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We found that the HMTase G9a, that catalyzes H3K9me2 in euchromatin, plays a key modulatory role in type I IFN expression. This finding raises the possibility of targeted intervention with type I IFN expression by using small synthetic inhibitors of G9a. Given the overall minimal negative effect of G9a-deficiency on differentiated cells, the short-term suppression of G9a could be used to potentiate type I IFN expression during chronic viral diseases such as hepatitis C. Accordingly, pharmacological enhancement of methylation, for example by inhibition of the H3K9me2 specific demethylases, could be potentially used to attenuate type I IFN expression and help to control chronic inflammatory and autoimmune conditions. The mechanism responsible for canvassing the epigenetic profile of type I IFN expressing cells are not known. It is plausible, that similar to neurons, where G9a is targeted to specific loci with the help of noncoding RNAs, IFN expressing cells possess similar mechanisms to target H3K9me2 demethylating enzymes to type I IFN loci, thus keeping these loci accessible for IFN-inducing transcription factors. Identification of non-coding RNAs that may contribute to the establishment of the epigenetic state of IFN producing cells will provide a further opportunity for targeted manipulation of IFN expression.
In my thesis, I describe the collaborative experiments that show the ability of synthetic compounds that interfere with the histone readers to suppress inflammation. Our results present a novel concept for the regulation of inflammatory gene expression. The diversity of histone readers and the combinatorial nature of regulation of gene transcription may provide an opportunity for highly selective interference with disease associated transcriptional programs by interfering with specific readers. In the future we plan to address the therapeutic potential of BET antagonists in autoimmune and chronic inflammatory conditions.In summary, the experiments described in my thesis provide an example of how the understanding of the basic mechanisms of chromatin control of gene expression can facilitate novel therapeutic approaches that target chromatin.
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.
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.
Die im Rahmen dieser Arbeit durchgeführten Untersuchungen führten zu folgenden Ergebnissen:
1. In-silico Analysen von putativen Apoptose-Faktoren im Genom von P. anserina
Es konnten mehrere Gene, die in einer Apoptose-Maschinerie involviert sein könnten, im Genom von P. anserina identifiziert werden. Diese Homologen wurden in zwei Ka-tegorien unterteilt: (i) die nicht-mitochondrialen Proteine PaMCA1, PaMCA2 und PaPARP und (ii) die Homologen des Apoptose-induzierenden Faktors AIF.
2. Einfluss der Metacaspase-Aktivität auf programmierte Zelltodprozesse
Mithilfe von Aktivitätsmessungen konnte eine Arginin-spezifische Aktivität der Meta-caspasen nachgewiesen werden. Diese Metacaspase-Aktivität nimmt in seneszenten Kulturen und nach H2O2-Behandlung signifikant zu. Diese Ergebnisse unterstützen die Hypothese eines programmierten, ROS-induzierten Zelltods im letzten Entwicklungs-stadium des Alternsmodell P. anserina.
3. Die Rolle von AIF-Homologen in der Entwicklung von P. anserina
GFP-Fusionsproteine identifizierten eine mitochondriale Lokalisation der AIF-Homologen PaAIF2, PaAMID2 und PaPRG3. Desweiteren konnte eine altersabhängige PaAIF2-Translokation von den Mitochondrien zum Zellkern gezeigt werden, ähnlich der Apoptose-induzierenden Translokation von humanem AIF. Die Deletion von PaAif2 und PaAmid2 führte zu einer signifikanten Resistenz gegenüber oxidativem Stress und zu einer Verlängerung der Lebensspanne. Diese Befunde weisen auf einen ROS-induzierten, AIF-vermittelten Zelltod hin, der an der Lebensspannen-Kontrolle von P. anserina beteiligt ist.
4. Die Funktion des Proteins PaCYPD bei Seneszenz und programmiertem Zelltod
Membranpotential-Messungen konnten einen Rückgang des mitochondrialen Memb-ranpotentials von 21 % bei den PaCYPD-Überexpressionsstämmen nachweisen. Durch die Behandlung mit dem spezifischen PaCYPD-Inhibitor CSA konnte das Membranpo-tential wieder normalisiert werden. Zusammen mit dem detektierten Verlust von
7 Zusammenfassung
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Cytochrom c in den Mitochondrien der Überexpressionsstämme wird durch diese Studi-en die Vermutung einer PaCYPD-abhängigen Öffnung der mPTP untermauert. Die Pa-PaCypD-Deletion führte zu einer signifikanten Resistenz gegenüber mitochondrial-abhängigem, oxidativem Stress und gegenüber verschiedenen Apoptose-Induktoren. Die Überexpression von PaCypD hingegen führte zu einem beschleunigten Alterungspro-zess (Präseneszenz), einem verschlechterten Resistenzverhalten gegenüber Stress- und Apoptose-Induktoren und zu einer massiven Verkürzung der Lebensspanne. Die Le-bensspanne konnte aber durch die Behandlung mit CSA wieder auf Wildtyp-Niveau verbessert werden. Dies weist auf einen PaCYPD-vermittelte Zelltod hin. Interessan-terweise konnte durch das Wachstum auf CSA-haltigem Medium auch die Lebensspanne des Wildtyps verlängert werden. Um die hier nachgewiesene, lebensver-längernde Wirkung von CSA zu verifizieren, könnte diese Studie leicht auf andere Modellorganismen übertragen werden.
Das humane endogene Retrovirus-K: Grundlagenforschung und Nutzen als Tumor-assoziiertes Antigen
(2011)
Fast die Hälfte des humanen Genoms besteht aus Retroelementen, die während der evolutiven Entwicklung des Menschen im Genom fixiert wurden. Im Wesentlichen kann man diese Retroelemente in DNA-Transposons, LINEs, SINEs und humane endogene Retroviren unterteilen, dabei nehmen die humanen endogenen Retroviren (HERV) 8% des humanen Genoms ein. Bei einer Unterfamilie, der HERV-K Familie, sind bis heute alle offenen Leserahmen erhalten geblieben. Nach heutigem Erkenntnisstand wird eine Expression dieser Elemente in somatischen Zellen jedoch strikt unterdrückt, denn eine Expression von Retroelementen könnte zu Insertionsmutagenesen führen und letztlich dem Organismus erheblichen Schaden zufügen.
Im Gegensatz dazu wird eine reaktivierte Expression von HERV-K häufig in einigen Tumorarten beobachtet: allen voran Keimzelltumore, Melanome und Brustkrebs. Außerdem können in Patienten, die an solchen Tumoren erkranken, häufig HERV-K spezifische Antikörper und mitunter auch gegen HERV-K-gerichtete T-Zellen nachgewiesen werden. Die strikte Unterdrückung der HERV-K Expression in gesunden, somatischen und eine reaktivierte Expression in entarteten Zellen machen HERV-K Proteine daher zu idealen Tumor-assoziierten Antigenen.
Auf Grundlage dieser Untersuchungen wurden, in dieser Arbeit, zwei potentielle Tumorvakzine, basierend auf dem hoch attenuierten Modifizierten Vacciniavirus Ankara (MVA) hergestellt. Durch homologe Rekombination wurde ein HERV-K gag-pro-pol transgenes MVAHKcon und ein HERV-K env transgenes MVAHKEnv hergestellt und charakterisiert. Darüber hinaus wurden die rekombinanten Viren in einem neu etablierten, syngenen Maus-Tumor-Modell untersucht. MVAHKcon immunisierte Mäuse zeigten eine starke humorale Immunantwort und waren in der Lage subkutane, HERV-K Gag positive Tumore fast vollständig zu eliminieren. MVAHKEnv immunisierte Mäuse zeigten dagegen eine moderate humorale Immunantwort und eine starke T-Zellantwort. Nach therapeutischer Immunisierung mit MVAHKEnv konnte im Mausmodell eine signifikante Reduktion an HERV-K Env positiven Lungenmetasten beobachtet werden. Außerdem konnte durch eine prophylaktische Immunisierung mit MVAHKEnv ein vollständiger Schutz der Mäuse vor der Ansiedlung HERV-K Env-exprimierender Tumore erreicht werden. Die hier vorgestellten HERV-K rekombinanten MVA könnten daher der erste Schritt zu einer Immuntherapie gegen reaktivierte Retroelemente in malignen Tumoren darstellen.
MVAHKcon infizierte Zellen produzieren und sekretieren große Mengen HERV-K Virus-ähnlicher Partikel (VLP) somit konnten auch grundlegende Fragestellungen der HERV-K Biologie geklärt
Zusammenfassung
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werden. Durch die Kombination massenspektrometrischer Analysen und N-terminaler Sequenzierungen konnten, die noch nicht bekannten Schnittstellen der retroviralen Protease im HERV-K Gag Protein identifiziert werden. Zudem wurde eine späte Domäne von HERV-K identifiziert und darüber hinaus Wechselwirkungen von HERV-K VLPs mit zellulären Restriktionsfaktoren wie APOBEC3G und CD317 studiert.
The adaptive immune system protects against daily infections and malignant transformation. In this, the translocation of antigenic peptides by the transporter associated with antigen processing (TAP) into the ER lumen is an essential step in the antigen presentation by MHC I molecules. The heterodimeric ATP-binding cassette transporter (ABC) TAP consist of the two halftransporters TAP1 and TAP2. Each monomer contains an N-terminal transmembrane domain (TMD) and a conserved C-terminal nucleotide-binding domain (NBD). Together, the TMDs build the translocation core and the NBDs bind and hydrolyze ATP, energizing the peptide transport. TAP features an asymmetry in the two ATP-binding sites that are built of several conserved motifs. One motif is the D-loop with the consensus sequence SALD. The highly conserved aspartate of the D-loop of TAP1 reaches into the canonic ATP-binding site and contacts the Walker A motif and the H-loop of the opposite NBD, while the Asp of D-loop of TAP2 is part of the non-canonic ATP-binding site.
To examine this ABC transport complex in mechanistic detail, a purification and reconstitution procedure was established with the function of TAP being preserved. The heterodimeric TAP complex was purified via a His10-tag at TAP1 in a 1:1 ratio of the subunits. Nucleotide binding to the purified transporter was elucidated by tryptophan quenching assays and the affinity constants for MgADP and MgATP were determined to be 1.0 μM and 0.7 μM, respectevely. In addition, the TAP complex shows strict coupling between peptide binding and ATP hydrolysis, revealing no basal ATPase activity in the absence of peptides. Furthermore, TAP was reconstituted into proteoliposomes and the activity was tested by peptide transport and ATP hydrolysis. Interestingly, the kinetic parameters of the transporter in the reconstituted state are comparable to the data gained for TAP in microsomes.
To characterize the functional importance of the D-loop, D-loop mutants of either TAP1 or TAP2 were analyzed. Strikingly, TAP containing a mutated D-loop in TAP1 (D674A) shows an ATP-hydrolysis independent peptide translocation. Accordingly, the MHC I surface expression is similar to the wildtype situation. However, the same mutation in TAP2 (D638A) results in an ATPase dependent peptide transport similar to wildtype, whereas TAP containing mutations in both subunits leads to an inactive transporter. Although all D-loop mutants showed no altered peptide binding activity, the TAP1 mutant is inactive in peptide-stimulated ATPase activity. Strikingly, ATP or ADP binding is strictly required for the peptide translocation. Experiments carried out in proteoliposomes demonstrate that wildtype TAP can export peptides against their gradient when low peptide concentrations are offered. In contrast, the D674A mutant can facilitate peptide translocation along their concentration gradient in the two directions. At high peptide concentrations, TAP is trapped in a transport incompetent state induced by trans-inhibition. In conclusion, a TAP mutant that uncouples solute translocation from ATP hydrolysis was created. Since this passive substrate movement is strictly dependent on binding of ATP or ADP, an active transporter was turned into a “nucleotide-gated facilitator”.
In a cysteine cross-linking approach the conformational changes of TAP during peptide transport and the flexibility of the nucleotide binding domains were examined. Single cysteines were introduced in the D-loops of TAP1 and TAP2. Cross-linking by copper-phenantroline (CuPhe) was possible for all combinations. However, by adding ATP, ADP or peptide to the TAP complex no differences in the cross-linking efficiency were detected. By CuPhe cross-linking TAP was trapped in a conformation, in which the peptide binding site was not accessible. To complete a transport cycle, a flexibility of at least 17.8 Å of the NBDs is needed, since TAP cross-linked by CuPhe (2.0 Å) or bismaleimidoethane (BMOE, 8.0 Å) was transport inactive but when TAP was cross-linked by 1,11-bismaleimido-triethyleneglycol (BM[PEG]3, 17.8 Å) transport activity was preserved.
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 display of foreign polypeptides and proteins on the surface of viruses or cells provides an important tool for the engineering of biomolecules and the analysis of their interactions with binding partners. The most extensively used display platform is the coat protein of the filamentous bacteriophage (Smith, 1985). Phage display libraries have often been selected for polypeptides, e.g. single chain (sc) antibodies that bind to a protein of interest, but in vivo selection could only be demonstrated for peptides so far. An alternative display platform is the retrovirus murine leukemia virus (MLV). Here, polypeptides are displayed at the N-terminus of the viral envelope glycoprotein. Proof of principle for this platform was demonstrated for protease substrate libraries, which can be selected through coupling proteolytic activation with viral infectivity (Buchholz et al., 1998). Selection of the library CX4A on living cells resulted in viruses with more than three orders of magnitude improved spreading efficiency through tumor cells (Hartl et al., 2005). Also scAb libraries have recently been displayed and selected using retroviruses (Urban et al., 2005). The library scFvlibxMo displays the repertoire of phage display preselected sc antibodies for laminin-1 binding. The retrovirus based selection process resulted in laminin-specific sc antibodies with improved expression levels in mammalian cells.
This thesis describes the in vivo (i.e. in mouse tumor models) selection of the C-X4-A and scFvlibxMo for tumor homing upon systemic delivery.
For selection of the protease substrate library C-X4-A a subcutaneous tumor was induced in SCID mice followed by three systemic injections of the library. The selection process was monitored over a period of 34 days. After the incubation period mice were sacrificed and virus load in organs and tumor determined. PCR analysis after 34 days showed that virus from the library had preferentially infected the tumor. Sequence analysis showed the selection of protease substrates with the most prominent one with a frequency of over 65%. The four most prominent protease substrate variants where reconstituted into the original viral backbone for further investigation (C-SK-A, C-HI-A, C-HM-A and C-HS-A). Interestingly, these viruses exhibited a reduced spreading capacity in vitro on HT1080 cells as compared to the C-AK-A virus, which had previously been selected on HT1080 cells. When assayed for tumor homing, however, viruses C-HI-A and C-HS-A had clearly improved in comparison to C-AK-A. Tumor tissue had been infected at rates of over 55% while virus load of extratumoral organs was very low (infection rates <0.7 for C-HS-A and <0.02 for C-HI-A). Tumor targeting capacity had thus been improved over 10-fold by the in vivo selection of the C-X4-A library.
The experimental set up for the in vivo selection of the scFvlibxMo library was performed according to that of the C-X4-A library. Fingerprint analysis of the selected viruses that infected tumor tissue resulted in the identification of seven antibody variants showing unique CDR3 sequences. Two prominent clones (M49T-A and M49T-B) were cloned back into the MoMLV genome for further analysis of the reconstituted viruses. While variant B bound laminin-1 efficiently, variant A was unable to do so, although it was selected at highest frequency (76%). Both reconstituted viruses were equally well infectious and spread through HT1080rec1 cells at a similar efficiency as MoMLV. In an in vivo competition experiment the selected viruses clearly out-competed a laminin-1 binding reference virus L36xMo for tumor homing. To understand the molecular driving forces behind the in vivo selection process the epitope of the selected scFv M49T-A was identified using a phage peptide library approach. In silico analysis led to the identification of a small group of possible antigens, including tenascin, fibronectin and collagen.
The data described in this thesis demonstrate that the retrovirus display platform is capable of allowing the in vivo selection of protease substrates and scFvs. Notably, the replication competence of the system introduced an additional level of complexity to the library. The performed in vivo selections significantly enhanced tumor tropism. Selective infection of tumor cells combined with transfer of anti-tumoral genes is an attractive strategy for cancer therapy being in focus of current research. The viruses selected in this thesis build prime candidates for targeted retrovirus based tumor therapy.
Drug toxicity and viral resistance limit long-term efficacy of antiviral drug treatment for HIV
infection. Thus, alternative therapies need to be explored. Previously, group of “Prof. von Laer”
tested the infusion of T lymphocytes transduced with a retroviral vector (M87o) that expresses an
HIV entry inhibitory peptide (maC46). Gene-modified autologous T cells were infused into 10
HIV-infected patients with advanced disease and multidrug resistant virus during antiretroviral
combination therapy. T cell infusions were tolerated well with no severe side effects. A
significant increase of CD4 counts was observed post infusion. At the end of the one-year
follow-up, the CD4 counts of all patients were still around or above baseline. Gene-modified
cells could be detected in peripheral blood, lymph nodes and bone marrow throughout the oneyear
follow-up, whereby marking levels correlated with the cell dose. No significant changes of
viral load were observed during the first four months. Four of the seven patients that changed
their antiviral drug regimen thereafter responded with a significant decline in plasma viral load.
In conclusion, the transfer of gene-modified cells was safe, led to sustained levels of gene
marking and may improve immune competence in HIV-infected patients with advanced disease
and multidrug resistant virus. However, the low level of gene marking and the lack of substantial
long-term in vivo accumulation of gene-protected cells observed in this trial clearly demonstrate
the requirement for new vectors with new strategy.
In this thesis self‐inactivating lentiviral vectors harboring internal promoters and RNA elements
were therefore evaluated for their potential use in a clinical gene‐therapy trial. The results from
this work provide the basis for the selection of a suitable candidate vector for extensive
preclinical testing. Apart from being capable of transducing non‐dividing cells, lentiviral vectors
incorporate a number of additional features that are of potential value for gene therapeutic
applications. These include a larger packaging capacity, higher titers than γ‐retroviral vectors
and, most importantly, a reduced risk of deregulating cellular genes due to its natural integration
profile. The use of internal promoters to drive expression of the therapeutic transgene maC46
should further improve the safety profile of these new‐generation vectors, while an additional
artificial splice acceptor (SA) into the 5‟UTR of the transgene over all elevate transgene
expression. The rationale for this is that hematopoietic stem and progenitor cells will be
Summary
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protected from enhancer‐mediated transactivation effects and also from potential side effects due
to the aberrant expression of maC46 while at the same time the full clinical benefit for the
patients is maintained.
In order to find a suitable candidate for preclinical studies, two candidate therapeutic vectors
harboring different regulatory elements were selected based on results from pilot experiments.
The internal promoters used to drive expression of codon optimized maC46 were the PGK
promoter and MPSV promoter. This work focuses on the transgene expression levels in
lymphoid cells and antiviral activity. The issues of long term expression, propensity to
methylation mediated silencing of the promoters, and genotoxicity were also touched. In a first
step the performance of different vectors was evaluated in the human T cell lines. Based on
promising data from ex vivo human peripheral blood mononuclear cells, the vector carrying the
MPSV promoter along with intron were selected for in vivo transplantation experiments.
In summary, the ex vivo data suggested the long term survival of lentiviral gene modified cells,
along with maintained expression of introduced genes. It was observed that the expression of
these constructs depends strongly on the activation and differentiation status of the targeted T
cells. This regulation was not linked to any specific promotor. In vivo study shows that maC46
can be introduced into murine multiple hematopoietic lineages via lentiviral vector and expressed
at high levels in their mulilineage progeny, without altering the hematopoiesis. There was no
sign of any kind of hematopoietic or lymphoid malignancies. Although gene-modified
lymphocytes persisted in-vivo, the downregulation of transgene expression was consistent with
the ex-vivo observation. In contrast to that the T cells transplanted group showed delayed
engraftment of donor cells and there was no expression of C46 in blood and lymphatic organs. .
In conclusion, when considering HIV gene therapy focusing CD4+ T cells, potential problems of
T cell activation status as related to the desired clinical effect must be addressed. These results
might open the way for a gene therapy targeting mainly or exclusively activated T cells and
could be exploited for immunostimulatory as well as suppressive approaches.
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.