TY - JOUR A1 - Djakovic, Lara A1 - Hennig, Thomas A1 - Reinisch, Katharina A1 - Milić, Andrea A1 - Whisnant, Adam W. A1 - Wolf, Katharina A1 - Weiß, Elena A1 - Haas, Tobias A1 - Grothey, Arnhild A1 - Jürges, Christopher S. A1 - Kluge, Michael A1 - Wolf, Elmar A1 - Erhard, Florian A1 - Friedel, Caroline C. A1 - Dölken, Lars T1 - The HSV-1 ICP22 protein selectively impairs histone repositioning upon Pol II transcription downstream of genes JF - Nature Communications N2 - Herpes simplex virus 1 (HSV-1) infection and stress responses disrupt transcription termination by RNA Polymerase II (Pol II). In HSV-1 infection, but not upon salt or heat stress, this is accompanied by a dramatic increase in chromatin accessibility downstream of genes. Here, we show that the HSV-1 immediate-early protein ICP22 is both necessary and sufficient to induce downstream open chromatin regions (dOCRs) when transcription termination is disrupted by the viral ICP27 protein. This is accompanied by a marked ICP22-dependent loss of histones downstream of affected genes consistent with impaired histone repositioning in the wake of Pol II. Efficient knock-down of the ICP22-interacting histone chaperone FACT is not sufficient to induce dOCRs in ΔICP22 infection but increases dOCR induction in wild-type HSV-1 infection. Interestingly, this is accompanied by a marked increase in chromatin accessibility within gene bodies. We propose a model in which allosteric changes in Pol II composition downstream of genes and ICP22-mediated interference with FACT activity explain the differential impairment of histone repositioning downstream of genes in the wake of Pol II in HSV-1 infection. KW - herpes virus KW - transcription Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-358161 VL - 14 ER - TY - THES A1 - Fetiva Mora, Maria Camila T1 - Changes in chromatin accessibility by oncogenic YAP and its relevance for regulation of cell cycle gene expression and cell migration T1 - Änderungen der Chromatinzugänglichkeit durch onkogene YAP und seine Relevanz für die Genexpression während des Zellzyklus und für die Zellmigration N2 - Various types of cancer involve aberrant cell cycle regulation. Among the pathways responsible for tumor growth, the YAP oncogene, a key downstream effector of the Hippo pathway, is responsible for oncogenic processes including cell proliferation, and metastasis by controlling the expression of cell cycle genes. In turn, the MMB multiprotein complex (which is formed when B-MYB binds to the MuvB core) is a master regulator of mitotic gene expression, which has also been associated with cancer. Previously, our laboratory identified a novel crosstalk between the MMB-complex and YAP. By binding to enhancers of MMB target genes and promoting B-MYB binding to promoters, YAP and MMB co-regulate a set of mitotic and cytokinetic target genes which promote cell proliferation. This doctoral thesis addresses the mechanisms of YAP and MMB mediated transcription, and it characterizes the role of YAP regulated enhancers in transcription of cell cycle genes. The results reported in this thesis indicate that expression of constitutively active, oncogenic YAP5SA leads to widespread changes in chromatin accessibility in untransformed human MCF10A cells. ATAC-seq identified that newly accessible and active regions include YAP-bound enhancers, while the MMB-bound promoters were found to be already accessible and remain open during YAP induction. By means of CRISPR-interference (CRISPRi) and chromatin immuniprecipitation (ChIP), we identified a role of YAP-bound enhancers in recruitment of CDK7 to MMB-regulated promoters and in RNA Pol II driven transcriptional initiation and elongation of G2/M genes. Moreover, by interfering with the YAP-B-MYB protein interaction, we can show that binding of YAP to B-MYB is also critical for the initiation of transcription at MMB-regulated genes. Unexpectedly, overexpression of YAP5SA also leads to less accessible chromatin regions or chromatin closing. Motif analysis revealed that the newly closed regions contain binding motifs for the p53 family of transcription factors. Interestingly, chromatin closing by YAP is linked to the reduced expression and loss of chromatin-binding of the p53 family member Np63. Furthermore, I demonstrate that downregulation of Np63 following expression of YAP is a key step in driving cellular migration. Together, the findings of this thesis provide insights into the role of YAP in the chromatin changes that contribute to the oncogenic activities of YAP. The overexpression of YAP5SA not only leads to the opening of chromatin at YAP-bound enhancers which together with the MMB complex stimulate the expression of G2/M genes, but also promotes the closing of chromatin at ∆Np63 -bound regions in order to lead to cell migration. N2 - Ein Kennzeichen vieler Tumoren ist die fehlerhafte Aktivierung von zellzyklusregulierenden Signalwegen. Ein für das Tumorwachstum wichtiger Signalwege ist der Hippo-Signalweg und das durch ihn regulierte Onkogen YAP, ein transkriptioneller Koaktivator. Durch die Regulierung von Zellzyklusgenen ist YAP verantwortlich für onkogene Prozesse wie Zellproliferation und Metastasierung. Der MMB-Multiproteinkomplex wiederum – er entsteht, wenn B-MYB an das MuvB-Kernmodul bindet – ist ein wichtiger Regulator der mitotischen Genexpression, welche ebenso mit der Tumorentstehung in Verbindung gebracht wurde. Unser Labor hat zuvor einen neuen Mechanismus der Regulation mitotischer Gene durch den MMB-Komplex und YAP identifiziert: Durch die Bindung an Enhancer der MMB-Zielgene und die Förderung der B-MYB-Bindung an Promotoren reguliert YAP eine Reihe von mitotischen und zytokinetischen Zielgenen, welche die Zellproliferation fördern. Diese Doktorarbeit befasst sich mit den Mechanismen der YAP- und MMB-vermittelten Transkription und charakterisiert die Rolle der YAP regulierten Enhancer während der Transkription von Zellzyklusgenen. Die in dieser Dissertation dargelegten Ergebnisse zeigen, dass die Expression von konstitutiv aktivem, onkogenem YAP5SA zu weitreichenden Veränderungen in der Chromatinzugänglichkeit nicht-transformierter humaner MCF10A Zellen führt. ATAC-seq zeigte, dass ein grosse Anzahl YAP-gebundene Enhancer zugänglich und aktiviert werden. Gleichzeitig konnte festgestellt werden, dass die MMB-gebundenen Promotoren bereits vor der Expression von YAP zugänglich sind und während der YAP-Induktion offen bleiben. Mittels CRISP-Interferenz (CRISPRi) und Chromatin-Immunpräzipitationen (ChIP) konnten wir zeigen, dass YAP-gebundene Enhancer die Rekrutierung von CDK7 an MMB-regulierten Promotoren sowie die Initiation und Elongation der Transkription von G2/M Genen fördert. Durch die experimentelle Blockade der YAP-B-MYB Proteininteraktion konnten wir darüber hinaus belegen, dass auch die Bindung von YAP an B-MYB für die Initiation der Transkription an MMB-regulierten Genen entscheidend ist. Unerwarteterweise führte die Überexpression von YAP5SA auch dazu, dass bestimmte Regionen im Genom weniger zugänglich werden. Motivanalysen ergaben, dass diese neu geschlossenen Regionen Bindungsmotive für die p53-Familie von Transkriptionsfaktoren enthalten. Die Chromatinschließung durch YAP ist an eine reduzierte Expression und an den Verlust der Chromatinbindung des p53-Familienmitglieds Np63 gekoppelt. Schließlich konnte gezeigt werden, dass die Inhibition von Np63 durch YAP ein wichtiger Schritt in der YAP-abhängigen Förderung der Zellmigration ist. Zusammenfassend liefern die Ergebnisse dieser Dissertation Einblicke in die Rolle von YAP bei Chromatinveränderungen welche zu den onkogenen Aktivitäten von YAP beitragen. Die Überexpression von YAP führt dabei einerseits zur Öffnung des Chromatins an YAP-gebundenen Enhancern, die zusammen mit dem MMB-Komplex die Expression von G2/M Genen stimulieren. Andererseits fördert YAP auch das Schließen von Chromatin an Np63-gebundenen Regionen, was wiederum Zellmigration nach sich zieht. KW - YAP KW - B-MYB KW - MMB KW - enhancers KW - transcription KW - chromatin accessibility KW - opening of chromatin KW - closing of chromatin KW - cell migration KW - G2/M genes KW - Chromatin KW - Genexpression KW - Zellzyklus KW - Zellmigration Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-302910 ER - TY - JOUR A1 - Wencker, Freya D. R A1 - Marincola, Gabriella A1 - Schoenfelder, Sonja M. K. A1 - Maaß, Sandra A1 - Becher, Dörte A1 - Ziebuhr, Wilma T1 - Another layer of complexity in Staphylococcus aureus methionine biosynthesis control: unusual RNase III-driven T-box riboswitch cleavage determines met operon mRNA stability and decay JF - Nucleic Acids Research N2 - In Staphylococcus aureus, de novo methionine biosynthesis is regulated by a unique hierarchical pathway involving stringent-response controlled CodY repression in combination with a T-box riboswitch and RNA decay. The T-box riboswitch residing in the 5′ untranslated region (met leader RNA) of the S. aureus metICFE-mdh operon controls downstream gene transcription upon interaction with uncharged methionyl-tRNA. met leader and metICFE-mdh (m)RNAs undergo RNase-mediated degradation in a process whose molecular details are poorly understood. Here we determined the secondary structure of the met leader RNA and found the element to harbor, beyond other conserved T-box riboswitch structural features, a terminator helix which is target for RNase III endoribonucleolytic cleavage. As the terminator is a thermodynamically highly stable structure, it also forms posttranscriptionally in met leader/ metICFE-mdh read-through transcripts. Cleavage by RNase III releases the met leader from metICFE-mdh mRNA and initiates RNase J-mediated degradation of the mRNA from the 5′-end. Of note, metICFE-mdh mRNA stability varies over the length of the transcript with a longer lifespan towards the 3′-end. The obtained data suggest that coordinated RNA decay represents another checkpoint in a complex regulatory network that adjusts costly methionine biosynthesis to current metabolic requirements. KW - allelic replacement KW - expression KW - translation KW - mechanism KW - acid KW - endoribonuclease KW - antitermination KW - transcription KW - proteins KW - geometry Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-259029 VL - 49 IS - 4 ER - TY - JOUR A1 - Hennig, Thomas A1 - Djakovic, Lara A1 - Dölken, Lars A1 - Whisnant, Adam W. T1 - A Review of the Multipronged Attack of Herpes Simplex Virus 1 on the Host Transcriptional Machinery JF - Viruses N2 - During lytic infection, herpes simplex virus (HSV) 1 induces a rapid shutoff of host RNA synthesis while redirecting transcriptional machinery to viral genes. In addition to being a major human pathogen, there is burgeoning clinical interest in HSV as a vector in gene delivery and oncolytic therapies, necessitating research into transcriptional control. This review summarizes the array of impacts that HSV has on RNA Polymerase (Pol) II, which transcribes all mRNA in infected cells. We discuss alterations in Pol II holoenzymes, post-translational modifications, and how viral proteins regulate specific activities such as promoter-proximal pausing, splicing, histone repositioning, and termination with respect to host genes. Recent technological innovations that have reshaped our understanding of previous observations are summarized in detail, along with specific research directions and technical considerations for future studies. KW - herpes simplex virus KW - RNA polymerase II KW - transcription KW - host shutoff KW - promoter-proximal pausing KW - C-terminal domain KW - polyadenylation KW - splicing Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-246165 SN - 1999-4915 VL - 13 IS - 9 ER - TY - JOUR A1 - Pattschull, Grit A1 - Walz, Susanne A1 - Gründl, Marco A1 - Schwab, Melissa A1 - Rühl, Eva A1 - Baluapuri, Apoorva A1 - Cindric-Vranesic, Anita A1 - Kneitz, Susanne A1 - Wolf, Elmar A1 - Ade, Carsten P. A1 - Rosenwald, Andreas A1 - von Eyss, Björn A1 - Gaubatz, Stefan T1 - The Myb-MuvB complex is required for YAP-dependent transcription of mitotic genes JF - Cell Reports N2 - YAP and TAZ, downstream effectors of the Hippo pathway, are important regulators of proliferation. Here, we show that the ability of YAP to activate mitotic gene expression is dependent on the Myb-MuvB (MMB) complex, a master regulator of genes expressed in the G2/M phase of the cell cycle. By carrying out genome-wide expression and binding analyses, we found that YAP promotes binding of the MMB subunit B-MYB to the promoters of mitotic target genes. YAP binds to B-MYB and stimulates B-MYB chromatin association through distal enhancer elements that interact with MMB-regulated promoters through chromatin looping. The cooperation between YAP and B-MYB is critical for YAP-mediated entry into mitosis. Furthermore, the expression of genes coactivated by YAP and B-MYB is associated with poor survival of cancer patients. Our findings provide a molecular mechanism by which YAP and MMB regulate mitotic gene expression and suggest a link between two cancer-relevant signaling pathways. KW - YAP KW - B-MYB KW - Myb-MuvB KW - mitotic genes KW - enhancer KW - transcription Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-202039 VL - 27 IS - 12 ER - TY - JOUR A1 - Elkon, Ran A1 - Loayza-Puch, Fabricio A1 - Korkmaz, Gozde A1 - Lopes, Rui A1 - van Breugel, Pieter C A1 - Bleijerveld, Onno B A1 - Altelaar, AF Maarten A1 - Wolf, Elmar A1 - Lorenzin, Francesca A1 - Eilers, Martin A1 - Agami, Reuven T1 - Myc coordinates transcription and translation to enhance transformation and suppress invasiveness JF - EMBO reports N2 - c‐Myc is one of the major human proto‐oncogenes and is often associated with tumor aggression and poor clinical outcome. Paradoxically, Myc was also reported as a suppressor of cell motility, invasiveness, and metastasis. Among the direct targets of Myc are many components of the protein synthesis machinery whose induction results in an overall increase in protein synthesis that empowers tumor cell growth. At present, it is largely unknown whether beyond the global enhancement of protein synthesis, Myc activation results in translation modulation of specific genes. Here, we measured Myc‐induced global changes in gene expression at the transcription, translation, and protein levels and uncovered extensive transcript‐specific regulation of protein translation. Particularly, we detected a broad coordination between regulation of transcription and translation upon modulation of Myc activity and showed the connection of these responses to mTOR signaling to enhance oncogenic transformation and to the TGFβ pathway to modulate cell migration and invasiveness. Our results elucidate novel facets of Myc‐induced cellular responses and provide a more comprehensive view of the consequences of its activation in cancer cells. KW - c‐Myc KW - transcriptional responses KW - translational regulation KW - transcription KW - transformation KW - metastasis KW - cancer KW - protein biosynthesis & quality control Y1 - 2015 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-150373 VL - 16 IS - 12 ER - TY - JOUR A1 - Dembek, Marcin A1 - Barquist, Lars A1 - Boinett, Christine J. A1 - Cain, Amy K. A1 - Mayho, Matthew A1 - Lawley, Trevor D. A1 - Fairweather, Neil F. A1 - Fagan, Robert P. T1 - High-throughput analysis of gene essentiality and sporulation in Clostridium difficile JF - mBio N2 - Clostridium difficile is the most common cause of antibiotic-associated intestinal infections and a significant cause of morbidity and mortality. Infection with C. difficile requires disruption of the intestinal microbiota, most commonly by antibiotic usage. Therapeutic intervention largely relies on a small number of broad-spectrum antibiotics, which further exacerbate intestinal dysbiosis and leave the patient acutely sensitive to reinfection. Development of novel targeted therapeutic interventions will require a detailed knowledge of essential cellular processes, which represent attractive targets, and species-specific processes, such as bacterial sporulation. Our knowledge of the genetic basis of C. difficile infection has been hampered by a lack of genetic tools, although recent developments have made some headway in addressing this limitation. Here we describe the development of a method for rapidly generating large numbers of transposon mutants in clinically important strains of C. difficile. We validated our transposon mutagenesis approach in a model strain of C. difficile and then generated a comprehensive transposon library in the highly virulent epidemic strain R20291 (027/BI/NAP1) containing more than 70,000 unique mutants. Using transposon-directed insertion site sequencing (TraDIS), we have identified a core set of 404 essential genes, required for growth in vitro. We then applied this technique to the process of sporulation, an absolute requirement for C. difficile transmission and pathogenesis, identifying 798 genes that are likely to impact spore production. The data generated in this study will form a valuable resource for the community and inform future research on this important human pathogen. KW - Bacillus subtilis KW - expression KW - spores KW - toxin KW - transcription KW - germination KW - transposition KW - metabolism KW - infection KW - in vitro Y1 - 2015 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-143745 VL - 6 IS - 2 ER - TY - JOUR A1 - Naseem, Muhammad A1 - Dandekar, Thomas T1 - The Role of Auxin-Cytokinin Antagonism in Plant-Pathogen Interactions JF - PLOS Pathogens N2 - No abstract available. KW - disease KW - pseudomas-syringae KW - arabidpsis thaliana KW - immunity KW - organogenesis KW - transcription KW - resistance KW - crosstalk Y1 - 2012 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-131901 VL - 8 IS - 11 ER - TY - JOUR A1 - Gassen, Alwine A1 - Brechtefeld, Doris A1 - Schandry, Niklas A1 - Arteaga-Salas, J. Manuel A1 - Israel, Lars A1 - Imhof, Axel A1 - Janzen, Christian J. T1 - DOT1A-dependent H3K76 methylation is required for replication regulation in Trypanosoma brucei JF - Nucleic Acids Research N2 - Cell-cycle progression requires careful regulation to ensure accurate propagation of genetic material to the daughter cells. Although many cell-cycle regulators are evolutionarily conserved in the protozoan parasite Trypanosoma brucei, novel regulatory mechanisms seem to have evolved. Here, we analyse the function of the histone methyltransferase DOT1A during cell-cycle progression. Over-expression of DOT1A generates a population of cells with aneuploid nuclei as well as enucleated cells. Detailed analysis shows that DOT1A over-expression causes continuous replication of the nuclear DNA. In contrast, depletion of DOT1A by RNAi abolishes replication but does not prevent karyokinesis. As histone H3K76 methylation has never been associated with replication control in eukaryotes before, we have discovered a novel function of DOT1 enzymes, which might not be unique to trypanosomes. KW - variants KW - cell-cycle regulation KW - blood-stream forms KW - african trypanosomes KW - mammalian cells KW - DNA replication KW - DOT1 KW - protein KW - transcription KW - cultivation Y1 - 2012 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-131449 VL - 40 IS - 20 ER - TY - JOUR A1 - Maudet, Claire A1 - Sourisce, Adèle A1 - Dragin, Loïc A1 - Lahouassa, Hichem A1 - Rain, Jean-Christopher A1 - Bouaziz, Serge A1 - Ramirez, Bertha Cécilia A1 - Margottin-Goguet, Florence T1 - HIV-1 Vpr Induces the Degradation of ZIP and sZIP, Adaptors of the NuRD Chromatin Remodeling Complex, by Hijacking DCAF1/VprBP JF - PLOS ONE N2 - The Vpr protein from type 1 and type 2 Human Immunodeficiency Viruses (HIV-1 and HIV-2) is thought to inactivate several host proteins through the hijacking of the DCAF1 adaptor of the Cul4A ubiquitin ligase. Here, we identified two transcriptional regulators, ZIP and sZIP, as Vpr-binding proteins degraded in the presence of Vpr. ZIP and sZIP have been shown to act through the recruitment of the NuRD chromatin remodeling complex. Strikingly, chromatin is the only cellular fraction where Vpr is present together with Cul4A ubiquitin ligase subunits. Components of the NuRD complex and exogenous ZIP and sZIP were also associated with this fraction. Several lines of evidence indicate that Vpr induces ZIP and sZIP degradation by hijacking DCAF1: (i) Vpr induced a drastic decrease of exogenously expressed ZIP and sZIP in a dose-dependent manner, (ii) this decrease relied on the proteasome activity, (iii) ZIP or sZIP degradation was impaired in the presence of a DCAF1-binding deficient Vpr mutant or when DCAF1 expression was silenced. Vpr-mediated ZIP and sZIP degradation did not correlate with the growth-related Vpr activities, namely G2 arrest and G2 arrest-independent cytotoxicity. Nonetheless, infection with HIV-1 viruses expressing Vpr led to the degradation of the two proteins. Altogether our results highlight the existence of two host transcription factors inactivated by Vpr. The role of Vpr-mediated ZIP and sZIP degradation in the HIV-1 replication cycle remains to be deciphered. KW - immunodeficiency-virus type-1 KW - MI-2/NURD complex KW - cell-cycle arrest KW - CUL4-DDB1 ubiquitin ligase KW - viral protein-R KW - NF-KAPPA-B KW - macrophage infection KW - enzyme APOBEC3G KW - in-vivo KW - transcription Y1 - 2013 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-128316 SN - 1932-6203 VL - 8 IS - 10 ER - TY - JOUR A1 - Groeneweg, Femke L. A1 - van Royen, Martin E. A1 - Fenz, Susanne A1 - Keizer, Veer I. P. A1 - Geverts, Bart A1 - Prins, Jurrien A1 - de Kloet, E. Ron A1 - Houtsmuller, Adriaan B. A1 - Schmidt, Thomas S. A1 - Schaaf, Marcel J. M. T1 - Quantitation of Glucocorticoid Receptor DNA-Binding Dynamics by Single-Molecule Microscopy and FRAP JF - PLOS ONE N2 - Recent advances in live cell imaging have provided a wealth of data on the dynamics of transcription factors. However, a consistent quantitative description of these dynamics, explaining how transcription factors find their target sequences in the vast amount of DNA inside the nucleus, is still lacking. In the present study, we have combined two quantitative imaging methods, single-molecule microscopy and fluorescence recovery after photobleaching, to determine the mobility pattern of the glucocorticoid receptor (GR) and the mineralocorticoid receptor (MR), two ligand-activated transcription factors. For dexamethasone-activated GR, both techniques showed that approximately half of the population is freely diffusing, while the remaining population is bound to DNA. Of this DNA-bound population about half the GRs appeared to be bound for short periods of time (similar to 0.7 s) and the other half for longer time periods (similar to 2.3 s). A similar pattern of mobility was seen for the MR activated by aldosterone. Inactive receptors (mutant or antagonist-bound receptors) show a decreased DNA binding frequency and duration, but also a higher mobility for the diffusing population. Likely, very brief (<= 1 ms) interactions with DNA induced by the agonists underlie this difference in diffusion behavior. Surprisingly, different agonists also induce different mobilities of both receptors, presumably due to differences in ligand-induced conformational changes and receptor complex formation. In summary, our data provide a consistent quantitative model of the dynamics of GR and MR, indicating three types of interactions with DNA, which fit into a model in which frequent low-affinity DNA binding facilitates the search for high-affinity target sequences. KW - NF-KAPPA-B KW - image correlation spectroscopy KW - human mineralocorticoid receptor KW - nuclear-pore complexes KW - in-vivo KW - living cells KW - mobility KW - transcription KW - protein KW - reveals Y1 - 2014 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-117085 VL - 9 IS - 3 ER - TY - JOUR A1 - Serfling, Edgar A1 - Rudolf, Ronald A1 - Busch, Rhoda A1 - Patra, Amiya K. A1 - Muhammad, Khalid A1 - Avots, Andris A1 - Andrau, Jean-Christophe A1 - Klein-Hessling, Stefan T1 - Architecture and expression of the Nfatc1 gene in lymphocytes N2 - In lymphocytes, the three NFAT factors NFATc1 (also designated as NFAT2), NFATc2 (NFAT1), and NFATc3 (NFAT4 or NFATx) are expressed and are the targets of immune receptor signals, which lead to a rapid rise of intracellular Ca++, the activation of phosphatase calcineurin, and to the activation of cytosolic NFATc proteins. In addition to rapid activation of NFAT factors, immune receptor signals lead to accumulation of the short NFATc1/αA isoform in lymphocytes which controls their proliferation and survival. In this mini-review, we summarize our current knowledge on the structure and transcription of the Nfatc1 gene in lymphocytes, which is controlled by two promoters, two poly A addition sites and a remote downstream enhancer. The Nfatc1 gene resembles numerous primary response genes (PRGs) induced by LPS in macrophages. Similar to the PRG promoters, the Nfatc1 promoter region is organized in CpG islands, forms DNase I hypersensitive sites, and is marked by histone tail modifications before induction. By studying gene induction in lymphocytes in detail, it will be important to elucidate whether the properties of the Nfatc1 induction are not only typical for the Nfatc1 gene but also for other transcription factor genes expressed in lymphocytes. KW - transcription KW - chromatin KW - induction KW - lymphocytes KW - Nfatc1 Y1 - 2014 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-112718 ER - TY - THES A1 - Effenberger, Madlen T1 - Funktionelle Charakterisierung von YB-1 im Zytoplasma des Multiplen Myeloms T1 - Functional Characterization of YB-1 in the Cytoplasm of Multiple Myeloma N2 - Das Y-Box-bindende Protein 1 (YB-1) ist ein Vertreter der hochkonservierten Familie eukaryotischer Kälteschockproteine und ein DNA/RNA-bindendes Protein. In Abhängigkeit von seiner Lokalisation übernimmt es Aufgaben bei der DNA-Transkription oder mRNA-Translation. YB-1 ist ein potentielles Onkogen beim Multiplen Myelom (MM), dass in primären MM-Zellen exprimiert ist. Für die funktionellen Untersuchungen von YB-1 in der vorliegenden Arbeit wurden humane Myelomzelllinien (HMZL) verwendet, die als in vitro Modell dieser malignen B Zell-Erkrankung dienen. Aufgrund der potentiellen Expression von YB-1 im Zellkern und/oder Zytoplasma von HMZL, wurde zunächst die Lokalisation des Proteins bestimmt. Es konnte gezeigt werden, dass YB 1 in den HMZL ausschließlich im Zytoplasma lokalisiert ist. Eine Translokation von YB-1 in den Nukleus kann durch die Serin-Phosphorylierung (Aminosäure 102) in der Kälteschockdomäne induziert werden. Die analysierten Myelomzelllinien zeigen jedoch kein nukleäres YB 1 und keine S102-Phosphorylierung. Diese Ergebnisse stützen die These, dass die Regulation der mRNA-Translation im Zytoplasma die vorherrschende Funktion von YB-1 beim MM ist. YB-1 könnte über diesen Mechanismus seine anti-apoptotische Wirkung vermitteln und die MM-Zellen vor genotoxischem Stress schützen. Um YB-1-regulierte mRNAs zu identifizieren wurden YB 1-Immunpräzipitationen mit zwei HMZL, einer Maus-Plasmozytomzelllinie und einem primären Maus-Plasmazelltumor durchgeführt. Zu den YB-1-gebundenen mRNAs gehören Translationsfaktoren und ribosomale Proteine, die eine starke Beteiligung von YB-1 beim RNA-Metabolismus bestätigen. In der vorliegenden Arbeit wurden spezifisch zwei mRNA-Kandidaten untersucht, die für den malignen Phänotyp von MM-Zellen wichtig sein können: das translationell kontrollierte Tumorprotein TCTP und MYC. Sowohl TCTP als auch MYC wurden bereits in Zusammenhang mit der Proliferation und Apoptose-Resistenz von malignen Zellen beschrieben. Die immunhistochemische Untersuchung der Knochenmarkbiopsien von MM-Patienten ergab eine gute Ko-Expression von YB-1 und TCTP in intramedullären MM-Zellen, während MYC erst in extramedullärem MM-Tumormaterial verstärkt mit der hohen YB 1-Expression korreliert. Die funktionellen Analysen der Arbeit haben gezeigt, dass YB 1 für die Translation der TCTP- und MYC-mRNA essentiell ist. Es kontrolliert die Verteilung dieser mRNAs zwischen translationell aktiven und inaktiven messenger Ribonukleoprotein-Partikeln. Die shRNA-vermittelte Reduktion von YB-1 führte zur Hemmung der TCTP- und MYC-Translation in der Phase der Initiation. Um den Einfluss der Kandidaten auf das Überleben der HMZL zu untersuchen, wurden proteinspezifische Knockdown-Experimente durchgeführt. Beim shRNA-vermittelten TCTP-Knockdown konnten keine Auswirkungen auf die Proliferation oder Viabilität von MM-Zellen beobachtet werden. Im Gegensatz dazu ist MYC für das Überleben und Wachstum der HMZL ausschlaggebend, denn der MYC-Knockdown induzierte Apoptose. Wie beim YB 1-Knockdown war ein Anstieg der Caspase-Aktivität und der Zusammenbruch des mitochondrialen Membranpotentials in den HMZL nachweisbar. Da es beim MYC-Knockdown gleichzeitig zur einer Reduktion der YB 1-Protein- und mRNA-Expression kam, wurde der Einfluss von MYC auf die Transkription des YB-1-Gens untersucht. Mit Hilfe von embryonalen Mausfibroblasten, die ein induzierbares MYC als Transgen besitzen, konnte gezeigt werden, dass die Aktivierung von MYC mit einer Zunahme der YB-1-mRNA einher geht. YB-1 ist somit ein direktes Zielgen des Transkriptionsfaktors MYC. Die Ergebnisse der vorliegenden Arbeit haben zum ersten Mal ein gegenseitiges regulatorisches Netzwerk aufgezeigt, in dem YB 1 transkriptionell durch MYC reguliert wird und YB-1 für die Translation der MYC-mRNA essentiell ist. Die Ko-Expression beider Proteine trägt zum Wachstum und Überleben von malignen Plasmazellen bei. N2 - The Y-box binding protein 1 (YB-1) is a member of the highly conserved coldshock-domain protein family and a DNA/RNA-binding protein. Therefore YB-1 can be involved in DNA transcription or mRNA translation depending on its localization in the cell. YB-1 is a potential oncogene in Multiple Myeloma (MM) and is expressed in primary MM cells. Human myeloma cell lines (HMCLs), which serve as the in vitro model for this B-cell malignancy, were used to functionally characterize YB-1 in MM. In this study it was shown that the YB-1 protein is expressed exclusively in the cytoplasm of HMCLs. Its translocation into the nucleus can be induced through the phosphorylation of a serine residue (amino acid 102) in the coldshock-domain of the protein. The analyzed myeloma cell lines are negative for nuclear YB-1 and the S102-phosphorylation. These results support the hypothesis that the regulation of mRNA translation in the cytoplasm is the primary function of YB-1 in MM. Through this mechanism YB-1 could mediate its anti-apoptotic effects and protect MM cells against genotoxic stress. To identify YB-1 regulated mRNAs in the cytoplasm immunoprecipitations of two HMCLs, one mouse plasmacytoma cell line and one primary mouse plasma cell tumor were performed. YB-1 bound mRNAs include translation factors and ribosomal proteins, which confirms the strong participation of YB-1 in the metabolism of RNAs. In the present study two mRNA candidates were specifically investigated which might be important for the malignant phenotype of MM cells: the translationally controlled tumor protein (TCTP) and MYC. Both, TCTP and MYC have been described in conjunction with proliferation and apoptosis-resistance of malignant cells. The immunohistochemical staining of bone marrow biopsies from MM patients revealed a good co-expression of YB-1 and TCTP in intramedullary MM cells, whereas MYC and YB-1 correlate strongly with each other in extramedullary MM tumors. The functional analysis of this study showed, that YB-1 is essential for the translation of TCTP and MYC mRNA. It controls the distribution of these mRNAs between translationally active and inactive messenger ribonucleoprotein particles. The shRNA-mediated reduction of YB-1 expression inhibits TCTP and MYC translation in the initiation phase. To investigate the influence of the candidates for HMCL survival protein-specific knockdown experiments were performed. The TCTP knockdown showed no effect on proliferation or viability of the analyzed MM cells. In contrast, MYC is crucial for MM cell survival and growth, as the knockdown induced apoptosis. Comparable with the performed YB-1 knockdown experiments apoptosis induction was verified here by an increase of activated caspases and disruption of the mitochondrial membrane potential in HMCLs. Interestingly, the knockdown of MYC also reduced YB-1 protein and mRNA expression. To investigate the influence of MYC on YB-1 gene transcription mouse embryonic fibroblasts (MEFs) from MYC transgenic animals were used. The activation of MYC protein in these cells induced YB-1 mRNA expression, showing that YB-1 is a direct target of the transcription factor MYC. The work presented here revealed for the first time a feed-forward loop of YB-1 and MYC expression in MM cells. In this loop YB-1 is transcribed by MYC and YB-1 is essential for MYC mRNA translation. Consequently, both proteins mutually up-regulate each other via combined transcriptional/translational activity to support cell growth and survival of malignant plasma cells. KW - Plasmozytom KW - Apoptosis KW - RNS-Bindungsproteine KW - Myc KW - Cytoplasma KW - YB-1 KW - mRNA-Translation KW - TCTP KW - Multiples Myelom KW - Transkription KW - YB-1 KW - mRNA translation KW - TCTP KW - multiple myeloma KW - transcription Y1 - 2012 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-76816 ER - TY - THES A1 - Fischer, Thomas Horst T1 - Die transkriptionelle Regulation der microRNA-21 im Herzen T1 - The transcriptional regulation of microRNA-21 in the heart N2 - MicroRNAs sind kleine, nicht kodierende RNA-Moleküle, die posttranskriptionell die Genexpression regulieren. Sie binden hierfür spezifisch an 3’-UTRs von messenger-RNAs und führen entweder direkt zu deren Abbau oder inhibieren deren Translation. Über die Mechanismen, die die Expression von microRNAs regulieren, ist jedoch noch wenig bekannt. Die Tatsache, dass sie als lange Vorläufermoleküle (pri-microRNAs) durch die RNA-Polymerase-II transkribiert werden, legt die Existenz eines Promotorbereiches nahe, der dem proteinkodierender Gene ähnelt. Mit Hilfe von microRNA-Arrays konnten wir im linksventrikulären Myokard mehrere bei Herzinsuffizienz deutlich verändert exprimierte microRNAs identifizieren. Die microRNA-21 ist dabei bereits im Frühstadium der Herzinsuffizienz verstärkt exprimiert (Northern Blot). Auch in primären, kardialen Zellen (Fibroblasten, Kardiomyozyten) wird die microRNA-21 nach Induktion einer Hypertrophie verstärkt exprimiert. Weiterführendes Ziel dieser Arbeit war es nun, diejenigen Mechanismen aufzuklären, die der starken Induktion der microRNA-21 im erkrankten Myokard zu Grunde liegen. Durch bioinformatische Analyse des zugehörigen Promotorbereiches (Trans-Spezies-Konservierung) und Klonierung danach ausgerichteter Fragmente in Luciferase-basierte Reporter-Plasmide konnte ein 118 Basen langer Bereich identifiziert werden, der maßgeblich die Expression der microRNA-21 im Herzen bedingt. Durch Deaktivierung einzelner cis-Elemente konnte die kardiale Expression auf zwei essentielle Transkriptionsfaktorbindungsstellen zurückgeführt werden. Es handelt sich dabei um Erkennungssequenzen für die im Herz bedeutsamen Transkriptionsfaktoren CREB und SRF. Sie liegen in enger räumlicher Nachbarschaft ungefähr 1150 bp vor der Transkriptionsstartstelle. Die Suppression der Expression dieser beiden Transkriptionsfaktoren mittels geeigneter siRNAs führte jeweils zu einer signifikanten Aktivitätsminderung des microRNA-21-Promotors und konnte somit die vorangehenden Ergebnisse validieren. Durch Generierung einer transgenen Tierlinie, die lacZ unter der Kontrolle des microRNA-21-Promotors exprimiert, werden in naher Zukunft nähere Aufschlüsse über die gewebsspezifische Verteilung der microRNA-21-Expresssion in vivo möglich sein. Zusammenfassend beschreiben wir hier erstmals den Mechanismus der transkriptionellen Regulation der microRNA-21 im Herzen. Dieser Mechanismus bedingt wahrscheinlich die starke Induktion dieser microRNA bei kardialer Hypertrophie und Herzinsuffizienz. N2 - MicroRNAs are small, non-coding RNA molecules that posttranscriptionally regulate gene expression. They specifically bind to 3’-UTRs of messenger RNAs and either directly lead to the degradation of the bound messenger-RNA or inhibit its translation. Only little is known, however, about the mechanisms that control the expression of microRNAs. The fact that they are being transcribed as long precursor-molecules (primary microRNAs, pri-microRNAs) by type-II-RNA-polymerase suggests that they have a promoter region similar to those of protein-coding genes. Using microRNA arrays, we were able to identify several differentially expressed microRNAs in the left ventricular myocardium of mice suffering from heart failure. MicroRNA-21 was found to be strikingly upregulated even in early stages of disease (Northern blot) and the induction of hypertrophy in vitro also elevated its expression. The aim of this study was to learn more about the molecular mechanisms that are responsible for the strong induction of microRNA-21 in the failing heart. Bioinformatic analysis of the microRNA-21 promoter region (trans species conservation) and cloning of several fragments into luciferase-based reporter plasmids revealed a 118 bp region to be fundamental to the activity of this promoter in cardiac cells. By deactivating single cis elements we were able to identify two transcription factor binding sites that are essential for microRNA-21 expression. These are recognition sites for the transcription factors CREB and SRF, both of which are known to be important in the heart. They are located in close proximity about 1150 bp upstream of the transcription start site. The suppression of these transcription factors through siRNAs lead to a strong reduction of the microRNA-21 promoter activity and thus validated the preceding results. Summing up we were able to describe the mechanisms that underlie the transcriptional regulation of microRNA-21 in the heart. This mechanism most likely leads to the strong induction of this microRNA in hypertrophy and heart failure. KW - Small RNA KW - Genregulation KW - microRNA-21 KW - miR-21 KW - Herz KW - Transkription KW - microRNA-21 KW - miR-21 KW - Herz KW - transcription Y1 - 2010 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-50702 ER - TY - JOUR A1 - Franke, Werner W. A1 - Scheer, Ulrich A1 - Trendelenburg, Michael F. A1 - Spring, Herbert A1 - Zentgraf, Hanswalter T1 - Absence of nucleosomes in transcriptionally active chromatin N2 - The ultrastructure of twO kinds of transcription ally active chromatin, the lampbrush chromosome loops and the nucleoli from amphibian oocytes and primary nuclei of the green alga Acetabularia, has been examined after manual isolation and dispersion in low salt media of slightly alkaline pH using various electron microscopic staining techniques (positive staining, metal shadowing, negative staining, preparation on positively charged films, etc.) and compared with the appearance of chromatin from various somatic cells (hen erythrocytes, rat hepatocytes, ClIltured murine sarcoma cells) prepared in parallel. While typical nucleosomes were revealed with all the techniques for chromatin from the latter three cell system, no nucleosomes were identified in either the lampbrush chromosome structures or the nucleolar chromatin. Nucleosomal arrays were absent not only in maximally fibril-covered matrix units but also in fibril-free regions between transcriptional complexes, including the apparent spacer intercepts between different transcriptional units. Moreover, comparisons of the length of the repeating units of rDNA in the transcribed state with those determined in the isolated rDNA and with the lengths of the first stable product of rDNA transcription, the pre-rRNA, demonstrated that the transcribed rDNA was not significantly shortened and/or condensed but rather extended in the transcriptional units. Distinct granules of about nucleosomal size which were sometimes found in apparent spacer regions as well as within matrix units of reduced fibril density were shown not to represent nucleosomes since their number per spacer unit was not inversely correlated with the length of the specific unit and also on the basis of their resistance to treatment with the detergent Sarkosyl NL-30. It is possible to structurally distinguish between transcriptionally active chromatin in which the DNA is extended in a non-nucleosomal form of chromatin and condensed, inactive chromatin within the typical nucleosomal package. The characteristic extended structure of transcriptionally active chromatin is found not only in the transcribed genes but also in non-transcribed regions within or between ("spacer") transcriptional units as well as in transcriptional units that are untranscribed amidst transcribed ones and/or have been inactivated for relatively short time. It is hypothesized that activation of transcription involves a transition from a nucleosomal to an extended chromatin organisation and that this structural transition is not specific for single "activated" genes but may involve larger chromatin regions, including adjacent untranscribed intercepts. KW - Cytologie KW - Chromatin structure KW - nucleosomes KW - transcription KW - electron microscopy Y1 - 1976 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-40646 ER - TY - JOUR A1 - Spring, Herbert A1 - Trendelenbrug, Michael F. A1 - Scheer, Ulrich A1 - Franke, Werner W. A1 - Herth, Werner T1 - Structural and biochemical studies of the primary nucleus of two green algal species, Acetabularia mediterranea and Acetabularia major N2 - Primary (giant) nuclei of the green algae Acetabularia mediterranea and A. major were studied by light and electron microscopy using in situ fixed material as well as manually isolated nuclear components. In addition, cytochemical reactions of nuclear structures and biochemical determinations of nuclear and cytoplasmic RNA and of genome DNA content were performed. The data obtained and the structures observed are interpreted as demonstralions of transcriptional activities of different gene classes. The most prominent class is the nucleolar cistrons of precursors of ribosomal RNA which occur highly repeated in clusters in the form of regularly alternating intercepts on deoxyribonucleoprotein axes of transcribed rDNA, the fibril-covered matrix units, and the fibril-free "spacer" segments. A description and a classification of the various structural complexes which seem to represent transcriptional activities is given. Quantitative evaluations of these arrangements are presented. The morphology and the dimensions of such structures are compared with the RNA molecular weight determinations and with the corresponding data reported from various animal cell systems. It is suggested that the formation of the giant nucleus is correlated with, and probably due to, an enormous amplification of transcriptionally active rDNA and packing of the extrachromosomal copies into the large nucleolar aggregate bodies. KW - Cytologie KW - Nucleolus KW - electron microscopy KW - Acetabularia KW - transcription KW - gene activity KW - ribosomes Y1 - 1974 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-40600 ER - TY - THES A1 - Markert, Andreas T1 - LARP7 – ein La ähnliches Protein reguliert die Elongation der PolII Transkription durch das 7SK RNP T1 - LARP7 - a La related protein regulates the elongation of polII transcription by the 7SK RNP N2 - Genexpression in Eukaryoten beschreibt einen mehrstufigen Prozess, welcher auf Ebene der Transkription durch den positiven Transkriptionselongationsfaktor P-TEFb entscheidend reguliert wird. PTEFb bildet einen heterodimeren Komplex aus der Cyclin abhängigen Kinase 9 und deren Kofaktor Cyclin T1/2. Dieser Komplex aktiviert die Elongation der Transkription durch Phosphorylierung der negativen Elongationsfaktoren DSIF und NELF. Darüber hinaus phosphoryliert PTEFb Serin2 Reste in der C-terminalen Domäne von RNA PolII und stimuliert so die kotranskriptionelle Prozessierung der synthetisierten prä-mRNA. In Anpassung an unterschiedliche Wachstumsbedingungen wird die Aktivität dieses Faktors durch reversible Interaktion mit 7SK RNA und HEXIM Proteinen innerhalb eines katalytisch inaktiven Ribonukleoproteinpartikels (7SK RNP) streng kontrolliert. Dieses sensible Gleichgewicht zwischen P-TEFb auf der einen und dem 7SK RNP auf der anderen Seite bildet die Grundlage der Regulation der Transkriptionselongation. Trotz der hohen Abundanz von 7SK RNA in der Zelle, assoziiert in vivo jedoch nur ein relativ kleiner Teil hiervon mit P-TEFb, sodass die effektiv zur Verfügung stehende RNA-Menge für die Bildung des 7SK RNP vermutlich limitierend wirkt. Ziel der vorliegenden Arbeit war es daher neue 7SK RNA interagierende Faktoren zu identifizieren, welche die Interaktion von PTEFb mit dem 7SK RNP steuern und so die PolII abhängige Transkription regulieren. Anhand verschiedener chromatographischer Reinigungen konnte zunächst ein bislang uncharakterisiertes La ähnliches Protein (LARP7) mit einer spezifischen Affinität für Pyrimidinreiche RNAs isoliert werden. LARP7 bindet, wie durch immunbiochemische Analysen und RNA- Bindungsstudien gezeigt werden konnte, quantitativ an das hoch konservierte uridylreiche 3´- Ende von 7SK RNA. Diese Assoziation erfordert dessen La- und RRMDomänen und erhöht wesentlich die Stabilität der RNA. Darüber hinaus kofraktioniert LARP7 mit weiteren Faktoren des 7SK RNP, bindet direkt an HEXIM1 und P-TEFb und stellt somit ebenfalls eine integrale Komponente des 7SK RNP dar. Die gewonnenen Daten weisen außerdem erstmals darauf hin, dass P-TEFb durch einen vorgeformten trimeren Komplexes, bestehend aus HEXIM1, 7SK RNA und LARP7 inhibiert wird. Reportergenanalysen in TZMbl-Zellen, welche Luziferase unter der Kontrolle des streng P-TEFb abhängigen HIV-1-LTRPromotors exprimieren zeigten, dass diese Inhibition im Wesentlichen durch LARP7 vermittelt wird. So ließ sich nach Reduktion der LARP7 Expression mittels RNAi eine signifikante Steigerung der Transkription vom HIV-1-LTR-Promotor beobachten. Eine ähnliche Stimulation der Transkription von PolII konnte in LARP7 defizienten HeLa-Zellen durch quantitative Real-Time-PCR auch für eine Reihe zellulärer Gene nachgewiesen werden. Die Beobachtung, dass LARP7 die generelle PolII Transkription reprimiert, korreliert zudem mit einer bereits beschriebenen Tumorsupressorfunktion des LARP7 homologen mxc Proteins aus D. melanogaster. Somit beeinflusst LARP7 das zelluläre Gleichgewicht zwischen freiem und 7SK RNP-gebundenem P-TEFb und fungiert somit als negativer Regulator der PolII Transkription in vivo. N2 - Eucaryotic gene expression is a multistep process, which is critically regulated on the level of RNA polII transcription by the positive transcription elongation factor P-TEFb. P-TEFb forms a heterodimeric complex, consisting of the cyclin-dependent kinase 9 and its cofactor cyclin T1/2. This complex stimulates transcriptional elongation as well as the cotranscriptional processing of the synthesized pre-mRNA by phosphorylation of negative elongation factors and the RNA polII Cterminal domain. To accommodate different growth conditions, P-TEFb activity is kept under tight control through its reversible interaction with 7SK RNA and HEXIM proteins in a catalytically inactive ribonucleoprotein particle (RNP). This sensitive balance between PTEFb on the one hand and the 7SK RNP on the other represents the basis of transcriptional regulation of elongation. Despite the high abundance of 7SK RNA in the cell, only a small part is associated with P-TEFb in vivo, suggesting that the actual amount of RNA available limits the formation of the 7SK RNP. Hence, the objective of the present study was to identify novel 7SK RNA interacting factors, which direct the interaction of P-TEFb with the 7SK RNP, thereby regulating polII dependent transcription. At first, using different chromatographic purification strategies, an as yet uncharacterized La related protein (LARP7) with an affinity to pyrimidine- rich RNAs was isolated. Immunobiochemical analysis and RNA binding studies revealed, that LARP7 quantitatively associates with the highly conserved 3´-UUU-OH terminus of 7SK RNA. This binding requires its La- and RRM-domain and dramatically increases RNA stability. Moreover, LARP7 co-fractionates with additional factors of the 7SK RNP, binds directly to HEXIM1 and P-TEFb and therefore likewise constitutes an integral component of the 7SK RNP. Data presented here indicate that P-TEFb is inhibited upon association with a trimeric complex consisting of HEXIM1, 7SK RNA and LARP7. Furthermore, reporter gene analysis in TZMbl cells - cells expressing luciferase under the control of the strictly P-TEFb dependent HIV-1-LTR promoter - demonstrated this inhibition to be mainly mediated by LARP7. Thus, reduction of LARP7 expression by RNA-interference led to a significant stimulation of transcription in TZMbl cells. In addition, quantitative real time pcr revealed a similar effect on transcription for a series of cellular genes in LARP7 deficient HeLa cells. Moreover, the observation, that LARP7 represses polII transcription in general correlates well with a known function of the d. melanogaster LARP7 homologue mxc as a tumor suppressor. Thus, LARP7 affects the cellular P-TEFb/7SK RNP equilibrium und serves as a negative regulator of polII transcription in vivo. KW - LARP7 KW - P-TEFb KW - 7SK RNA KW - Transkription KW - Elongation KW - LARP7 KW - P-TEFb KW - 7SK RNA KW - transcription KW - elongation Y1 - 2009 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-41773 ER - TY - THES A1 - Schmit, Fabienne T1 - LINC, a novel protein complex involved in the regulation of G2/M genes T1 - LINC, ein neuer Proteinkomplex, der G2/M Gene reguliert N2 - Regulated progression through the cell cycle is essential for ordered cell proliferation. One of the best characterized tumor suppressors is the retinoblastoma protein pRB, which together with the E2F transcription factors regulates cell cycle progression. In the model organisms Drosophila melanogaster and Caenorhabditis elegans, RB/E2F containing multiprotein complexes have been described as transcriptional regulators of gene expression. This work first describes a homologous complex in human cells named LINC (for LIN complex). It consists of a stable core complex containing LIN-9, LIN-37, LIN-52, LIN-54 and RbAp48. This core complex interacts cell cycle-dependently with different pocket proteins and transcription factors. In quiescent cells, LINC associates with p130 and E2F4. In S-phase cells these interactions are lost and LINC binds to B-MYB and p107. The transient knock-down of LIN-54 in primary fibroblasts, as the depletion of LIN-9, leads to cell cycle defects. The cells are delayed before the entry into mitosis. This effect is due to the fact that the knock-down of LINC components leads to the downregulation of cell cycle genes responsible for the entry into and exit from mitosis as well as for checkpoints during mitosis. These LINC target genes are known E2F G2/M target genes, which are expressed later than the classical G1/S E2F target genes. The transcriptional regulation by LINC is a direct effect as LINC binds to the promoters of its target genes throughout the cell cycle. LINC contains three DNA-binding proteins. E2F4 and B-MYB, which cell cycle-dependently bind to LINC, are known DNA-binding transcription factors. Additionally, it is show here that the LINC core complex member LIN-54 also directly binds to the promoter of a LINC target gene. Although the exact molecular mechanism of LINC function needs to be analyzed further, data in this work provide a model for the delayed activation of G2/M target genes. B-MYB, a G1/S E2F target gene, binds to LINC upon its expression in S-phase. Then only LINC is a transcriptional activator that induces the expression of the G2/M genes. This provides an explanation for the delayed expression of these E2F G2/M target genes. N2 - Die Regulation des Zellzyklus ist unerlässlich für die fehlerfreie Zellteilung. Einer der am Besten charakterisierten Tumorsuppressoren ist das Retinoblastom-Protein pRB, welches zusammen mit den E2F Transkriptionsfaktoren den Zellzyklus reguliert. In den Modellorganismen Drosophila melanogaster und Caenorhabditis elegans wurden Multiproteinkomplexe beschrieben, die pRB und E2F Homologe enthalten und transkriptionell die Expression von Zielgenen regulieren. Diese Arbeit beschreibt erstmals LINC, einen homologen Komplex in humanen Zellen. Der LIN-Kernkomplex besteht aus LIN-9, LIN-37, LIN-52, LIN-54 and RbAp48 und assoziiert zellzyklus-abhängig mit Pocket Proteinen und Transkriptionsfaktoren. In ruhenden Zellen (G0) assoziiert LINC mit p130 und E2F4. In der S-Phase verlassen p130 und E2F4 den Komplex und B-MYB und p107 interagieren mit LINC. Die transiente Depletion von LIN-54, ebenso wie die Depletion von LIN-9, führt zu Defekten im Zellzyklus. Die „knock-down“-Zellen treten verzögert in die Mitose ein. Dies konnte darauf zurückgeführt werden, dass die Depletion von LINC Mitgliedern Gene herunterreguliert, die für den Eintritt in und den Austritt aus der Mitose, sowie für Regulationsprozesse während der Mitose verantwortlich sind. Diese LINC Zielgene wurden bisher als G2/M E2F Zielgene beschrieben, welche verglichen mit klassischen E2F Zielgenen verzögert exprimiert werden. Die transkriptionelle Regulation durch LINC ist ein direkter Effekt, da LINC in G0 und in der S-Phase an die Promotoren seiner Zielgene bindet. LINC enthält drei DNA-bindende Proteine. Die zellzyklus-abhängigen Komponenten von LINC E2F4 und BMYB sind bekannte DNA-bindende Transkriptionsfaktoren. Zusätzlich konnte in dieser Arbeit gezeigt werden, dass das LINC Kernprotein LIN-54 direkt an den Promoter eines LINC Zielgens, cdc2, bindet. Obwohl der genaue molekulare Mechanismus für die Funktion von LINC noch genauer untersucht werden muss, liefern Daten in dieser Arbeit ein Modell für die verzögerte Expression von G2/M Genen. B-MYB ist selbst ein E2F Zielgen und bindet an LINC sobald es exprimiert wird. Erst die Assoziation von B-MYB an LINC in der S-Phase macht LINC zu einem transkriptionellen Aktivator G2/M-spezifischer Gene. Dies erklärt die verzögerte Expression dieser E2F G2/M Zielgene. KW - Zellzyklus KW - Transkription KW - LINC KW - LIN-54 KW - G2/M Übergang KW - LINC KW - LIN-54 KW - cell cycle KW - G2/M transition KW - transcription Y1 - 2008 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-29336 ER - TY - THES A1 - Osterloh, Lisa T1 - Identifizierung und Charakterisierung LIN-9 regulierter Gene im humanen System - Die Rolle von LIN-9 in der Regulation des Zellzyklus T1 - Identification and characterization of LIN-9 regulated genes in the human system - The role of LIN-9 in the regulation of the cell cycle N2 - Das humane LIN-9 wurde zuerst als pRB-interagierendes Protein beschrieben und spielt eine Rolle als Tumorsuppressor im Kontext des pRB-Signalweges. Über die molekulare Funktion von LIN-9 ist jedoch wenig bekannt. Die Homologe von LIN-9 in D. melanogaster und in C. elegans, sind an der transkriptionellen Regulation verschiedener Genen beteiligt. Dies und die Tatsache, dass LIN-9 mit pRB in der Aktivierung differenzierungspezifischer Gene kooperiert, ließ vermuten, dass humanes LIN-9 einen bedeutenden Einfluss auf die transkriptionelle Regulation von Genen haben könnte. Primäres Ziel dieser Arbeit war daher die Identifizierung LIN-9 regulierter Gene. Dazu sollte mit Hilfe von cDNA-Microarray Analysen, das Genexpressionsprofil LIN-9 depletierter primärer humaner Fibroblasten (BJ ET Zellen) im Vergleich zu Kontrollzellen untersucht werden. Hierfür wurde zunächst ein RNAi-basierendes System etabliert, um die posttranskriptionelle Expression von LIN-9 in BJ-ET Zellen effizient zu reprimieren. Auf dem Ergebnis der cDNA-Microarray Analysen aufbauende Untersuchungen sollten Aufschluss über die molekularbiologische Funktion von LIN-9 geben. In dieser Arbeit konnte erstmals gezeigt werden, dass der Verlust von LIN-9 zu einer verminderten Expression einer Gruppe G2/M-spezifischer Gene führt, deren Produkte für den Eintritt in die Mitose benötigt werden. Bekannt war, dass ein Teil dieser Gene durch den Transkriptionsfaktor B-MYB koreguliert wird. Zudem konnten Untersuchungen in unserem Labor eine Interaktion von LIN-9 und B-MYB auf Proteinebene, sowie die Bindung beider Proteine an die Promotoren der LIN-9 regulierten G2/M-Gene nachweisen. Dies lässt vermuten, dass LIN-9 und B-MYB gemeinsam die Expression der G2/M-Gene kontrollieren. Die verminderte Expression von G2/M-Genen in LIN-9 bzw. B-MYB depletierten Zellen geht mit einer Reihe phänotypischer Veränderungen einher, wie einer deutlich verlangsamten Proliferation und einer Akkumulation der Zellen in der G2/M-Phase. Mit Hilfe eines Durchflusszytometers erstellte Zellzykluskinetiken ergaben, dass die Progression LIN-9 bzw. B-MYB depletierter Fibroblasten von der S-Phase durch die G2/M-Phase und in die nächste G1-Phase deutlich verzögert ist. Es konnte weder ein Arrest dieser Zellen in der Mitose noch eine veränderte Länge der S-Phase nach LIN-9 oder B-MYB Depletion festgestellt werden. Daher ist die verlangsamte Zellzyklusprogression nach LIN-9 bzw. B-MYB Verlust höchstwahrscheinlich auf einen Defekt in der späten G2-Phase zurückzuführen, welcher in einem verzögerten Eintritt in die Mitose resultiert. In D. melanogaster und in C. elegans sind die Homologe von LIN-9 und B-MYB zusammen, als Bestandteile hoch konservierter RB/E2F-Komplexe, an der Regulation von Genen entscheidend beteiligt. Daher liegt es nahe, dass im humanen System LIN-9 und B MYB ebenfalls Bestandteile eines ähnlichen Komplexes sind und dadurch die Aktivierung der LIN 9 abhängigen G2/M-Gene vermitteln. Die Tatsache, dass LIN-9 sowohl als Tumorsuppressor, als auch als positiver Regulator des Zellzyklus fungiert, lässt vermuten, dass LIN-9 zu einer stetig größer werdenden Gruppe von Proteinen gehört, welche in Abhängigkeit vom zellulären und genetischen Kontext sowohl tumorsuppressive als auch onkogene Funktionen besitzen. N2 - The human LIN-9 Protein was first identified as a novel pRB-interacting Protein which acts as a tumorsuppressor in context of the pRB-pathway. But the molecular function of LIN-9 is poorly unterstood. The homologs of LIN-9 in D. melanogaster and C. elegans are required for the transcriptional regulation of different genes. This and the fact, that LIN 9 cooperates with pRB in the activation of differentiation specific genes let to the hypothesis, that human LIN-9 could play an important role in the transcriptional regulation of genes. Thus, the primary goal of this thesis was to identify genes which are regulated by LIN-9. For that purpose, the genexpression profiles of LIN-9 depelted primary human fibroblasts (BJ ET cells) in comparison to control cells should be analyzed by a cDNA-microarray approach. Therefor an RNAi-based system was established, that efficiently represses the posttranscriptional expression of LIN-9 in BJ-ET cells. Based on the outcome of the cDNA microarray analysis, further studies should provide more informations about the molecular function of LIN-9. It was possible to show, that the loss of LIN-9 leads to a reduced expression of a cluster of G2/M-specific genes, whose products are required for timely entry into mitosis. It was known, that some of these genes are coregulated by the transcriptionfactor B-MYB. Moreover, studies in our lab account for the interaction of LIN-9 and B-MYB on protein level and the binding of both proteins to the promotors of LIN-9 regulated G2/M-genes. The reduced expression of these genes is accompanied by phenotypically changes, such as strongly impaired proliferation and an accumulation of these cells in the G2/M-Phase. Cell cycle kinetics generated by flowcytometry revealed that the progression of LIN-9 or B MYB depleted cells from S-phase to G2/M-phase and into the next G1-Phase is significantly delayed. Depletion of LIN-9 or B-MYB results neither in an arrest in mitosis nor in a significantly changed S-phase length of these cells. This indicates that the slowed progression is most likely due to a defect in the late G2-phase, which results in a delayed entry into mitosis. The homologs of LIN-9 and B-MYB in D. melanogaster and C. elegans act together as subunits of highly conserved RB/E2F-complexes in the regulation of genes. This let to the suggestion, that LIN-9 and B-MYB are also components of a similar complex in humans and thereby mediate the activation of LIN-9 regulated G2/M-genes. Because LIN-9 acts as a tumorsuppressor in the pRB-pathway as well as an positive regulator of the cell cycle, it seems that LIN-9 belongs to an increasing group of proteins, which function as context dependent tumorsuppressors and oncogenes. KW - Zellzyklus KW - Mitose KW - Genregulation KW - Microarray KW - G2/M-Übergang KW - LIN-9 KW - B-MYB KW - E2F KW - Transkription KW - G2/M-transition KW - LIN-9 KW - B-MYB KW - E2F KW - transcription Y1 - 2007 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-24360 ER - TY - THES A1 - Mauder, Norman T1 - Vergleichende Untersuchung der Internaline und PrfA-abhängigen Transkription in Listeria monocytogenes, L. ivanovii und L. seeligeri T1 - comparative study of internalins and PrfA-dependent transcription in Listeria monocytogenes, L. ivanovii and L. seeligeri N2 - Die Gattung Listeria umfasst sechs bekannte Arten ubiquitär vorkommender Gram-positiver, nicht sporulierender Stäbchenbakterien. Von diesen Spezies sind Listeria monocytogenes und L. ivanovii in der Lage bei Mensch und Tier das Krankheitsbild der Listeriose zu verursachen (Rocourt & Seeliger, 1985; Vázquez-Boland et al., 2001b; Weis & Seeliger, 1975), wobei L. ivanovii vorwiegend bei Tieren als Krankheitserreger vorkommt (Cummins et al., 1994; Hof & Hefner, 1988). L. monocytogenes gilt als wichtiges Modell für ein intrazelluläres Pathogen, das mit Hilfe seiner Internaline auch in nicht-professionelle Phagozyten invadieren (Gaillard et al., 1991; Lingnau et al., 1995) und sich dank einer Reihe weiterer Virulenzfaktoren im Zytoplasma vermehren, fortbewegen und Nachbarzellen infizieren kann (Tilney & Portnoy, 1989). Die beiden pathogenen Arten und das apathogene L. seeligeri besitzen eine als LIPI-1 bezeichnete Pathogenitätsinsel (Gouin et al., 1994; Kreft et al., 2002). Internalingene sind bei L. monocytogenes teilweise geclustert und bei L. ivanovii zu einem großen Teil in einer LIPI-2 genannten Pathogenitätsinsel organisiert (Domínguez-Bernal et al., 2006; Dramsi et al., 1997; Gaillard et al., 1991; Raffelsbauer et al., 1998). Die Expression vieler dieser Virulenzgene wird durch das zentrale Regulatorprotein PrfA gesteuert, dessen Gen prfA selbst Teil der LIPI-1 ist (Domínguez-Bernal et al., 2006; Leimeister-Wächter et al., 1990; Lingnau et al., 1995; Mengaud et al., 1991a). Im Rahmen dieser Arbeit sollten die Internaline InlC, InlE, InlG und InlH von L. monocytogenes näher untersucht werden. Dazu wurden rekombinante His6-markierte Internaline aufgereinigt und polyklonale Antiseren gegen die Internaline A, B, E, G und H hergestellt. Darüber hinaus gelang die Herstellung zweier monoklonaler Antikörper gegen InlG. Obwohl die Antikörper gegen InlG und InlE ihre rekombinanten Antigene gut dekorieren, konnten mit ihnen keine Proteine in Zellwand- oder Überstandspräparaten von L. monocytogenes EGD und EGDe detektiert werden. Das Antiserum gegen InlH kreuzreagierte mit InlA und auch schwach mit anderen Internalinen. In Zellwandpräparaten von L. monocytogenes dekorierte es ein ~50 kDa schweres Protein, welches mit InlH identisch sein könnte. Es fehlt in inlG/H/E Deletionsmutanten und wird in einer inlA/B Deletionsmutante stärker exprimiert. Im Kulturüberstand ist es etwas schwerer, wie man es von einem Protein mit LPXTG Motiv erwartet, das nicht von Sortase (Bierne et al., 2002; Garandeau et al., 2002) prozessiert wurde. In L. monocytogenes EGDe wird dieses ~50 kDa Protein um ein bis zwei dekadische Größenordungen stärker exprimiert als in L. monocytogenes EGD. Die Expression des Proteins war bei 30 und 37 °C gleich stark und wurde nicht durch PrfA reguliert. In Zellwandpräparaten von L. ivanovii ATCC 19119 dekorierten die Seren gegen InlA und InlH ein Protein das in seiner Größe dem InlA von L. monocytogenes entspricht. Mit Hexosaminidase Assays zur Untersuchung von Zelladhärenz (nach Landegren, 1984) an rekombinante His6-markierte Internaline konnte keine Interaktion der Internaline InlE, InlG oder InlH mit Oberflächenfaktoren von Caco-2, HeLa oder HepG2 Zellen nachgewiesen werden, während Positivkontrollen mit InlA und InlB weitestgehend erwartungsgemäß ausfielen. InlC besitzt jedoch offenbar einen bisher noch nicht genauer identifizierten Rezeptor auf der Zelloberfläche. An InlC und EGF adhärierten Caco-2 Zellen stark wachstumsphasenabhängig und etwa tausendfach schwächer als an InlA. Die beste Bindung erfolgte bei semikonfluent gewachsenen Zellen, die am Vortag ausgesät wurden. Unter diesen Bedingungen war auch die von Bergmann et al. beobachtete unterstützende Wirkung von InlC auf die InlA-abhängige Invasion am größten (Bergmann et al., 2002). In dieser Arbeit wurden außerdem die Promotoren von Internalingenen aus L. ivanovii, sowie weitere Virulenzgene (plcA, hly, actA) der Spezies L. monocytogenes, L. ivanovii und L. seeligeri mit Hilfe eines zellfreien in vitro Transkriptionssystems (Lalic-Mülthaler et al., 2001) untersucht, um deren PrfA-Abhängigkeit und Aktivität unabhängig von physiologischen Faktoren analysieren zu können, da die PrfA-Aktivität in vivo pleiotrop reguliert wird (Dickneite et al., 1998; Ermolaeva et al., 2004; Milenbachs et al., 1997; Milenbachs Lukowiak et al., 2004; Renzoni et al., 1997; Ripio et al., 1996). Dafür wurde in dieser Arbeit RNA-Polymerase aus L. monocytogenes ΔprfA ΔsigB (Stritzker et al., 2005) isoliert. Gleichzeitig wurde die Aktivität von rekombinanten His6-markierten PrfA Proteinen untersucht. Dazu wurden die PrfA Proteine von L. monocytogenes (m-PrfA und hyperaktives m-PrfA* (Ripio et al., 1997b)), L. ivanovii (i-PrfA) und L. seeligeri (s-PrfA), so wie ein Hybridprotein (sm-PrfA) aufgereinigt. Das Hybridprotein sm-PrfA entspricht s-PrfA bis auf die letzten 38 Aminosäurereste, die durch jene von m-PrfA ersetzt wurden. ... N2 - The genus Listeria comprises six known species of ubiquitous Gram-positive, non-sporulating, rod-shaped bacteria. Of these species Listeria monocytogenes and L. ivanovii are able to cause the clinical picture of listeriosis in humans and animals (Rocourt & Seeliger, 1985; Vázquez-Boland et al., 2001b; Weis & Seeliger, 1975) with L. ivanovii predominantly occurring in animals (Cummins et al., 1994; Hof & Hefner, 1988). L. monocytogenes is considered as important model of an intracellular pathogen that can also invade non-professional phagocytes with the aid of internalins (Gaillard et al., 1991; Lingnau et al., 1995) and can multiply and spread due to a set of virulence factors (Tilney & Portnoy, 1989). The two pathogenic species and the apathogenic L. seeligeri possess a pathogenicity island termed LIPI-1 (Gouin et al., 1994; Kreft et al., 2002). In L. monocytogenes internalin genes are partially clustered and mainly form a pathogenicity island termed LIPI-2 in L. ivanovii (Domínguez-Bernal et al., 2006; Dramsi et al., 1997; Gaillard et al., 1991; Raffelsbauer et al., 1998). The expression of many virulence genes is controlled by the central regulatory protein PrfA which gene prfA is part of LIPI-1 (Domínguez-Bernal et al., 2006; Leimeister-Wächter et al., 1990; Lingnau et al., 1995; Mengaud et al., 1991a). In the context of this work the internalins InlC, InlE, InlG and InlH of L. monocytogenes should be further investigated. Therefore recombinant His6-tagged internalins were purified and polyclonal antisera against the internalins A, B, E, G and H were raised. In addition the creation of two monoclonal antibodies against InlG succeeded. While the antibodies against InlG and InlE decorated well their recombinant antigens, they could not detect proteins in cell wall preparations or culture supernatant of L. monocytogenes EGD and EGDe. The antiserum against InlH cross-reacted with InlA and weakly also with other internalins. In cell wall preparations of L. monocytogenes it decorated a ~50 kDa protein which could be identical with InlH. This protein is missing in inlG/H/E deletion mutants and is stronger expressed in inlA/B deletion mutants. It is slightly bigger in the supernatant as expected for a protein with LPXTG motif that was not processed by sortase (Bierne et al., 2002; Garandeau et al., 2002). In L. monocytogenes EGDe the ~50 kDa protein was expressed stronger than in L. monocytogenes EGD by two orders of magnitude. The expression of this protein was equal at 30 and 37 °C and was not regulated by PrfA. In cell wall preparations of L. ivanovii ATCC 19119 the antisera against InlA and InlH decorated a protein matching the size of InlA of L. monocytogenes. Hexosaminidase assays for analysis of cell adherence (after Landegren, 1984) with recombinant His6-tagged internalins showed no interaction of the internalins InlE, InlG or InlH with surface factors of Caco-2, HeLa or HepG2 cells while positive controls with InlA and InlB mainly resulted as expected. However InlC has a not yet identified receptor on the eukaryotic cell surface. Caco-2 cells adhered to InlC and EGF in a strongly growth phase dependent manner and roughly thousand fold weaklier then to InlA. Best binding was observed with semi confluent grown cells which were prepared one day before the assay. Under these conditions the supportive effect of InlC in InlA-dependent invasion reported by Bergmann et al. was also maximal (Bergmann et al., 2002). Furthermore in this work the promoters of internalin genes from L. ivanovii and other virulence genes (plcA, hly, actA) from the species L. monocytogenes, L. ivanovii and L. seeligeri were investigated with the aid of the cell free in vitro transcription assay (Lalic-Mülthaler et al., 2001) to analyze their PrfA-dependency and activity independent of metabolic factors because PrfA activity is pleiotropicly regulated in vivo (Dickneite et al., 1998; Ermolaeva et al., 2004; Milenbachs et al., 1997; Milenbachs Lukowiak et al., 2004; Renzoni et al., 1997; Ripio et al., 1996). Therefore RNA polymerase from L. monocytogenes ΔprfA ΔsigB (Stritzker et al., 2005) was isolated in this work. Simultaneously the activity of recombinant His6-tagged PrfA proteins was investigated. For this purpose PrfA proteins of L. monocytogenes (m-PrfA and hyperactive m-PrfA* (Ripio et al., 1997b)), L. ivanovii (i-PrfA), L. seeligeri (s-PrfA) and the hybrid protein (sm-PrfA) were purified. The hybrid protein sm-PrfA corresponds to s-PrfA except for the last 38 amino acid residues which were substituted by those of m-PrfA. ... KW - Listeria KW - Virulenz KW - Internaline KW - Transkription KW - Listeria KW - Internaline KW - PrfA KW - Transkription KW - Listeria KW - internalins KW - PrfA KW - transcription Y1 - 2006 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-21659 ER -