Biologische Hochschulschriften (Goethe-Universität; nur lokal zugänglich)
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Chemical contamination of the environment and thus of aquatic ecosystems is steadily increasing. Whenever environmental pollutants enter a water body, they affect not only the water, but also the sediment. Substances that bind to sediment particles can be stored for a long time, whereby sediments act as sinks for some contaminants. Therefore, sediment
assessments often more accurately describe the contamination of a water body than investigations of the water itself. Among environmental chemicals, endocrine disrupting compounds (EDCs) have gained more and more attention in recent years. Since they interfere with endocrine systems and may disturb reproduction, they endanger the survival of populations or even species. Hazardous substances enter the aquatic environment by different pathways, with sewage treatment plants (STPs) belonging to the most important contamination sources.The main objective of this work is a comprehensive sediment assessment of predominantly small surface waters in the German federal state of Hesse. The 50 study sites, located in 44 different creeks and small rivers, are situated in the densely populated and economically important Frankfurt/Rhine-Main area, as well as in rural and less urbanized regions.
Chemical analytical data, provided by the Hessian Agency for the Environment and Geology (HLUG), indicated different contamination levels of the study sites. In order to investigate the general toxicity of the sediment samples, the oligochaete Lumbriculus variegatus and the midge Chironomus riparius were exposed to whole sediments and apical endpoints regarding biomass, survival, and reproduction were determined. In further experiments, special attention was paid to the contamination with endocrine active compounds. For this purpose, the reproductive success of the New Zealand mudsnail Potamopyrgus antipodarum was analyzed after exposure to whole sediments. Additionally, a yeast-based reporter gene assay was applied with sediment eluates to assess the estrogenic and androgenic activity of the samples. Biotest results were compared with chemical analysis data to investigate whether the test organisms reflect the measured pollution of the study sites and if the observed effects can be explained by chemical contamination.
Five study sites, all located less than 1 km downstream of a STP discharger, were selected for further investigations based on the results of the sediment monitoring. The sediments from these sites were conspicuous due to their general toxic and/or estrogenic activity. In order to investigate whether the observed effects can be ascribed to the effluents, an active biomonitoring study was conducted with the mudsnail P. antipodarum and the zebra mussel Dreissena polymorpha, exposed at study sites located up- and downstream of the discharger.
In addition to endocrine activity, genotoxic effects were investigated using the comet assay and the micronucleus assay. Endocrine activity was examined based on the reproductive output of P. antipodarum and the content of vitellogenin-like proteins in D. polymorpha. Yeast-based reporter gene assays were used to estimate the endocrine potential (estrogen, anti-estrogen, anti-androgen, dioxin-like) of sediment and water samples.
22% of the 50 sediments showed ecologically relevant effects in the biotests with L. variegatus and C. riparius. Only one sediment caused a relevant effect on both test organisms, while the other ten positively tested sediments affected either L. variegatus or C. riparius, probably due to differences in inter-species sensitivities. This suggests that a combination of different biotests is necessary for a comprehensive evaluation of sediment toxicity. 78% of the sediments caused a significantly increased number of embryos in P. antipodarum, which could be ascribed to estrogenic contamination of the sediment samples. An increase in the number of embryos by 60%, as observed in this study, and an associated increase in population size may result in the displacement of other, less competitive species.
In the in vitro tests, 66% of the sediments showed estrogenic activity and 68% showed androgenic activity. Maximum observed values were 40.9 ng EEQ/kg sediment (EEQ = estradiol equivalent) for estrogenic and 93.4 ng TEQ/kg sediment (TEQ = testosterone equivalent) for androgenic activity. Natural and synthetic hormones as well as alkylphenols were the major contributors to the total estrogenicity of environmental samples in several other studies, and are likely responsible for a large part of the estrogenic activity in this case as well. Similarly, androgenic activity is mainly due to natural steroids and their metabolites.
Bioassay results reflect the analytically measured contamination levels at the study sites only very infrequently. This can be ascribed to the occurrence of integrated effects of chemical mixtures present in the sediments. Additionally, effects of substances not included in the analytical program or of substances present in concentrations below the detection limit of the chemical analytical investigations as well as varying bioavailabilities might be relevant. The fact that a large part of the observed effects cannot be explained by the chemical contamination demonstrates the need for effect studies in ecotoxicological sediment assessments.
In order to identify possible causes for the effects observed in the sediment monitoring, e.g. contamination sources, the area types (urban fabrics, arable lands, pasturages, etc.) of the catchment areas belonging to the study sites were analyzed. No significant differences were found between the area profiles of the sampling sites with and without effects in the biotests.
The results indicate that the contamination responsible for the observed effects can be ascribed to different sources. Furthermore, study sites whose sediments exerted significant effects in biotests were located in anthropogenic as well as in predominantly natural areas. The active biomonitoring study at STPs revealed genotoxic and endocrine effects only sporadically.
However, in the in vitro tests considerable endocrine activities of sediment and water samples were determined. No conclusive picture emerges as to whether the observed effects occur more frequently downstream of the dischargers, and thus could be attributed to a contamination by sewage. This indicates that contamination sources other than STP dischargers, for example agricultural runoff, may contribute to the observed effects. Weaker effects and biological activities downstream of a discharger compared to an upstream site might be ascribed to a dilution effect by the effluents. A comparison of the measured in vitro estrogenicity with exposure studies described in the literature shows that adverse effects in aquatic organisms can be expected at the EEQ concentrations determined in the present study.
The results of the sediment monitoring and the STP study revealed a widespread endocrine pollution of small surface waters in Hesse. The fact that the bioassay results only rarely reflect study site contamination as determined by chemical analysis demonstrates the need for effect studies in comprehensive sediment assessments. In some cases STP dischargers increased, in other cases they decreased the observed in vivo effects and in vitro activity of environmental samples. Transferring the results obtained in laboratory studies to the field, adverse effects on aquatic ecosystems can be expected. The study illustrates the need for restrictive measures that contribute to the removal or reduction of environmental pollutants.
For the identification of substances that have so far not been linked to adverse effects on the environment, methods such as effect-directed analyses (EDA) or toxicity identification evaluation (TIE) should be increasingly applied in future studies. Furthermore, bioassays for the assessment of endocrine activity should be implemented in standardized monitoring programs.
Hepatitis C virus (HCV) assembly and production is closely linked to lipid metabolism. Indeed, lipid droplets (LD) have been shown to serve as a platform for HCV assembly. To investigate the effect of HCV on the host cell proteome, 2D-gelelectrophoresis with subsequent MALDI-TOF mass spectrometry of HCV replicating and the corresponding control cells were done. Based on this analysis, it was found out that HCV-replicating Huh7.5 cells revealed lower amounts of TIP47 (tail interacting protein of 47kD) compared to HCV-negative cells. TIP47, a cytoplasmic sorting factor, has been shown to be associated with lipid droplets. As it is known that HCV-replication and assembly takes place at the so called ”membranous web” that is composed of LDs and rearranged ER-derived membranes, it was tempting to investigate the role of TIP47 in HCV life-cycle. Western blot analysis did reveal that overexpression of TIP47 in HCV replicating Huh7.5 cells leads to decreased amounts of the HCV core protein while the levels of non-structural protein (NS)5A and intracellular HCVgenomes are increased. Moreover, in TIP47 overproducing cells higher amounts of infectious HCV particles are secreted. Vice versa, inhibition of TIP47 expression by siRNA results in a decreased level of intracellular NS5A, increased amounts of intracellular core and less infectious viral particles in the supernatant. In addition, complete silencing of TIP47 by lentiviral transduction abolishes HCV replication that can be restored by transfection of these cells with a TIP47 expression construct. It has been shown recently that apoE binds to NS5A and that this interaction plays an important role for the HCV life cycle (Benga et al., 2010). The C-terminal part of TIP47 harbours a 4 helix bundle motif and displays high homology to the N-terminus of apoE. Therefore, we investigated the interaction of NS5A and TIP47. Confocal double immunofluorescence microscopy revealed that a fraction of NS5A colocalizes with TIP47. Coimmunoprecipitation experiments and a yeast-two-hybrid screening confirmed the interaction between NS5A and TIP47 and deletion of the N-terminal-TIP47-PAT domain abolishes this interaction. From this we conclude that the TIP47-NS5A interaction is required for virus morphogenesis. Moreover, TIP47 can bind to Rab9 and this is relevant for targeting the viral particle out of the cell. In accordance to this, TIP47 was identified to be associated to the viral particle. Mutants of TIP47 that fail to bind Rab9 reveal lower amounts and a changed distribution of the HCV core protein. Furthermore, we could see that the core staining colocalizes with subcellular structures that were identified as autophagosomes using a p62-specific antibody which is a specific autophagosome-marker. Based on this, we hypothized that destruction of the Rab9 binding domain misdirects the viral particle towards the lysosomal compartment.
For the first time it could be shown that TIP47 interacts with NS5A and is associated to the viral particle, therefore plays a crucial role for the virus morphogenesis and secretion of the viral article.
Taken together, these results indicate that TIP47 is an essential cellular factor for the life cycle of HCV Abstract and might be used as target for antiviral treatment, e.g. by targeting the NS5A-TIP47 interaction, based on small molecules that mimic the NS5A-specific sequence that binds to TIP47 which might result in a competition of the TIP47/NS5A interaction.
Biochemical and functional analysis of the ubiquitin binding properties of the NF-κB regulator NEMO
(2012)
Posttranslationale Modifikationen regulieren wesentliche Eigenschaften von Proteinen, wie z. B. Lokalisation, Konformation, Aktivität, Stabilität und Interaktionsfähigkeit. Eine besondere Form der Proteinmodifikation ist die Ubiquitylierung, bei der das kleine Protein Ubiquitin mit seinem C-Terminus kovalent an ein Substratprotein gebunden wird.
Die am besten untersuchte Funktion der Ubiquitylierung ist die Markierung eines Substrates für den Abbau durch das Proteasom. In den letzten Jahren wurde jedoch entdeckt, dass Ubiquitylierung in vielen Bereichen der Zelle eine wichtige Rolle spielt. Dazu gehören der Transport von Vesikeln, die Reparatur von DNA-Schäden und zelluläre Signalübertragung. Ubiquitin kann verschieden-artige Ketten bilden, indem ein Ubiquitin an eines der sieben Lysine (K6, K11, K27, K29, K33, K48, K63) oder den N-Terminus eines anderen gebunden wird. Diese unterschiedlichen Kettentypen regulieren verschiedene Prozesse. Z. B. dienen K48-verknüpfte Ubiquitinketten als Signal für den proteasomalen Abbau, wohingegen über K63 verknüpfte Ketten hauptsächlich eine Rolle bei Signalübertragungen spielen.
Die meisten Funktionen die durch Ubiquitylierung reguliert werden, werden durch Ubiquitinrezeptoren vermittelt, die eine Ubiquitinbindedomäne (UBD) besitzen. Manche UBDs binden selektiv nur einen Ubiquitinkettentyp und sind somit in der Lage gezielt Prozesse regulieren zu können, indem sie nur durch diesen speziellen Kettentyp aktiviert werden.
Das Protein NEMO ist ein Ubiquitinrezeptor, dessen UBD UBAN selektiv bestimmte Ubiquitinketten bindet. NEMO spielt eine zentrale Rolle bei der Aktivierung der Transkriptionsfaktorfamilie NF-κB, indem es den IKK-Kinasekomplex reguliert. Dieser Kinasekomplex sorgt durch die Phosphorylierung des NF-κB-Inhibitors IκBα für dessen proteasomalen Abbau, wodurch schließlich NF-κB aktiviert wird. Die NF-κB-Aktivierung kann u. a. durch den TNF-Rezeptor (TNFR) induziert werden. Am aktivierten TNFR werden viele Proteine durch verschiedene Ubiquitinketten modifiziert. Bisher wurde angenommen, dass die spezifische Bindung von NEMO an K63-verknüpfte Ubiquitinketten ausschlaggebend für die Aktivierung von IKK ist. Jedoch spielen lineare Ubiquitinketten, die über den N-Terminus verknüpft sind, auch eine wichtige Rolle bei der Aktivierung von NF-κB und die UBAN von NEMO hat eine sehr hohe Affinität zu linearen Ubiquitinketten.
Um die genauen Vorgänge zu verstehen, die zur Aktivierung von NF-κB am TNFR führen, ist es nötig, zu analysieren, welche Proteine mit welchen Ubiquitinketten modifiziert werden und welche Ubiquitinrezeptoren daran binden.
In dieser Studie sollte detailliert untersucht werden, mit welchen Ubiquitin-ketten NEMO bevorzugt interagiert. Dazu wurden in vitro-Bindungsstudien mit bakteriell aufgereinigtem NEMO und verschiedenen Ubiquitinketten durchgeführt. Des Weiteren sollte geprüft werden, wie die Bindung von NEMO an bestimmte Ubiquitinketten die Aktivierung von NF-κB reguliert.
Dabei ergab sich, dass sowohl NEMO in voller Länge, als auch die UBAN, bevorzugt mit linearen Ubiquitinketten interagieren, wohingegen die Interaktion von NEMO mit anderen Ubiquitinketten relativ schwach ist. Ausgehend von einer Kristallstruktur eines Komplexes aus der NEMO-UBAN und linearem di-Ubiquitin, wurden NEMO-Mutanten generiert, die seletkiv die Bindung von NEMO an lineare Ubiquitinketten verhindern, während die schwache Bindung von NEMO an längere K63-verknüpfte Ketten erhalten blieb. Um die Relevanz der Interaktion von NEMO mit linearen Ubiquitinketten für die Aktivierung von NF κB zu überprüfen, wurden diese NEMO-Mutanten dann verwendet um Zellen die kein NEMO exprimieren zu rekonstituieren. Nach Stimulation dieser Zellen mit TNFα wurde NF-κB kaum aktiviert, womit gezeigt werden konnte, dass NEMO gezielt an lineare Ubiquitinketten binden muss, um NF-κB zu aktivieren. Zusätzlich zu seiner Rolle bei der Aktivierung von NF-κB ist NEMO ein wichtiger Inhibitor der durch den TNFR induzierten Apoptose. In dieser Studie wurde gezeigt, dass diese Apoptoseinhibierung abhängig von der Bindung von NEMO an lineare Ubiquitinketten ist, da die Zellen die NEMO-Mutanten exprimierten, die keine linearen Ketten binden können, durch Apoptose starben, währen Wildtyp-Zellen überlebten.
Zusammenfassend konnte in dieser Studie gezeigt werden, dass NEMO bevorzugt und mit vergleichsweise hoher Affinität an lineare Ubiquitinketten bindet und dass diese spezifische Bindung wichtig für die Inhibierung von TNFR-induzierter Apoptose sowie für die Aktivierung von NF-κB ist.
The tumor suppressor programmed cell death 4 (Pdcd4) exerts its function by inhibiting protein translation initiation. Specifically, it displaces the scaffold protein eukaryotic initiation factor 4G (eIF4G) from its binding to the eukaryotic initiation factor 4A (eIF4A). Thereby, Pdcd4 inhibits the helicase activity of eIF4A, which is necessary for the unwinding of highly structured 5’ untranslated regions (UTRs) of messenger RNAs (mRNAs) often found in oncogenes like c-myc to make them accessible for the translation machinery and subsequent protein production. Overexpression of Pdcd4 inhibits tumorigenesis in vitro and in vivo and inversely, Pdcd4 knockout mice show enhanced tumor formation. In line, Pdcd4 is lost in various tumor types and proposed as prognostic factor in colon carcinomas. Unlike most other tumor suppressors that are rendered nonfunctional by mutations (e.g., p53), Pdcd4 loss is not attributable to mutational inactivation. It is regulated via translational repression by microRNAs and increased degradation of the protein under tumor promoting, inflammatory conditions and mitogens. Specifically, proteasomal degradation of Pdcd4 is controlled by p70 S6 Kinase (p70S6K)-mediated phosphorylation in its degron sequence (serines 67, 71 and 76). Stimulation of the PI3K-AKT-mTOR pathway by growth factors, hormones and cytokines initiates p70S6K activity. Phosphorylated Pdcd4 is subsequently recognized by the E3 ubiquitin ligase beta-transducin repeats-containing protein (β-TrCP) and marked with a polyubiquitin tail to be detected by the 26S proteasome for degradation. β-TrCP represents the substrate specific recognition subunit of the ubiquitin ligase complex responsible for protein-protein interaction with Pdcd4 as substrate for ubiquitin transfer and subsequent proteasomal disassembly.
The first part of the present work aimed at identifying novel stabilizers of the tumor suppressor Pdcd4 in a high throughput screen (HTS). As assay design, a fragment of Pdcd4 from amino acid 39 to 91, containing the phosphorylation sensitive degron sequence, was fused to a luciferase reporter gene construct. Stable expression of this Pdcd4(39-91)luciferase (Pdcd4(39-91)luc) fusion protein in HEK 293 cells served as read-out for the Pdcd4 protein amount to be detected in a high throughput compatible cell-based assay. Loss of Pdcd4(39-91)luc was induced by treatment with 12-O-
tetradecanoylphorbol-13-acetate (TPA), a phorbolester, which activates the PI3K signaling cascade leading to degradation of Pdcd4. The cut-off for hit definition was set at >50% activity in rescuing the Pdcd4(39-91)luc signal from TPA-induced degradation. Activity was calculated relative to the difference of DMSO- and TPA-treated cells (ΔDMSO-TPA = RLUDMSO-RLUTPA). Initial screening of a protein kinase inhibitor library (PKI) revealed hit substances expected to show Pdcd4 stabilizing activity by inhibition of kinases involved in Pdcd4 downregulation, e.g., the mTOR inhibitor rapamycin, the PI3K inhibitors wortmannin and LY294002 and the PKC inhibitors GF 109203X and Ro 31-8220.
The Molecular Targets Laboratory (MTL) of the National Cancer Institute (NCI) in Frederick, USA, hosts one of the largest collections of crude natural product extracts as well as a big substance libraries from pure synthetic sources. Screening of over 15 000 pure compounds and over 135 000 natural product extracts identified 46 pure and 42 extract hits as Pdcd4 stabilizers. For nine synthetic and six natural product derived compounds (after bioassay-guided fractionation), dose-dependent activities for recovering the TPA-induced Pdcd4(39-91)luc loss defined IC50s in the low micromolar range. Most importantly, these compounds were confirmed to stabilize endogenous Pdcd4 protein levels from forced degradation as well. This result proved the assay design to be highly representative for endogenous cellular mechanisms regulating Pdcd4 protein stability. The next step was to stratify the hit substances according to their likely mechanism of action to be located either up- or downstream of the p70S6K-mediated phosphorylation of Pdcd4. Therefore, phosphorylation of S6, as proto-typical p70S6K target, was analyzed and uncovered two natural derived compounds to influence p70S6K activity. Four substances did not affect p70S6K phosphorylation activity and were therefore considered to stabilize Pdcd4 by acting downstream, i.e. on the β-TrCP-mediated proteasomal degradation.
In the second part of this work, one of these compounds, namely the sesquiterpene lactone erioflorin, isolated by bioassay-guided fraction from the active extract of Eriophyllum lanatum, Asteraceae, was further characterized in detail with respect to its molecular mechanism of action. Erioflorin dose-dependently protected both Pdcd4(39-91)luc and endogenous Pdcd4 protein from TPA-induced degradation with IC50s of 1.28 and 2.64 μM, respectively. Pdcd4 stabilizing activity was maximal at 5 μM erioflorin. Up to this concentration, erioflorin was verified not to inhibit p70S6K activity. In addition, it was observed that erioflorin rescued Pdcd4(39-91)luc from both, wild type and constitutively active p70S6K-mediated downregulation. Only wild type p70S6K was inhibitable by the mTOR inhibitor rapamycin which served as an upstream acting control. To study the next section of Pdcd4 regulation, i.e. recognition by the E3 ubiquitin ligase β-TrCP, Pdcd4(39-91)luc and endogenous Pdcd4 were immunoprecipitated from whole cell extracts with the corresponding antibodies. In this key experiment, treatment with TPA increased overexpressed β-TrCP binding to both and this coimmunoprecipitation could be strongly reduced by erioflorin treatment. This result strongly pointed to an inhibitory mechanism of the β-TrCP specific binding to Pdcd4 by erioflorin. In addition, erioflorin disrupted the binding of in vitro transcribed/translated β-TrCP to Pdcd4 in an in vitro interaction assay to exclude nonspecific intracellular signals. Furthermore, polyubiquitination of Pdcd4 was decreased by erioflorin treatment as well. To clarify questions regarding specificity of erioflorin for the E3 ubiquitin ligase β-TrCP, stability of another important β-TrCP target was explored, i.e. the tumor suppressor inhibitor of kappa B alpha (IκBα). Indeed, the tumor necrosis factor alpha (TNFα)-mediated loss of IκBα could be prevented by erioflorin cotreatment. On the other hand, the E3 ubiquitin ligase von Hippel Lindau protein (pVHL) was left unaffected as its target hypoxia inducible factor 1 alpha (HIF-1α) could not be stabilized from oxygen-dependent degradation by erioflorin treatment. These results argued strongly for erioflorin being a specific inhibitor of β-TrCP-mediated protein degradation. Functional consequences of erioflorin treatment were investigated by observing its influence on the transcriptional activities of the transformation marker activator protein 1 (AP-1, an indirect downstream target of Pdcd4) and nuclear factor κB (NF-κB which is directly inhibited by IκBα). Indeed, erioflorin showed significant inhibition of AP-1 and NF-κB reporter constructs at 5 μM, a concentration for which an impact on cell viability was excluded. Finally to characterize the significance of erioflorin in a cell-based tumorigenesis assay, the highly invasive colon carcinoma cell line RKO was tested in a two dimensional migration assay. Erioflorin was discovered to significantly lower cell migration in a wound closure assay.
In conclusion, development of a high throughput compatible cell-based reporter assay successfully identified novel substances from pure synthetic and natural product derived background as potent stabilizers of the tumor suppressor Pdcd4. In addition, this work aimed at elucidating the detailed mechanism of action of the sesquiterpene lactone erioflorin from Eriophyllum lanatum, Asteraceae. Erioflorin was discovered to inhibit the E3 ubiquitin ligase β-TrCP, thereby preventing protein degradation of tumor suppressors like Pdcd4 and IκBα. This may offer the possibility to more specifically target protein degradation and generate less adverse side effects by blocking a particular E3 ubiquitin ligase compared to general proteasome inhibition.
Das Burkitt Lymphom ist ein aggressives B-Zelllymphom, das in tropischen Regionen Afrikas und in Neu Guinea endemisch auftritt und vor allem bei Kindern vorkommt. Die sporadische Form des Burkitt Lymphoms tritt weltweit in geringerer Häufigkeit auf und betrifft alle Altersschichten. In nahezu allen endemischen Fällen ist das Epstein-Barr Virus in den Tumorzellen nachweisbar, jedoch nur in ca. 20 % der sporadischen Fälle. Der Beitrag von EBV zur Entstehung EBV-positiver Burkitt Lymphome ist seit über 50 Jahren EBV-Forschung ungeklärt. Im Jahr 2004 wurden im Genom des Epstein-Barr Virus eine Reihe von microRNAs entdeckt, die potentiell für die Pathogenese des EBV-positiven Burkitt Lymphoms relevant sein könnten. Da die Expression der viralen microRNAs seither für das Burkitt Lymphom nur unvollständig beschrieben worden sind, wurden sie in dieser Arbeit systematisch analysiert und dadurch ein vollständiges Expressionsprofil erstellt. Es konnte dabei keine Unterscheidung zwischen endemischen und sporadischen Fällen erreicht werden, jedoch wurden hierbei erstmals Fälle identifiziert, die trotz nachgewiesener EBV-Assoziation keine viralen microRNAs enthielten. Neben den viralen microRNAs könnten im Burkitt Lymphom auch die zellulären microRNAs für die Tumorentstehung von Bedeutung sein. Deshalb wurde in dieser Arbeit auch die Expression der zellulären microRNAs aus Burkitt Lymphom-Biopsien charakterisiert. Durch hierarchisches „Clustering“ bildeten sich drei Gruppen, die hauptsächlich durch An- und Abwesenheit von zwei microRNAs (miR21 und miR92a) definiert wurden, denen onkogenes Potential zugeschrieben wird. Die Expressionsmuster der einzelnen Gruppen weisen auf zelluläre Mechanismen der Pathogenese des Burkitt Lymphoms hin.
Die genetische Charakteristik des Burkitt Lymphoms ist eine Chromosomentranslokation, welche das Protoonkogen c MYC unter die Kontrolle von regulatorischen Elementen der Immunglobulingene bringt. Durch die somit erhöhte Transkription von c-MYC entfaltet das Genprodukt sein onkogenes Potential. Mutationen im offenen Leserahmen können dieses Potential zusätzlich verstärken. Da c MYC ein pleiotroper Transkriptionsfaktor ist und somit auf eine ganze Reihe zellulärer Prozesse Einfluss hat, bewirkt die Translokation massive Veränderungen in der Zelle. Vorangegangene Untersuchungen der Arbeitsgruppe zeigten, dass die antivirale Interferonantwort durch hohe c MYC-Expression unterdrückt wird. Diese Beobachtung liefert eine mögliche Erklärung für die Immunevasion von Burkitt Lymphom-Zellen, trotz Anwesenheit des EBV-Genoms. In Zelllinien, die aus Burkitt Lymphom-Biopsien generiert wurden, konnte gezeigt werden, dass EBV eine Interferoninduktion auslöst, die durch c-MYC unterdrückt wird. In dieser Arbeit konnte auch gezeigt werden, dass Epstein-Barr-virale Nukleinsäureprodukte durch den zytosolischen Rezeptor RIG-I Interferon induzieren, dieser aber durch die hohe c-MYC-Expression transkriptionell gehemmt wird. Neben RIG-I wurden weitere Rezeptoren und Mediatoren der Interferoninduktionskaskade identifiziert, die ebenfalls transkriptionell von c-MYC unterdrückt werden. Diese Ergebnisse stützen die Hypothese, dass c-MYC durch Unterdrückung der angeborenen Immunität die Immunevasion von Burkitt Lymphom-Zellen ermöglicht.
The importance of RNA in molecular and cell biology has long been underestimated. Besides transmitting genetic information, studies of recent years have revealed crucial tasks of RNA especially in gene regulation. Riboswitches are natural RNA-based genetic switches and known only for ten years. They directly sense small-molecule metabolites and regulate in response the expression of the corresponding metabolic genes. Within recent years, artificial riboswitches have been developed that operate according to user-defined demands. Hence, they represent powerful tools for synthetic biology.
This study focused on the development of engineered catalytic riboswitches for conditional gene expression in eukaryotes. A self-cleaving hammerhead ribozyme was linked to a tetracycline binding aptamer in order to regulate ribozyme cleavage allosterically with tetracycline. By integrating such a hybrid molecule into a gene of interest, mRNA cleavage and thereby gene expression is controllable in a ligand dependent manner. The linking domain between ribozyme and aptamer was randomised. Tetracycline inducible ribozymes were isolated after eleven cycles of in vitro selection (SELEX). 80% of the analysed ribozymes show cleavage that strongly depends on tetracycline. In the presence of 1 μM tetracycline, their cleavage rates are comparable to that of the parental hammerhead ribozyme. In the absence of tetracycline, cleavage rates are inhibited up to 333-fold. The allosteric ribozymes bind tetracycline with similar affinity and specificity as the parental aptamer. Ribozyme cleavage is fully induced within minutes after addition of tetracycline. Interestingly, the isolated linker domains exhibit structural consensus motives rather than consensus sequences.
When transferred to yeast, three switches reduced reporter gene expression by 30 - 60% in the presence of tetracycline; none of them controlled gene expression in mammalian cells. In vitro selected molecules do not necessarily retain their characteristics when applied in a cellular context. Therefore, high throughput screening and selection systems have been developed in mammalian cells. The screening system is based on two fluorescent reporter proteins (GFP and mCherry). 1152 individual constructs of the selected ribozyme pool were tested, but none of them reduced reporter gene expression significantly in the presence of tetracycline. The selection system employs a fusion peptide encoding two selection markers (Hygromycin B phosphotransferase and HSV thymidine kinase) facilitating both negative and positive selection. 6.5 x 104 individual constructs of the selected ribozyme pool are currently under investigation.
5-Lipoxygenase (5-LO) catalyzes the two initial steps in the biosynthesis of leukotrienes, a group of inflammatory lipid mediators derived from arachidonic acid. Here, the regulation of 5-LO mRNA expression by alternative splicing and nonsense-mediated mRNA decay (NMD) was investigated. In the present study, the identification of two truncated transcripts and four novel 5-LO splice variants containing premature termination codons (PTC) was reported. The characterization of one of the splice variants, 5-LOΔ3, revealed that it is a target for NMD since knockdown of the NMD factors UPF1, UPF2 and UPF3b in the human monocytic cell line Mono Mac 6 (MM6) altered the expression of 5-LOΔ3 mRNA up to 2-fold in a cell differentiation-dependent manner suggesting that cell differentiation alters the composition or function of the NMD complex. In contrast, the mature 5-LO mRNA transcript was not affected by UPF knockdown. Thus, the data suggest that the coupling of alternative splicing and NMD is involved in the regulation of 5-LO gene expression.
RT-PCR analysis of different cell types revealed the existence of a large number of 5-LO splice variants. The most interesting splice variants were observed in BL41-E95A cells, which give a raise to novel 5-LO protein isoforms. This leads to the hypothesis of a novel regulatory mechanism in which the dimerization of 5-LO with 5-LO isoforms might regulate the 5-LO activity.
The 5-LO protein expression was reduced on translational level in UPF1 knock down cells, suggesting that UPF1 has a positive influence on 5-LO translation. Therefore, a mass spectrometry based proteomics study was started to identify compartment specific protein expression changes upon UPF1 knockdown in differentiated and undifferentiated MM6 cells. The proteomics analysis demonstrated that the knockdown of UPF1 results in numerous protein changes in the microsomal fraction (~ 21%) but not in the soluble fraction (< 1%). Western blot data confirmed the trend of the proteomics analysis. This data suggest that UPF1 is a critical gene expression regulator in a compartment specific way. During differentiation by TGFβ and calcitriol the majority of UPF1 regulated proteins was adjusted to normal level. It appears that that not only the NMD mechanism alters its composition during differentiation. Also the gene expression regulation on translational level by UPF1 seems to be also cell differentiation dependent. An interesting group of UPF1 target genes represent the downregulated proteins. qRT-PCR analysis of randomly chosen genes revealed no effect on mRNA expression upon UPF1 knockdown, suggesting that UPF1 positively influences the translation of these genes. Computational sequence analysis identified a conserved C-rich sequence which might be a hnRNP E2-binding site. hnRNP E2 has been characterized as a translational repressor in myeloid cells. Western blot analysis revealed a differentiation independent up regulation of hnRNP E2 by UPF1 knockdown. Additionally, microRNA-328 (miR-328) has been described as an RNA decoy modulating hnRNP E2 regulation. Due to this, stem loop qRT-PCR showed an up regulation of miR-328 in TGFβ and calcitriol differentiated MM6 cells. Based on this data we suggest a model in which downregulation of UPF1 increases hnRNP E2 expression, leading to translation inhibition. During differentiation, miRNA-328 is upregulated thereby competing with hnRNP E2 leading to an efficient translation
The long sought molecular function of membrane raft-associated flotillin proteins is slowly becoming resolved, partially owing to the increasing knowledge about their interaction partners. Being ubiquitously expressed and evolutionarily highly conserved, flotillins carry out important cellular functions, one of which is the regulation of signal transduction pathways. This study shows that the signaling adaptor protein fibroblast growth factor receptor substrate 2 (FRS2) directly interacts both in vivo and in vitro with flotillin-1 (flot-1). FRS2 is an important docking protein of many receptor tyrosine kinases. It regulates downstream signaling by forming molecular complexes with other adaptor proteins and tyrosine phosphatases, and seems to be a critical mediator of sustained extracellular signal regulated kinase (ERK) activity. Flot-1 has also been implicated in the regulation of ERK activity upon EGF and FGF stimuli. Furthermore, flot-1 forms signalosomes with EGFR and the downstream components of the MAP kinase pathway. The newly discovered interaction between FRS2 and flot-1 was shown to be mediated by the phosphotyrosine binding (PTB) domain and, to a lesser extent, the C-terminus (CT) of FRS2 and by the C-terminus of flot-1. Flot-1 coprecipitated together with FRS2 from murine tissues and cell lysates, demonstrating that this interaction also takes place in vivo. Interestingly, flot-2, which shows a high homology to flot-1 and forms stable oligomeric complexes with it, does not appear to directly interact with FRS2. Novel insights into the functional role of the interaction between flot-1 and FRS2 were provided by the results showing that depletion of flot-1 affects the cellular localization of FRS2. In hepatocytes stably depleted of flot-1, FRS2 appeared to be more soluble. Furthermore, upon pervanadate stimulation of the cells, a small fraction of FRS2 was recruited into detergent resistant membranes, but the recruitment did not take place in the absence of flot-1. Triggered by the same stimulus, a fraction of FRS2 was translocated to the nucleus independently of flot-1. Overexpression of FRS2 has previously been shown to result in increased ERK activation. However, in cells depleted of flot-1, FRS2 was not able to compensate for the compromised ERK activation after EGF or FGF stimulation. This might imply that FRS2 and flot-1 are functionally interconnected and that FRS2 resides upstream of flot-1. Taken together, the results presented here indicate that this complex may be involved in the control of signaling downstream of receptor tyrosine kinases and is important for ensuring a proper signaling response. In the absence of flot-1, increased Tyr phosphorylation of FRS2 was observed. It is known that Tyr and Thr phosphorylation of FRS2 are reciprocally regulated. Since ERK is a known executor of the FRS2 Thr phosphorylation, and ERK activity was shown to be severely diminished upon flot-1 depletion, the increased Tyr phosphorylation of FRS2 was in agreement with this and might be a direct consequence of a decreased ERK activity upon flot-1 depletion. FRS2 owes its name to the major and the first described function of this protein as a substrate for FGFR. PTB domain of FRS2 was published to constitutively bind the juxtamembrane domain of FGFR. In this study, the PTB domain was mapped to be involved in the constitutive interaction with flot-1 and the competition was shown to exist between flot-1 and FGFR1 for binding to FRS2. Another novel interaction partner of FRS2 was discovered in the present study. Cbl-associated protein (CAP) is an adaptor protein with three SH3 domains and it plays a role during insulin signaling by recruiting the signaling complex to lipid rafts. CAP was previously shown to interact with flot-1 via the SoHo domain, and this interaction was found to be crucial for the lipid raft recruitment of other signaling components. Both the PTB domain and CT of FRS2 were found to mediate the interaction with CAP, whereas in CAP, the SoHo domain, together with the third SH3 domain, seems to bind to FRS2. SH3 domains mediate the assembly of specific protein complexes by binding to proline rich sequences, several of which are present in FRS2. Due to overlapping interaction domains, FRS2 and flot-1 competed for the binding to CAP. However, the interaction with neither CAP nor flot-1 was necessary for the observed nuclear translocation of FRS2. Since CAP is expressed as several tissue- and developmental stage-specific isoforms, a further aim of this study was to analyze the expression of its isoforms in mouse embryonic fibroblasts (MEFs). Many new isoforms were discovered here which have not been described in the literature so far. They all contain the SoHo domain and three SH3 domains, but differ among themselves by the presence and length of a proline-rich region that preceeds the SoHo domain and by a novel 20-amino acid (AA) stretch between the second and the third SH3 domain. The length of the proline-rich region turned out to be an important factor determining the strength of the interaction with FRS2. The interaction was found to be weakened by the increasing length of this region. The new isoforms possessing the 20-AA stretch are specifically expressed in murine muscular tissues, with the highest level in the heart. During adipogenesis, we observed a shift in the abundance of the isoforms, in that only the isoforms without the insertion were shown to be upregulated on mRNA level. However, during myogenesis, preferentially expressed isoforms were those with the insertion. The collected data implicate that isoforms with the 20-AA insertion might be more ubiquitous in nondifferentiated/embryonic cells and that the observed "isoform-switch" might be dependent on the cell fate and differentiation state.
Menschliche Aktivitäten beeinflussen beinahe alle Bereiche des Lebens auf der Erde (MEA 2005a; UNEP 2007). Die Zerstörung und Veränderung natürlicher Lebensräume sind als Hauptursache für den weltweiten Biodiversitätsverlust identifiziert (Harrison and Bruna 1999; Dale et al. 2000; Foley et al. 2005; MEA 2005a). Zusammen mit dem Klimawandel wird die Landnutzungsveränderung daher als einflussreichster Aspekt anthropogen verursachten globalen Wandels betrachtet (MEA 2005a). Landnutzungsveränderung schließt sowohl die Umwandlung natürlicher Habitate in Agrarland oder Siedlungen als auch die Landnutzungsintensivierung in bereits kultivierten Landschaften mit ein. Diese Veränderungen haben weitreichende Konsequenzen für die Artenvielfalt und resultieren häufig in dem Verlust von Arten mit zunehmender Intensität der Landnutzung (Scholes and Biggs 2005).
Biodiversität und Ökosysteme stellen viele verschiedene Funktionen zur Verfügung, wie z. B. die Sauerstoffproduktion, die Reinigung von Wasser und die Bestäubung von Nutzpflanzen.
Einige dieser Funktionen sind hilfreich, andere wichtig und wieder andere notwendig für das menschliche Wohlergehen (MEA 2005b; UNEP 2007). Mittlerweile sind Ökosystemfunktionen und die vielen Nutzen, die sie erbringen, zu einem zentralen Thema der interdisziplinären Forschung von Sozialwissenschaften und Naturwissenschaften geworden (Barkmann et al. 2008 und darin enthaltene Referenzen). Dadurch bedingt ist es zu einiger Verwirrung bezüglich der verwendeten Begriffe der "Ökosystemfunktion" (engl. "ecosystem function") und dem der "Ökosystemdienstleistung" (engl. "ecosystem service") gekommen (deGroot et al. 2002). Da der Fokus meiner Arbeit auf grundlegenden Funktionen von Ökosystemen liegt, verwende ich im Folgenden den Begriff der Ökosystemfunktion.
Für viele Ökosystemfunktionen ist noch sehr unzureichend bekannt, wie diese von externen Störungen beeinflusst werden (Kremen and Ostfeld 2005; Balvanera et al. 2006). Ökosystemfunktionen werden selten von nur einer einzigen Art aufrechterhalten, sondern meist von einer ganzen Reihe unterschiedlicher taxonomischer Gruppen – alle mit ihren ganz eigenen Ansprüchen. Diese Arten, wie auch deren intra- und interspezifischen Interaktionen, können durchaus nterschiedlich auf die gleiche Störungsquelle oder Störungsintensität reagieren. Dies kann Vorhersagen zum Verhalten von Ökosystemfunktionen extrem erschweren. ...