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Während für Immunkompetente eine HCMV-Infektion meist asymptomatisch verläuft, ist sie bei immunsupprimierten Patienten eine der häufigsten Ursachen für eine erhöhte Mortalität und Morbidität. Zur Risikogruppe gehören u.a. Organtransplantierte, AIDS-Patienten, Patienten mit malignen Tumoren und Bluttransfusionsempfänger. Die HCMV-Infektion ist außerdem die häufigste prä- und perinatale Infektion. Im Hinblick auf die besonders bei Immunsupprimierten teilweise schweren HCMV-bedingten Krankheitsbilder und die Effizienz einer rechtzeitigen Therapie mit antiviralen Chemotherapeutika (Ganciclovir, Foscarnet) ist eine frühe, schnelle und zuverlässige Diagnose notwendig. Auch das Blutspenderscreening bedarf einer zuverlässigen HCMV-Immunstatusbestimmung, um einer transfusionsassoziierten Zytomegalieinfektion vorzubeugen. Der Diagnostik einer HCMV-Infektion stehen eine Vielzahl virologischer und serologischer Methoden zur Verfügung. In der Routinediagnostik wird der ELiSA als schnelles, wenig aufwendiges und billiges Nachweisverfahren eingesetzt. Jedes Jahr werden von der Industrie neue Antikörpertests, basierend auf der ELlSA-Technologie, angeboten. Mit dem Ziel der Verbesserung der Technik werden immer neue Testkits entwickelt. In dieser Arbeit wurden neue indirekte HCMV-lgG-ELISAs (Cytomegalovirus IgG EIA (Radim, Italien); CMV IgG ELiSA (GuII, USA); CMV IgG ELiSA (DMD, Deutschland», ein kompetetiver indirekter HCMV-ELiSA (Captia CMV-TA (Mercia, England» und HCMV-lgG-IFT-Testsysteme (VIRGO Cytomegalo-Virus IgG 1FT (Pharmacia-LKB, Deutschland); Cytomegalovirus IgG 1FT (Viramed, Deutschland» untersucht und verglichen. Als Referenztest fungierte der seit mehreren Jahren etablierte und zugelassene ELiSA Enzygnost-Cytomegalie-lgG-EIA (Behring, Deutschland). Es wurden HCMV-lgG positive Seren und Verdünnungsreihen HCMV-lgG positiver Seren untersucht und verglichen. Außerdem wurden HCMV-lgG negative Seren sowie potentiell kreuzreaktive Seren mit Antikörpern gegen andere Herpesviren und antinukleäre Antikörper- bzw. Rheumafaktor-positive Seren untersucht. Nachtestungen wurden mit dem Enzygnost-Cytomegalie-lgG-EIA (Behring), dem Cytomegalovirus IgG 1FT (Viramed) und selten auch mit dem Western Blot durchgeführt. Die Testauswertung der verschiedenen kommerziell erhältlichen EUSAs und IFTs zeigte zum Teil relativ große Unterschiede bei den HCMV-lgG positiven Seren sowie bei den potentiell kreuzreaktiven Seren, während sie bei HCMV-lgG negativen Seren nur geringfügige Abweichungen aufwies. Das Ziel, die ELlSA-Testsysteme weiterhin zu verbessern, wird mit dem Einsatz hochspezifischer, rekombinanter Antigene verfolgt. Die grundsätzliche Entscheidung für eine serologische, molekularbiologische oder virologische Methode zur HCMV-Diagnostik ist sowohl von der klinischen Fragestellung als auch vom Immunstatus des Patienten abhängig. Bei HCMV-Risikopatienten ist für eine zuverlässige Frühdiagnostik eine Kombination aus Virusisolierung, Antigennachweis, möglicherweise PCR und Serologie zu empfehlen (102). Für die Diagnostik einer aktiven oder latenten HCMV-Infektion beim Screening von Blutspendern wird eine sensitive IgG-Antikörperbestimmung mit Hilfe der ELlSA-Technik als ausreichend bewertet. Da bis zu 60% der potentiellen Blutspender HCMV-seropositiv sind, kommt es allerdings zu extremen Engpässen in der Versorgung mit seronegativen Blutspenden. Nur 2-12% der HCMV-lgG positiven Blutspender werden das Virus auf seronegative Empfänger übertragen, so daß es erstrebenswert ist, die humorale Immunität gegen das humane Zytomegalievirus weiter zu erforschen.
Until now, the NW Indian Ocean was sparsely covered with coral proxy records, and records from the Maldives Archipelago do not exist. The first such coral proxy record from the central Maldives is presented in this study. It originates from a massive Porites lutea (Quoy and Gaimard, 1833) colony that was sampled March 2007 in the lagoon of Rasdhoo Atoll (4°N/ 73°W), which is located in the central Maldives. The record spans a period of 90 yrs and reaches back to 1917 AD with monthly to bimonthly resolution. This study investigates temporal variations of the skeletal stable oxygen (delta18O) and carbon (delta13C) isotopes, the strontium-to-calcium (Sr/Ca), and the annual extension-rates, and their relationship to historical climate variations 1917-2007. Annual extension-rates show an increase over the 20th century, and are correlated with instrumental sea surface temperatures (SST). The interannual variation of the extension-rates within 2.5-4 years is driven by the El Niño-Southern Oscillation (ENSO). The amount of skeletal extension during the summer months is triggered by variations in the strength of the SW monsoon. Interannual and decadal variability in monsoon current activity (18-19 yrs) and rainfall over India are an expression of the summer monsoon strength. This is the reason why a statistical link between coral extension-rates and precipitation over India can be established. This implies that annual extension-rates in corals can be used as a new proxy for Indian monsoon variability on decadal resolution. The delta18O record exhibits the 20th century warming trend that is influenced by the effect of monsoon-induced cooling. delta18O also reveals interannual ENSO triggered variability, which is due to ENSO-forced variations in SST and sea surface salinity (SSS). A decadal variation at 12-14 yrs cannot be linked to SST variations in the NW Indian Ocean, but with decadal variations of SSS. They could be caused by ENSO- forced variations of the monsoon currents during the mature phase of ENSO teleconnections in the Indian Ocean in boreal winter. The Sr/Ca record does not indicate a significant warming, in spite of the observed SST rise at the sampling site. Changes in seawater Sr/Ca cannot be excluded. Nevertheless, interannual ENSO forcing is still evident. Evidence for the Pacific Decadal Oscillation (PDO) is found during 1917-1955. Afterwards, the Sr/Ca data indicate the disappearance of PDO forcing. By the combination of Sr/Ca and delta18O it is possible to detect ~80% of historical El Niño and La Niña events at the sample site. This study confirms the notion that interannual to multi-decadal climate fluctuations in the Pacific play a crucial role for climate variability in the Indian Ocean.
Through the use of information about the biological target structure, the optimization of potential drugs can be improved. In this work I have developed a procedure that uses the quantitative change in the chemical perturbations (CSP) in the protein from NMR experiments for driving protein-ligand docking. The approach is based on a hybrid scoring function (QCSPScore) which combines traditional DrugScore potentials, which describe the interaction between protein and ligand, with Kendall’s rank correlation coefficient, which evaluates docking poses in terms of their agreement with experimental CSP. Prediction of the CSP for a specific ligand pose is done efficiently with an empirical model, taking into account only ring current effects. QCSPScore has been implemented in the AutoDock software package. Compared to previous methods, this approach shows that the use of rank correlation coefficient is robust to outliers. In addition, the prediction of native-like complex geometries improved because the CSP are already being used during the docking process, and not only in a post-filtering setting for generated docking poses. Since the experimental information is guaranteed to be quantitatively used, CSP effectively contribute to align the ligand in the binding pocket. The first step in the development of QCSPScore was the analysis of 70 protein-ligand complexes for which reference CSP were computed. The success rate in the docking increased from 71% without involvement of CSP to 100% if CSP were considered at the highest weighting scheme. In a second step QCSPScore was used in re-docking three test cases, for which reference experimental CSP data was available. Without CSP, i.e. in the use of conventional DrugScore potentials, none of the three test cases could be successfully re-docked. The integration of CSP with the same weighting factor as described above resulted in all three cases successfully re-docked. For two of the three complexes, native-like solutions were only produced if CSP were considered.Conformational changes in the binding pockets of up to 2 Å RMSD did not affect the success of the docking. QCSPScore will be particularly interesting in difficult protein-ligand complexes. They are in particular those cases in which the shape of the binding pocket does not provide sufficient steric restraints such as in flat protein-protein interfaces and in the virtual screening of small chemical fragments.
This thesis presents a 5.9 Å map of yeast FAS obtained by cryo-electron microscopy using single particle analysis (SPA). The EM-map has been analyzed both by quantitative and qualitative analysis to aid in understanding of the structure and dynamics of yeast FAS. This study approaches the factors limiting the resolution in EM (>20 Å) and further discusses the possibilities of achieving higher-resolutions (<10 Å) in cryo-EM by single particle analysis. Here, SPA is highlighted as a powerful tool for understanding the structure and dynamics of macro-molecular complexes at near native conditions. Though SPA has been used over the last four decades, the low-resolution range (20-30 Å) of the method has limited its use in structural biology. Over the last decade, sub nanometer resolution (<10 Å) structures solved by SPA have been reported --both in studies involving symmetric particles, such as GroEL (D7) and asymmetric particles, such as ribosomes (C1). Recently, near-atomic resolution in the range of 3.8-4.2 Å has been achieved in cases of highly symmetric icosahedral viral capsid structures as well. The yeast FAS structure (D3) presented here is one of two low symmetry structures submitted to the EM-database in a resolution range of 5-6 Å; the other being GroEL (D7). Fatty acid synthase (FAS) is the key enzyme for the biosynthesis of fatty acids in living organisms. There are two types of FAS, namely the type II FAS system in prokaryotes, consisting of a set of individual enzymes, and type I FAS found in eukaryotes as a multienzyme complex. Yeast fatty acid synthase (FAS) is a 2.6 MDa barrel-shaped multienzyme complex, which carries out cyclic synthesis of fatty acids. By electron cryomicroscopy of single particles we obtained a 3D map of yeast FAS at 5.9 Å resolution. Compared to the crystal structures of fungal FAS, the EM map reveals major differences and new features that indicate a considerably different arrangement of the complex in solution, as well as a high degree of variance inside the barrel. Distinct density regions in the reaction chambers next to each of the catalytic domains fit well with the substratebinding acyl carrier protein (ACP) domain. In each case, this resulted in the expected distance of ~18 Å from the ACP substrate binding site to the active site of the catalytic domains. The multiple, partially occupied positions of the ACP within the reaction chamber provide direct insight into the proposed substrate-shuttling mechanism of fatty acid synthesis in this large cellular machine.
In this thesis, we study the properties of excitations in the systems of interacting fermions. These excitations can be bosonic such as collective modes which we handle in the first part of this thesis or fermionic like quasi particles and quasi holes. One of the important points, to investigate the excitations is their damping which corresponds to their life-time in the system. This thesis consists of two parts, where in both parts, we use the field-theoretical methods to examine the problem.
Acute myeloid leukemia (AML) is a hematopoietic cell disorder characterized by a block in differentiation and increased proliferation and survival of malignant blasts. Expansion of the malignant cell clone effects the normal production of blood cells and – if left untreated – leads to death. Receptor tyrosine kinases (RTKs) play an important role in the pathogenesis of AML, as they are either often mutated or overexpressed. In normal hematopoiesis, RTK signal termination is tightly controlled, and involves ubiquitination, internalization, endocytosis and degradation. Cbl proteins are E3 ligases and have been shown to ubiquitinate several activated RTKs, including Flt3 and Kit, targeting them for degradation. Recently, several Cbl mutations have been identified: Cbl-R420Q was identified in an AML patient and Cbl-70Z was identified in a mouse lymphoma model. In this thesis work, the role of these Cbl mutants in Kit signaling and in a mouse transplantation model was studied. Cbl mutants (Cbl-R420Q, Cbl-70Z) have the ability to transform the myeloid 32D cell line in cooperation with Kit WT. Cbl mutants along with Kit promoted interleukin-3 (IL3)-independent proliferation and enhanced the cell survival of 32D cells. In contrast, expression of the Cbl mutants alone did not confer IL3-independent growth. Stem cell factor (SCF, the Kit ligand) dependent growth was enhanced in the presence of Cbl mutants and Cbl mutants promoted colonogenic growth in the presence of Kit. Furthermore, Cbl mutants inhibited the ubiquitination of the activated Kit receptor. In addition, Cbl mutants inhibited the endocytosis of the activated Kit receptor. Retroviral expression of Cbl mutants in transplanted bone marrow induced a generalized mastocytosis, a myeloproliferative disease and, in rare care cases, myeloid leukemia. Splenomegaly was observed in the presence of Cbl mutants. Furthermore, mast cells with variable range of infiltration were noticed in all the vital organs (spleen, liver, bone marrow, lung, kidney, heart) of Cbl (mutant) transplanted mice. Almost all recipients of bone marrow cells transduced with Cbl mutants developed a lethal hematologic disorder with a mean latency of 341 days in the Cbl-R420Q group and 395 days in the Cbl-70Z group. This is the first published report on a hematological disease with Cbl mutants in a mouse model. Co-immunoprecipitation studies indicated that Cbl-70Z binds to Kit, even in the absence of Kit ligand. Cbl-R420Q also bound to Kit in the absence of SCF, albeit to a lesser extent. Association of Cbl mutants to Kit was enhanced in the presence of SCF. Signaling studies demonstrated the constitutive activation of Akt and Erk in the presence of Cbl mutants and Kit. In addition, Cbl mutants enhanced the SCF-dependent Kit, Akt and Erk activation. Cbl-70Z, in association with kinase-dead Kit (Kit-KD) or kinase-dead Flt3 (Flt3-KD), conferred IL3-independent growth and survival to the myeloid 32D cell line. Cbl-R420Q provided only a slight growth advantage in the presence of Kit-KD. As demonstrated by pharmacological inhibition studies, Akt activation was necessary for the transformation mediated by Cbl-70Z and Kit-KD / Flt3-KD. Cbl mutants enhanced the Src family kinases (SFKs) activity. The pharmacological inhibition of SFK activity inhibited the proliferation and colonogenic growth. Interaction was found between Cbl-70Z, SFKs and Kit-KD. The SFK member Fyn was identified to bind to Cbl. In addition, kinase activity of SFKs was necessary for binding to Cbl, since SFKs inhibition by PP-2 abolished the binding between the complex-binding partners. Dasatinib and PP-2, both SFK inhibitors, inhibited the Cbl and Akt phosphorylation indicating that Fyn acts upstream of Akt. Inhibition of Kit with imatinib reduced the proliferation of cells overexpressing Kit WT and Cbl-70Z much stronger compared with cells expressing Kit-KD and Cbl-70Z, but much less than the dual KIT/SFK inhibitor dasatinib. This indicated that Kit kinase activity was required but not essential. The data presented in this thesis work implies that both RTK and SFK inhibition may have to be targeted, in order to effectively prevent transformation. In summary, the present thesis work indicates an important role of Cbl, Kit and SFKs in myeloid transformation and deregulated signal transduction.
Im adulten Säugerhirn findet Neurogenese in der SVZ der Seitenventrikel kontinuierlich statt. Eine Vielzahl von Signalsystemen steuert in komplexer Weise zelluläre Antworten und reguliert die Proliferation, Differenzierug und Wanderung NSZ. Gegenwärtig ist nur wenig über die zugrundeliegenden Signalwege bekannt. Zunehmend gibt es Hinweise darauf, dass Nukleotide an diesen Prozessen beteiligt sind. Frühere Untersuchungen unserer Arbeitsgruppe zeigten, das die Nukleotide ADPbetaS und UTP in kultivierten NSZ der adulten SVZ einen schnellen Kalziumeinstrom induzieren und die Wachstumsfaktor-vermittelte NSZ-Proliferation steigern. In der vorliegenden Arbeit wurde ein System zur Kultivierung adhärenter adulter NSZ etabliert. Die Untersuchungen zeigen, dass adulte NSZ eine Vielzahl an P2Y- und P2X-Rezeptoren, sowie die Nukleotid-hydrolysierenden Enzyme NTPDase2 und TNAP exprimieren. Untersuchungen der ADPbetaS-, UTP- und EGF-vermittelten Signalwege zeigen, dass alle drei Agonisten eine ERK1/2- und CREB-Phosphorylierung induzieren, wobei sich die zeitlichen Charakteristika zwischen den Nukleotiden und EGF unterscheiden. Inhibierungsexperimente geben Einblicke in die dabei aktivierten Signalkaskaden und weisen auf eine ADPbetaS-induzierte Transaktivierung des EGF-Rezeptors hin. Während UTP über den P2Y2-Rezeptor wirkt, übt ADPbetaS seine Funktion über den P2Y1- und P2Y13-Rezeptor aus. Die Daten implizieren zudem, dass Nukleotide und EGF gleiche Zielproteine über verschiedene Signalwege induzieren und dass sie das Potenzial besitzen, bei der Kontrolle der Zellproliferation in der adulten Neurogenese synergistisch zu agieren. Vergleichende Analysen mit kultivierten NSZ aus Wildtyp-, P2Y1- und P2Y2-Rezeptor-Knockout-Mäusen belegen ein verändertes Antwortverhalten in Gegenwart von ADPbetaS, UTP und EGF und lassen kompensatorische Mechanismen vermuten. Die Resultate dieser Arbeit demonstrieren zudem, dass ATP, ADPbetaS, UTP und EGF die Migration von NSZ induzieren. Parallel dazu konnten Veränderungen des Aktinzytoskelletes, wie die Zunahme an F-Aktin, die Bildung von Stressfasern und eine Veränderung der Zellmorphologie gezeigt werden. Diese Prozesse gehen mit einer Aktivierung der Proteinkinasen Akt und FAK einher. Die Daten weisen darauf hin, dass Nukleotide und EGF für die Zytoarchitektur der SVZ und die Wanderung von Neuroblasten zum OB eine wichtige Rollen spielen könnten.
Anliegen: Der hausärztlich-ambulanten Versorgung von depressiven Patienten kommt eine zentrale Bedeutung zu. Ein wichtiges Symptom von Depressionen ist Suizidalität. Suizidgedanken bleiben im Hausarztkontakt jedoch oftmals unerkannt. Eine verbesserte Kenntnis von Prädiktoren für Suizidgedanken speziell bei depressiven Patienten in der Primärversorgung kann dazu beitragen, die Erkennung von Suizidgedanken durch den Hausarzt zu verbessern und dadurch eine rechtzeitige Intervention zu ermöglichen. Mit Prädiktoren für Suizidgedanken explizit bei depressiven Patienten in der Primärversorgung haben sich bislang nur wenige Studien befasst, mit teilweise heterogenen Ergebnissen. Ziel der vorliegenden Studie war es daher, an einer großen Stichprobe von Patienten mit Major Depression aus der Hausarztversorgung Prädiktoren für Suizidgedanken zu untersuchen. ...