derivatives appeared to exhibit transmission blocking properties when administered at their IC50 or IC90 concentrations and our data also showed that they attenuate proteasome activity of Plasmodium, which resulted in an accumulation of ubiquitinated proteins after incubation with their IC80 concentrations. Our results indicate that the parasite’s proteasome could be an attractive target for therapeutic intervention. In this regard, thiostrepton derivatives are promising candidates by dually acting on two independent targets, the proteasome and the apicoplast, with the capacity to eliminate both intraerythrocytic asexual and transmission stages of the parasite. To further support our findings, we evaluated the activity of a new class of antimalarial and proteasome inhibitors namely peptidyl sulfonyl fluorides on gametocyte maturation and analogues AJ34 and AJ38 were able to completely suppress gametocytogenesis at IC50 concentrations (0.23 µM and 0.17 µM respectively) suggesting a strong transmission blocking potential. The proteasome, a major proteolytic complex, responsible for the degradation and re-cycling of non-functional proteins has been studied only indirectly in P. falciparum. In addition, an apparent proteasome-like protein with similarity to bacterial ClpQ/hslV threonine-peptidases was predicted in the parasite. Antibodies were generated against the proteasome subunits alpha type 5 (α5-SU), beta type 5 (β5-SU) and pfhslV in mice and we showed that the proteasome is expressed in both sexual and asexual blood stages of P. falciparum, where they localize in the nucleus and in the cytoplasm. However, expression of PfhslV was only observed in trophozoites and shizonts. The trafficking of the studied proteasome subunits was further investigated by generating parasites expressing GFP tagged proteins. The expression of α5-SU-GFP in transgenic parasite appeared to localize abundantly in the cytoplasm of all blood stages, and no additional information was obtained from this parasite line. In conclusion, our data highlight two new tools towards combination therapy. Hybrid molecules represent promising tools for the cure of co-infected individuals, while very potent antibiotics with a wide scope of activities could be useful in ACTs by eliminating resistant parasites and limiting transmission of both, resistances and disease.
Oxide heterostructures attract a lot of attention as they display a vast range of physical phenomena like conductivity, magnetism, or even superconductivity. In most cases, these effects are caused by electron correlations and are therefore interesting for studying fundamental physics, but also in view of future applications. This thesis deals with the growth and characterization of several prototypical oxide heterostructures. Fe3O4 is highly ranked as a possible spin electrode in the field of spintronics. A suitable semiconductor for spin injection in combination with Fe3O4 is ZnO due to its oxide character and a sufficiently long spin coherence length. Fe3O4 has been grown successfully on ZnO using pulsed laser deposition and molecular beam epitaxy by choosing the oxygen partial pressure adequately. Here, a pressure variation during growth reduces an FeO-like interface layer. Fe3O4 films grow in an island-like growth mode and are structurally nearly fully relaxed, exhibiting the same lattice constants as the bulk materials. Despite the presence of a slight oxygen off-stoichiometry, indications of the Verwey transition hint at high-quality film properties. The overall magnetization of the films is reduced compared to bulk Fe3O4 and a slow magnetization behavior is observed, most probably due to defects like anti-phase boundaries originating from the initial island growth. LaAlO3/SrTiO3 heterostructures exhibit a conducting interface above a critical film thickness, which is most likely explained by an electronic reconstruction. In the corresponding model, the potential built-up owing to the polar LaAlO3 overlayer is compensated by a charge transfer from the film surface to the interface. The properties of these heterostructures strongly depend on the growth parameters. It is shown for the first time, that it is mainly the total pressure which determines the macroscopic sample properties, while it is the oxygen partial pressure which controls the amount of charge carriers near the interface. Oxygen-vacancy-mediated conductivity is found for too low oxygen pressures. A too high total pressure, however, destroys interface conductivity, most probably due to a change of the growth kinetics. Post-oxidation leads to a metastable state removing the arbitrariness in controlling the electronic interface properties by the oxygen pressure during growth. LaVO3/SrTiO3 heterostructures exhibit similar behavior compared to LaAlO3/SrTiO3 when it comes to a thickness-dependent metal-insulator transition. But in contrast to LaAlO3, LaVO3 is a Mott insulator exhibiting strong electron correlations. Films have been grown by pulsed laser deposition. Layer-by-layer growth and a phase-pure pervoskite lattice structure is observed, indicating good structural quality of the film and the interface. An electron-rich layer is found near the interface on the LaVO3 side for conducting LaVO3/SrTiO3. This could be explained by an electronic reconstruction within the film. The electrostatic doping results in a band-filling-controlled metal-insulator transition without suffering from chemical impurities, which is unavoidable in conventional doping experiments.
In this research, an attempt to create a knowledge-based learning system for the Quranic text has been performed. The knowledge base is made up of the Quranic text along with detailed information about each chapter and verse, and some rules. The system offers the possibility to study the Quran through web-based interfaces, implementing novel visualization techniques for browsing, querying, consulting, and testing the acquired knowledge. Additionally the system possesses knowledge acquisition facilities for maintaining the knowledge base.
In recent years, Ideomotor Theory has regained widespread attention and sparked the development of a number of theories on goal-directed behavior and learning. However, there are two issues with previous studies’ use of Ideomotor Theory. Although Ideomotor Theory is seen as very general, it is often studied in settings that are considerably more simplistic than most natural situations. Moreover, Ideomotor Theory’s claim that effect anticipations directly trigger actions and that action-effect learning is based on the formation of direct action-effect associations is hard to address empirically. We address these points from a computational perspective. A simple computational model of Ideomotor Theory was tested in tasks with different degrees of complexity.The model evaluation showed that Ideomotor Theory is a computationally feasible approach for understanding efficient action-effect learning for goal-directed behavior if the following preconditions are met: (1) The range of potential actions and effects has to be restricted. (2) Effects have to follow actions within a short time window. (3) Actions have to be simple and may not require sequencing. The first two preconditions also limit human performance and thus support Ideomotor Theory. The last precondition can be circumvented by extending the model with more complex, indirect action generation processes. In conclusion, we suggest that IdeomotorTheory offers a comprehensive framework to understand action-effect learning. However, we also suggest that additional processes may mediate the conversion of effect anticipations into actions in many situations.
In this thesis, time-optimal control of the bi-steerable robot is addressed. The bi-steerable robot, a vehicle with two independently steerable axles, is a complex nonholonomic system with applications in many areas of land-based robotics. Motion planning and optimal control are challenging tasks for this system, since standard control schemes do not apply. The model of the bi-steerable robot considered here is a reduced kinematic model with the driving velocity and the steering angles of the front and rear axle as inputs. The steering angles of the two axles can be set independently from each other. The reduced kinematic model is a control system with affine and non-affine inputs, as the driving velocity enters the system linearly, whereas the steering angles enter nonlinearly. In this work, a new approach to solve the time-optimal control problem for the bi-steerable robot is presented. In contrast to most standard methods for time-optimal control, our approach does not exclusively rely on discretization and purely numerical methods. Instead, the Pontryagin Maximum Principle is used to characterize candidates for time-optimal solutions. The resultant boundary value problem is solved by optimization to obtain solutions to the path planning problem over a given time horizon. The time horizon is decreased and the path planning is iterated to approximate a time-optimal solution. An optimality condition is introduced which depends on the number of cusps, i.e., reversals of the driving direction of the robot. This optimality condition allows to single out non-optimal solutions with too many cusps. In general, our approach only gives approximations of time-optimal solutions, since only normal regular extremals are considered as solutions to the path planning problem, and the path planning is terminated when an extremal with minimal number of cusps is found. However, for most desired configurations, normal regular extremals with the minimal number of cusps provide time-optimal solutions for the bi-steerable robot. The convergence of the approach is analyzed and its probabilistic completeness is shown. Moreover, simulation results on time-optimal solutions for the bi-steerable robot are presented.
A measurement of B\(^0_s\)→J/ψϕ decay parameters, including the CP -violating weak phase ϕ\(_s\) and the decay width difference ΔΓ\(_s\) is reported, using 4.9 fb\(^{−1}\) of integrated luminosity collected in 2011 by the ATLAS detector from LHC pp collisions at a centre-of-mass energy √s=7 TeV. The mean decay width Γ\(_s\) and the transversity amplitudes |A\(_0\)(0)|\(^2\) and |A\(_∥\)(0)|\(^2\) are also measured. The values reported for these parameters are:
ϕ\(_s\)=0.22±0.41 (stat.)±0.10 (syst.) rad
ΔΓ\(_s\)=0.053±0.021 (stat.)±0.010 (syst.)ps\(^{−1}\)
Γ\(_s\)=0.677±0.007 (stat.)±0.004 (syst.) ps\(^{−1}\)
|A\(_0\)(0)|\(^2\)=0.528±0.006 (stat.)±0.009 (syst.)
|A\(_∥\)(0)|\(^2\)=0.220±0.008 (stat.)±0.007 (syst.)
where the values quoted for ϕ\(_s\) and ΔΓ\(_s\) correspond to the solution compatible with the external measurements to which the strong phase δ\(_⊥\) is constrained and where ΔΓ\(_s\) is constrained to be positive. The fraction of S-wave KK or f\(_0\) contamination through the decays B\(^0_s\)→J/ψK\(^+\)K\(^−\)(f\(_0\)) is measured as well and is found to be consistent with zero. Results for ϕ\(_s\) and ΔΓ\(_s\) are also presented as 68%, 90% and 95% likelihood contours, which show agreement with Standard Model expectations.
The analysis presented in this paper applies to experimental situations where observers or objects to be studied, all at stationary positions, are located in environments the optical thickness of which is strongly different. Non-transparent media comprise thin metallic films, packed or fluidised beds, superconductors, the Earth’s crust, and even dark clouds and other cosmological objects. The analysis applies mapping functions that correlate physical events, e, in non-transparent media, with their images, f(e), tentatively located on standard physical time scale. The analysis demonstrates, however, that physical time, in its rigorous sense, does not exist under non-transparency conditions. A proof of this conclusion is attempted in three steps: i) the theorem “there is no time without space and events” is accepted, (ii) images f[e(s,t)] do not constitute a dense, uncountably infinite set, and (iii) sets of images that are not uncountably infinite do not create physical time but only time-like sequences. As a consequence, mapping f[e(s,t)] in non-transparent space does not create physical analogues to the mathematical structure of the ordered, dense half-set R+ of real numbers, and reverse mapping, f-1f[e(s,t)], the mathematical inverse problem, would not allow unique identification and reconstruction of original events from their images. In these cases, causality as well as invariance of physical processes under time reversal, might be violated. An interesting problem is whether temporal cloaking (a time hole) in a transparent medium, as very recently reported in the literature, can be explained by the present analysis. Existence of time holes could perhaps be possible, not in transparent but in non-transparent media, as follows from the sequence of images, f[e(s,t)], that is not uncountably infinite, in contrast to R+. Impacts are expected for understanding physical diffusion-like, radiative transfer processes and stability models to protect superconductors against quenchs. There might be impacts also in relativity, quantum mechanics, nuclear decay, or in systems close to their phase transitions. The analysis is not restricted to objects of laboratory dimensions.
Background
A new thromboembolic animal model showed beneficial effects of t-PA with an infarct volume reduction of 36.8% in swiss mice. Because knock-out animal experiments for stroke frequently used C57BL76 mice we evaluated t-PA effects in this mouse strain and measured infarct volume and vascular recanalisation in-vivo by using high-field 9.4 T MRI and a 1H surface cryo coil.
Methods
Clot formation was triggered by microinjection of murine thrombin into the right middle cerebral artery (MCA). Animals (n = 28) were treated with 10 mg/kg, 5 mg/kg or no tissue plasminogen activator (t-PA) 40 min after MCA occlusion. For MR-imaging a Bruker 9.4 T animal system with a 1H surface cryo probe was used and a T2-weighted RARE sequence, a diffusion weighted multishot EPI sequence and a 3D flow-compensated gradient echo TOF angiography were performed.
Results
The infarct volume in animals treated with t-PA was significantly reduced (0.67 ± 1.38 mm3 for 10 mg/kg and 10.9 ± 8.79 mm3 for 5 mg/kg vs. 19.76 ± 2.72 mm3 ; p < 0.001) compared to untreated mice. An additional group was reperfused with t-PA inside the MRI. Already ten minutes after beginning of t-PA treatment, reperfusion flow was re-established in the right MCA. However, signal intensity was lower than in the contralateral MCA. This reduction in cerebral blood flow was attenuated during the first 60 minutes after reperfusion. 24 h after MCA occlusion and reperfusion, no difference in signal intensity of the contralateral and ipsilateral MCAs was observed.
Conclusions
We confirm a t-Pa effect using this stroke model in the C57BL76 mouse strain and demonstrate a chronological sequence MRI imaging after t-PA using a 1H surface cryo coil in a 9.4 T MRI. This setting will allow testing of new thrombolytic strategies for stroke treatment in-vivo in C57BL76 knock-out mice.
Three-dimensional fluorescence imaging of thick tissue samples with near-molecular resolution remains a fundamental challenge in the life sciences. To tackle this, we developed tomoSTORM, an approach combining single-molecule localization-based super-resolution microscopy with array tomography of structurally intact brain tissue. Consecutive sections organized in a ribbon were serially imaged with a lateral resolution of 28 nm and an axial resolution of 40 nm in tissue volumes of up to 50 \(\mu\)mx50\(\mu\)mx2.5\(\mu\)m. Using targeted expression of membrane bound (m)GFP and immunohistochemistry at the calyx of Held, a model synapse for central glutamatergic neurotransmission, we delineated the course of the membrane and fine-structure of mitochondria. This method allows multiplexed super-resolution imaging in large tissue volumes with a resolution three orders of magnitude better than confocal microscopy.
Animals acquire predictive values of sensory stimuli through reinforcement. In the brain of Drosophila melanogaster, activation of two types of dopamine neurons in the PAM and PPL1 clusters has been shown to induce aversive odor memory. Here, we identified the third cell type and characterized aversive memories induced by these dopamine neurons. These three dopamine pathways all project to the mushroom body but terminate in the spatially segregated subdomains. To understand the functional difference of these dopamine pathways in electric shock reinforcement, we blocked each one of them during memory acquisition. We found that all three pathways partially contribute to electric shock memory. Notably, the memories mediated by these neurons differed in temporal stability. Furthermore, combinatorial activation of two of these pathways revealed significant interaction of individual memory components rather than their simple summation. These results cast light on a cellular mechanism by which a noxious event induces different dopamine signals to a single brain structure to synthesize an aversive memory.
Three different types of non-photochemical de-excitation of absorbed light energy protect photosystem II of the sun- and desiccation-tolerant moss Rhytidium rugosum against photo-oxidation. The first mechanism, which is light-induced in hydrated thalli, is sensitive to inhibition by dithiothreitol. It is controlled by the protonation of a thylakoid protein. Other mechanisms are activated by desiccation. One of them permits exciton migration towards a far-red band in the antenna pigments where fast thermal deactivation takes place. This mechanism appears to be similar to a mechanism detected before in desiccated lichens. A third mechanism is based on the reversible photo-accumulation of a radical that acts as a quencher of excitation energy in reaction centres of photosystem II. On the basis of absorption changes around 800 nm, the quencher is suggested to be an oxidized chlorophyll. The data show that desiccated moss is better protected against photo-oxidative damage than hydrated moss. Slow drying of moss thalli in the light increases photo-protection more than slow drying in darkness.
Anhand einer retrospektiven Datenanalyse sollen Verteilungsmuster von Verbrennungen und Verbrühungen bezogen auf Alter und Geschlecht untersucht werden. Erfasst wurden 212 Patienten im Alter von 0 bis 16 Jahren betrachtet, die im Zeitraum vom 01.01.2004 bis zum 31.12.2009 auf Grund einer thermischen Verletzung stationär im Universitätsklinikum Würzburg der Julius-Maximilians-Universität Würzburg behandelt wurden. Den größten Anteil thermischer Verletzungen im Kindesalter stellen Verbrühungen dar. Betroffen sind vor allem Kleinkinder. Verbrennungen finden sich häufiger bei älteren Kindern und Jugendlichen. Jungen sind gefährdeter als Mädchen solche Verletzungen zu erleiden. Verbrühungen treten vermehrt gegen Ende des Jahres auf, während Verbrennungen in den Sommermonaten gehäuft vorkommen. Betroffen ist zumeist die obere Körperhälfte, wobei Verbrühungen meist Brust, Arme und Beine verletzen, Verbrennungen meist Gesicht und Hände. II°- und III°-Verletzungen haben die gleiche Altersverteilung und sind gleich häufig. Die durchschnittliche Krankenhausverweildauer ist bei Verbrennungen höher als es bei Verbrühungen der Fall ist. Nicht jede III°-Verletzung bedarf einer Hauttransplantation.
Die idiopathische Lungenfibrose ist eine seltene Form der interstitiellen Lungenerkrankung mit variablem Krankheitsverlauf und schlechter Prognose. Diese Arbeit untersucht den Effekt einer Kombinationstherapie aus Immunsuppressiva (Azathioprin / Cyclophosphamid) und Corticosteroiden auf den Verlauf der Erkrankung, v. a. im Hinblick auf eine mögliche Stabilisierung der Lungenfunktion.
Dendritic cells (DCs) are major players in the control of adaptive tolerance and immunity. Therefore, their specific generation and adoptive transfer into patients or their in vivo targeting is attractive for clinical applications. While injections of mature immunogenic DCs are tested in clinical trials, tolerogenic DCs still are awaiting this step. Besides the tolerogenic potential of immature DCs, also semi-mature DCs can show tolerogenic activity but both types also bear unfavorable features. Optimal tolerogenic DCs, their molecular tool bar, and their use for specific diseases still have to be defined. Here, the usefulness of in vitro generated and adoptively transferred semi-mature DCs for tolerance induction is outlined. The in vivo targeting of semi-mature DCs as represented by steady state migratory DCs are discussed for treatment of autoimmune diseases and allergies. First clinical trials with transcutaneous allergen application may point to their therapeutic use in the future.
Primary osteoporosis is an age-related disease characterized by an imbalance in bone homeostasis. While the resorptive aspect of the disease has been studied intensely, less is known about the anabolic part of the syndrome or presumptive deficiencies in bone regeneration. Multipotent mesenchymal stem cells (MSC) are the primary source of osteogenic regeneration. In the present study we aimed to unravel whether MSC biology is directly involved in the pathophysiology of the disease and therefore performed microarray analyses of hMSC of elderly patients (79-94 years old) suffering from osteoporosis (hMSC-OP). In comparison to age-matched controls we detected profound changes in the transcriptome in hMSC-OP, e.g. enhanced mRNA expression of known osteoporosis-associated genes (LRP5, RUNX2, COL1A1) and of genes involved in osteoclastogenesis (CSF1, PTH1R), but most notably of genes coding for inhibitors of WNT and BMP signaling, such as Sclerostin and MAB21L2. These candidate genes indicate intrinsic deficiencies in self-renewal and differentiation potential in osteoporotic stem cells. We also compared both hMSC-OP and non-osteoporotic hMSC-old of elderly donors to hMSC of similar to 30 years younger donors and found that the transcriptional changes acquired between the sixth and the ninth decade of life differed widely between osteoporotic and non-osteoporotic stem cells. In addition, we compared the osteoporotic transcriptome to long term-cultivated, senescent hMSC and detected some signs for pre-senescence in hMSC-OP. Our results suggest that in primary osteoporosis the transcriptomes of hMSC populations show distinct signatures and little overlap with non-osteoporotic aging, although we detected some hints for senescence-associated changes. While there are remarkable inter-individual variations as expected for polygenetic diseases, we could identify many susceptibility genes for osteoporosis known from genetic studies. We also found new candidates, e.g. MAB21L2, a novel repressor of BMP-induced transcription. Such transcriptional changes may reflect epigenetic changes, which are part of a specific osteoporosis-associated aging process.
Background: The weight that gene copy number plays in transcription remains controversial; although in specific cases gene expression correlates with copy number, the relationship cannot be inferred at the global level. We hypothesized that genes steadily expressed by 15 melanoma cell lines (CMs) and their parental tissues (TMs) should be critical for oncogenesis and their expression most frequently influenced by their respective copy number.
Results: Functional interpretation of 3,030 transcripts concordantly expressed (Pearson's correlation coefficient p-value < 0.05) by CMs and TMs confirmed an enrichment of functions crucial to oncogenesis. Among them, 968 were expressed according to the transcriptional efficiency predicted by copy number analysis (Pearson's correlation coefficient p-value < 0.05). We named these genes, "genomic delegates" as they represent at the transcriptional level the genetic footprint of individual cancers. We then tested whether the genes could categorize 112 melanoma metastases. Two divergent phenotypes were observed: one with prevalent expression of cancer testis antigens, enhanced cyclin activity, WNT signaling, and a Th17 immune phenotype (Class A). This phenotype expressed, therefore, transcripts previously associated to more aggressive cancer. The second class (B) prevalently expressed genes associated with melanoma signaling including MITF, melanoma differentiation antigens, and displayed a Th1 immune phenotype associated with better prognosis and likelihood to respond to immunotherapy. An intermediate third class (C) was further identified. The three phenotypes were confirmed by unsupervised principal component analysis.
Conclusions: This study suggests that clinically relevant phenotypes of melanoma can be retraced to stable oncogenic properties of cancer cells linked to their genetic back bone, and offers a roadmap for uncovering novel targets for tailored anti-cancer therapy.
The Serotonergic Central Nervous System of the Drosophila Larva: Anatomy and Behavioral Function
(2012)
The Drosophila larva has turned into a particularly simple model system for studying the neuronal basis of innate behaviors and higher brain functions. Neuronal networks involved in olfaction, gustation, vision and learning and memory have been described during the last decade, often up to the single-cell level. Thus, most of these sensory networks are substantially defined, from the sensory level up to third-order neurons. This is especially true for the olfactory system of the larva. Given the wealth of genetic tools in Drosophila it is now possible to address the question how modulatory systems interfere with sensory systems and affect learning and memory. Here we focus on the serotonergic system that was shown to be involved in mammalian and insect sensory perception as well as learning and memory. Larval studies suggested that the serotonergic system is involved in the modulation of olfaction, feeding, vision and heart rate regulation. In a dual anatomical and behavioral approach we describe the basic anatomy of the larval serotonergic system, down to the single-cell level. In parallel, by expressing apoptosis-inducing genes during embryonic and larval development, we ablate most of the serotonergic neurons within the larval central nervous system. When testing these animals for naive odor, sugar, salt and light perception, no profound phenotype was detectable; even appetitive and aversive learning was normal. Our results provide the first comprehensive description of the neuronal network of the larval serotonergic system. Moreover, they suggest that serotonin per se is not necessary for any of the behaviors tested. However, our data do not exclude that this system may modulate or fine-tune a wide set of behaviors, similar to its reported function in other insect species or in mammals. Based on our observations and the availability of a wide variety of genetic tools, this issue can now be addressed.
Numerous small non-coding RNAs (sRNAs) in bacteria modulate rates of translation initiation and degradation of target mRNAs, which they recognize through base-pairing facilitated by the RNA chaperone Hfq. Recent evidence indicates that the ternary complex of Hfq, sRNA and mRNA guides endoribonuclease RNase E to initiate turnover of both the RNAs. We show that a sRNA not only guides RNase E to a defined site in a target RNA, but also allosterically activates the enzyme by presenting a monophosphate group at the 5′-end of the cognate-pairing “seed.” Moreover, in the absence of the target the 5′-monophosphate makes the sRNA seed region vulnerable to an attack by RNase E against which Hfq confers no protection. These results suggest that the chemical signature and pairing status of the sRNA seed region may help to both ‘proofread’ recognition and activate mRNA cleavage, as part of a dynamic process involving cooperation of RNA, Hfq and RNase E.
SUMMARY GABP is a heterodymeric member of Ets-family transcription factors. It consists of two subunits – GABPa which contains DNA binding domain and GABPb, which provides transcriptional activation domain and nuclear localization signal. GABPa/b complex is essential for transcriptional activation of multiple lineage-restricted and housekeeping genes, several viral genes, and in some cases might function as transcriptional repressor. Large variety of data indicates involvement of GABP in the complex regulation of cell growth, specified by quiescence, stimulation/proliferation, apoptosis and senescence. Expression level of GABPa subunit is rapidly increased when resting cells enter S-phase, and GABPa/b complex is critical to promote the continuity of the cell cycle. Conditional inactivation of GABPa expression in mouse embryonic fibroblasts results in a complete block of proliferation and acquisition of senescence-like phenotype. However, the influence of GABP on the other cell growth determinant – the apoptosis – remains largely obscure. Therefore we aimed to investigate the influence of GABPa/b expression level on the cell growth in vitro. Using siRNA approach we achieved efficient but only transient down-regulation of GABPa expression which precluded further cell growth studies. Persistent increase of the expression of GABPb subunit only resulted in a positive effect on the cell growth speed. Simultaneous conditional overexpression of both GABPa and GABPb subunits though, strongly reduced the growth of the affected cell cultures in reversible and in expression level dependent manner. Interestingly, GABPa/b overexpressing cells did show neither cell cycle arrest nor massive induction of apoptosis. However, more detailed analyses revealed that dampened apoptotic processes were taking place in GABPa/b−overexpressing cells, starting with a prominent activation of caspase-12. Interestingly, activation of downstream effector caspases was rather suppressed explaining a weak increase of apoptotic cells in GABPa/b overexpressing cultures. This effect suggests that the activation of caspase-12 by elevated amounts of exogenous GABPa/b reflects the normal physiological mechanism of caspase-12 regulation.
Platelet activation and aggregation are essential to limit posttraumatic blood loss at sites of vascular injury, but also contribute to arterial thrombosis, leading to myocardial infarction and stroke. Thrombus formation is the result of well-defined molecular events, including agonist-induced elevation of intracellular calcium ([Ca2+]i) and series of cytoskeletal rearrangements. With the help of genetically modified mice, the work presented in this thesis identified novel mechanisms underlying the process of platelet activation in hemostasis and thrombosis. Store-operated calcium entry (SOCE) through Orai1 was previously shown to be the main Ca2+ influx pathway in murine platelets. The residual Ca2+ entry in the Orai1 deficient platelets suggested a role for additional non-store-operated Ca2+ (non-SOC) and receptor operated Ca2+ entry (ROCE) in maintaining platelet calcium homeostasis. Canonical transient receptor potential channel 6 (TRPC6), which is expressed in both human and murine platelets, has been attributed to be involved in SOCE as well as in diacylglycerol (DAG)-triggered ROCE. In the first part of the study, the function of TRPC6 in platelet Ca2+ signaling and activation was analyzed by using the TRPC6 knockout mice. In vitro agonist induced Ca2+ responses and in vivo platelet function were unaltered in Trpc6-/- mice. However, Trpc6-/- mice displayed a completely abolished DAG mediated Ca2+-influx but a normal SOCE. These findings identified TRPC6 as the major DAG operated ROC channel in murine platelets, but DAG mediated ROCE has no major functional relevance for hemostasis and thrombosis. In the second part of the thesis, the involvement of the PDLIM family member CLP36 in the signaling pathway of the major platelet collagen receptor glycoprotein (GP) VI was investigated. The GPVI/FcR-chain complex initiates platelet activation through a series of tyrosine phosphorylation events downstream of the FcR-chain-associated immunoreceptor tyrosine-based activation motif (ITAM). GPVI signaling has to be tightly regulated to prevent uncontrolled intravascular platelet activation, but the underlying mechanisms are not fully understood. The present study reports the adaptor protein CLP36 as a major inhibitor of GPVI-ITAM signaling in platelets. Platelets from mice expressing a truncated form of CLP36, (Clp36ΔLIM) and platelets from mice lacking the entire protein (Clp36-/-) displayed profound hyper-activation in response to GPVI-specific agonists, whereas GPCR signaling pathways remained unaffected. These alterations translated into accelerated thrombus formation and enhanced pro-coagulant activity of Clp36ΔLIM platelets and a pro-thrombotic phenotype in vivo. These studies revealed an unexpected inhibitory function of CLP36 in GPVI-ITAM signaling and established it as a key regulator of arterial thrombosis.
The role of cuticular waxes in the prepenetration processes of Blumeria graminis f.sp. hordei
(2012)
The obligate biotrophic fungus Blumeria graminis f.sp. hordei is the causative agent of barley powdery mildew, a destructive foliar disease. The fungus infests barley (Hordeum vulgare), an important crop plant, which causes remarkable yield losses. Leaf cuticular wax of barley consists mainly of primary alcohols (80%), alkyl esters (10%) and minor constituents such as fatty acids (2%), alkanes (2%) and aldehydes (1%). The asexual airborne conidia have an initial contact to the leaf surface, in an environment dominated by cuticular waxes, which trigger germination and differentiation. The conidia undergo a sequential morphogenesis during that phase, the so-called prepenetration processes. The conidium initially forms a short primary germ tube, followed by a secondary elongated germ tube, which swells and finally forms a septate appressorium. The fungal appressorium infests the epidermal cell of the host plant and establishes an initial haustorium, the feeding structure of the fungus. In order to assess the effects of single host plant wax constituents on the prepenetration processes a novel in vitro assay based on Formvar® resin was established. This system permits the setting up of homogeneous surfaces as substrata, at which the adsorbed amounts and the surface hydrophobicity are highly reproducible, independently of the tested substance classes and chain lengths of the molecules. In this system, very-long-chain aldehydes promoted germination and differentiation of B. graminis f.sp. hordei conidia. The appressorium formation rates were decreasing in a concentration and chain-length dependent manner compared to n-hexacosanal (C26), which was the most effective aldehyde (C22<<C24<C26>C28>>C30). The tested alkanes with even and odd numbers (C24-C33), fatty acids (C20-C28), alkyl esters (C40-C44) and primary alcohols (C20-C30) did not induce germination and appressorium formation. The primary alcohol n-hexacosanol (C26) was an exception, as it was capable of significantly stimulating conidial germination and appressorial germ tube formation. To elucidate the impact of very-long-chain aldehydes on an intact plant surface in vivo, B. graminis f.sp. hordei conidia were inoculated on glossy11 mutant leaves of the non-host plant maize (Zea mays), which are - unlike the wildtype - completely devoid of very-long-chain aldehydes. On glossy11 leaves 60% of B. graminis f.sp. hordei conidia remained ungerminated and 10% developed a mature appressorium, which is three times less than on wildtype plants. Spraying of synthetic n-hexacosanal or wildtype leaf wax on glossy11 leaves fully restored the fungal prepenetration processes. In contrast, spraying of non-inducing n-alkanes, primary alcohols or very-long-chain fatty acids on wildtype leaves of maize mimicked the aldehyde deficient phenotype of glossy11. During the prepenetration processes an appressorium is formed, which is a newly formed specialized cell. Germination and subsequent morphogenesis are linked to the cell cycle in certain phytopathogenic fungi. It was investigated to what extent the prepenetration processes of B. graminis f.sp. hordei are synchronized with cell cycle progression. Hence, a distinct staining procedure of nuclei for fixed samples of B. graminis f.sp. hordei conidia based on DAPI (4,6-diamidino-2-phenylindole) was developed. In combination with a pharmacological approach it was possible to trace mitosis in dependency of conidial germination and differentiation in vivo and in vitro. The uninucleate conidium germinated and after formation of the appressorial germ tube, a single mitosis occurred in the primordial conidium six hours after inoculation. The inhibition of S-phase with hydroxyurea or M-phase with benomyl prevented appressorium formation, but not the development of the appressorial germ tube. These results indicate that mitosis and a successful cytokinesis are necessary prerequisites for the appressorium formation but not for conidial morphogenesis. In order to identify genes that are expressed in response to certain host plant wax constituents, which may be critical for the prepenetration phase, cDNA clone libraries were constructed by suppression subtractive hybridization (SSH) after inoculation. The Formvar® resin based in vitro system provided a stable platform to enrich cDNA sequences that were expressed in B.graminis f.sp. hordei conidia incubated on n-hexacosanal coated surfaces for 22 minutes. Among various candidates, a cDNA sequence was identified, which was upregulated on barley leaves and on surfaces coated with n-hexacosanal or extracted barley leaf wax. The hexacosanal responsive transcript was cloned by 3’ and 5’ RACE. The cDNA sequence showed no homologies to genes of known function in fungal development and fungal pathogenicity in plants.
Introduction. To assess the role of adjuvant androgen deprivation therapy (ADT) in high-risk prostate cancer patients (PCa) after surgery. Materials and Methods. The analysis case matched 172 high-risk PCa patients with positive section margins or non-organ confined disease and negative lymph nodes to receive adjuvant ADT (group 1, n=86 ) or no adjuvant ADT (group 2, n=86). Results. Only 11.6% of the patients died, 2.3% PCa related. Estimated 5–10-year clinical progression-free survival was 96.9% (94.3%) for group 1 and 73.7% (67.0%) for group 2, respectively. Subgroup analysis identified men with T2/T3a tumors at low-risk and T3b margins positive disease at higher risk for progression. Conclusion. Patients with T2/T3a tumors are at low-risk for metastatic disease and cancer-related death and do not need adjuvant ADT. We identified men with T3b margin positive disease at highest risk for clinical progression. These patients benefit from immediate adjuvant ADT.