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- Überexpression (1)
- índice de biodiversidad (1)
Institute
- Theodor-Boveri-Institut für Biowissenschaften (124) (remove)
Sonstige beteiligte Institutionen
- DNA Analytics Core Facility, Biocenter, University of Würzburg, Würzburg, Germany (1)
- Department of Animal Ecology and Tropical Biology, University of Würzburg, Würzburg, Germany (1)
- Forschungsstation Fabrikschleichach (1)
- Institut für Tierökologie und Tropenbiologie (1)
- Interdisziplinäres Zentrum für Klinische Forschung (ZIKF), Würzburg (1)
- Klinische Mikrobiologie am Universitätsklinikum Erlangen (1)
- Technische Hochschule Wildau (1)
In contrast to c-Myc, a deregulated expression of the MYCN gene is restricted to human neuroendocrine tumours. In most cases, the excessive activity of N-Myc results from a MYCN amplification. In neuroblastoma, amplification of MYCN is a predictor of poor prognosis and resistance to therapy. The inability to target the N-Myc protein directly necessitates the search for alternative targets. This project aimed at identifying genes specifically required for growth and survival of cells that express high levels of N-Myc using high-throughput shRNA screening combined with next generation sequencing. The identification and analysis of these genes will shed light on functional interaction partners of N-Myc.
We screened a shRNA library containing 18,327 shRNAs and identified 148 shRNAs, which were selectively depleted in the presence of active N-Myc. In addition, shRNAs targeting genes that are involved in p53 and ARF turnover and apoptosis were depleted in the cell population during the screen. These processes are known to affect N-Myc-mediated apoptosis. Consequently, these results biologically validated the screen. The 148 shRNAs that showed a significant synthetic lethal interaction with high levels of N-Myc expression were further analysed using the bioinformatics program DAVID. We found an enrichment of shRNAs that target genes involved in specific biological processes. For example, we validated synthetic lethal interactions for genes such as, THOC1, NUP153 and LARP7, which play an important role in the process of RNA polymerase II-mediated transcription elongation. We also validated genes that are involved in the neddylation pathway.
In the screen we identified Cullin 3, which is a component of the BTB-CUL3-Rbx1 ubiquitin ligase that is involved in the turnover of Cyclin E. Depletion of cullin 3 and activation of N-Myc was found to synergistically increase Cyclin E expression to supraphysiological levels, inducing S-phase arrest and a strong DNA damage response.
Together with results from a proteomics analysis of N-Myc associated proteins, our results lead us to the following hypothesis: In a neuroblastoma cell, the high levels of N-Myc result in a conflict between RNA polymerase II and the replication machinery during S-phase. The newly identified interaction partners of N- Myc are required to solve this conflict. Consequently, loss of the interaction leads to a massive DNA damage and the induction of apoptosis. In addition, inhibition or depletion of the essential components of the neddylation pathway also results in an unresolvable problem during S-phase.
Die Einführung der Fluoreszenzmikroskopie ermöglicht es, Strukturen in Zellen spezifisch und mit hohem Kontrast zu markieren und zu untersuchen. Da die Lichtmikroskopie jedoch in ihrer Auflösung begrenzt ist, bleiben Strukturinformationen auf molekularer Ebene verborgen. Diese als Beugungsgrenze bekannte Limitierung, kann mit modernen Verfahren umgangen werden. Die Lokalisationsmikroskopie nutzt hierfür photoschaltbare Fluorophore, deren Fluoreszenz räumlich und zeitlich separiert wird, um so einzelne Fluorophore mit
Nanometer-Genauigkeit lokalisieren zu können. Aus tausenden Einzelmolekül-Lokalisationen wird ein künstliches, hochaufgelöstes Bild rekonstruiert. Die
hochauflösende Mikroskopie ist grade für die Lebendzell-Beobachtung ein wertvolles Werkzeug, um subzelluläre Strukturen und Proteindynamiken jenseits der Beugungsgrenze unter physiologischen Bedingungen untersuchen zu können.
Als Marker können sowohl photoaktivierbare fluoreszierende Proteine als auch photoschaltbare organische Fluorophore eingesetzt werden. Während die
Markierung mit fluoreszierenden Proteinen einfach zu verwirklichen ist, haben organische Farbstoffe hingegen den Vorteil, dass sie auf Grund der höheren Photonenausbeute eine präzisere Lokalisation erlauben. In lebenden Zellen wird die Markierung von Strukturen mit synthetischen Fluorophoren über sogenannte
chemische Tags ermöglicht. Diese sind olypeptidsequenzen, die genetisch an das Zielprotein fusioniert werden und anschließend mit Farbstoff-gekoppelten Substraten gefärbt werden. An der Modellstruktur des Histonproteins H2B
werden in dieser Arbeit Farbstoffe in Kombination mit chemischen Tags identifiziert, die erfolgreich für die Hochauflösung mit direct stochastic optical
reconstruction microscopy (dSTORM) in lebenden Zellen eingesetzt werden können. Für besonders geeignet erweisen sich die Farbstoffe Tetramethylrhodamin,
505 und Atto 655, womit der gesamte spektrale Bereich vertreten ist. Allerdings können unspezifische Bindung und Farbstoffaggregation ein Problem bei der effizienten Markierung in lebenden Zellen darstellen. Es wird
gezeigt, dass die Beschichtung der Glasoberfläche mit Glycin die unspezifische Adsorption der Fluorophore erfolgreich minimieren kann. Weiterhin wird der
Einfluss des Anregungslichtes auf die lebende Zelle diskutiert. Es werden Wege beschrieben, um die Photoschädigung möglichst gering zu halten, beispielsweise
durch die Wahl eines Farbstoffs im rotem Anregungsbereich.
Die Möglichkeit lebende Zellen mit photoschaltbaren organischen Fluorophoren spezifisch markieren zu können, stellt einen großen Gewinn für die Lokalisationsmikroskopie dar, bei der ursprünglich farbstoffgekoppelte Antikörper zum Einsatz kamen. Diese Markierungsmethode wird in dieser Arbeit eingesetzt, um
das Aggregationsverhalten von Alzheimer verursachenden -Amyloid Peptiden im Rahmen einer Kooperation zu untersuchen. Es werden anhand von HeLa Zellen verschiedene beugungsbegrenzte Morphologien der Aggregate aufgeklärt. Dabei wird gezeigt, dass intrazellulär vorhandene Peptide größere Aggregate formen als die im extrazellulären Bereich. In einer zweiten Kollaboration wird mit Hilfe des photoaktivierbaren Proteins
mEos2 und photoactivated localization microscopy (PALM) die strukturelle Organisation zweier Flotillinproteine in der Membran von Bakterien untersucht.
Diese Proteine bilden zwei Cluster mit unterschiedlichen Durchmessern, die mit Nanometer-Genauigkeit bestimmt werden konnten. Es wurde außerdem festgestellt, dass beide Proteine in unterschiedlichen Anzahlen im Bakterium
vorliegen.
The auditory system is an exquisitely complex sensory organ dependent upon the synchronization of numerous processes for proper function. The molecular characterization of hereditary hearing loss is complicated by extreme genetic heterogeneity, wherein hundreds of genes dispersed genome-wide play a central and irreplaceable role in normal hearing function. The present study explores this area on a genome-wide and single gene basis for the detection of genetic mutations playing critical roles in human hearing.
This work initiated with a high resolution SNP array study involving 109 individuals. A 6.9 Mb heterozygous deletion on chromosome 4q35.1q35.2 was identified in a syndromic patient that was in agreement with a chromosome 4q deletion syndrome diagnosis. A 99.9 kb heterozygous deletion of exons 58-64 in USH2A was identified in one patient. Two homozygous deletions and five heterozygous deletions in STRC (DFNB16) were also detected. The homozygous deletions alone were enough to resolve the hearing impairment in the two patients. A Sanger sequencing assay was developed to exclude a pseudogene with a high percentage sequence identity to STRC from the analysis, which further solved three of the six heterozygous deletion patients with the hemizygous, in silico predicted pathogenic mutations c.2726A>T (p.H909L), c.4918C>T (p.L1640F), and c.4402C>T (p.R1468X). A single patient who was copy neutral for STRC and without pathogenic copy number variations had compound heterozygous mutations [c. 2303_2313+1del12 (p.G768Vfs*77) and c.5125A>G (p.T1709A)] in STRC. It has been shown that STRC has been previously underestimated as a hearing loss gene. One additional patient is described who does not have pathogenic copy number variation but is the only affected member of his family having hearing loss with a paternally segregating translocation t(10;15)(q26.13;q21.1).
Twenty-four patients without chromosomal aberrations and the above described patient with an USH2A heterozygous deletion were subjected to a targeted hearing loss gene next generation sequencing panel consisting of either 80 or 129 hearing-relevant genes. The patient having the USH2A heterozygous deletion also disclosed a second mutation in this gene [c.2276G>T (p.C759F)]. This compound heterozygous mutation is the most likely cause of hearing loss in this patient. Nine mutations in genes conferring autosomal dominant hearing loss [ACTG1 (DFNA20/26); CCDC50 (DFNA44); EYA4 (DFNA10); GRHL2 (DFNA28); MYH14 (DFNA4A); MYO6 (DFNA22); TCF21 and twice in MYO1A (DFNA48)] and four genes causing autosomal recessive hearing loss were detected [GJB2 (DFNB1A); MYO7A (DFNB2); MYO15A (DFNB3), and USH2A]. Nine normal hearing controls were also included. Statistical significance was achieved comparing controls and patients that revealed an excess of mutations in the hearing loss patients compared to the control group. The family with the GRHL2 c.1258-1G>A mutation is only the second family published worldwide with a mutation described in this gene to date, supporting the initial claim of this gene causing DFNA28 hearing loss. Audiogram analysis of five affected family members uncovered the progressive nature of DFNA28 hearing impairment. Regression analysis predicted the annual threshold deterioration in each of the five family members with multiple audiograms available over a number of years.
The synaptonemal complex (SC) is a highly conserved structure in sexually reproducing organism. It has a tripartite, ladder-like organization and mediates the stable pairing, called synapsis, of the homologous chromosomes during prophase of meiosis I. Failure in homolog synapsis result in aneuploidy and/or apoptosis of the developing germ cells.
Since 1956, the SC is subject of intense research and its presence was described in various species from yeast to human. Its structure was maintained during millions of years of evolution consist-ing of two parallel lateral elements (LEs), joined by numerous transverse filaments (TFs) which run perpendicular to the LEs and an electron dense central element (CE) in the middle of the SC. Individual protein components, however, were characterized only in few available model organ-isms, as for example Saccharomyces cerevisiae, Arabidopsis thaliana, Drosophila melanogaster, Ceanorhabditis elegans and Mus musculus. Rather unexpectedly, these characterizations failed to detect an evolutionary homology between the protein components of the different SCs. This fact challenged the general idea of a single origin of the SC in the evolution of meiosis and sexual reproduction.
This thesis now addressed itself to the task to unravel the discrepancy between the high conser-vation of the SC structure and its diverse and apparently non-homologous protein composition, focusing on the animal kingdom. It is the first study dealing with the evolution of the SC in Meta-zoa and demonstrates the monophyly of the mammalian SC components in metazoan species. The thesis demonstrates that at least four out of seven murine SC proteins emerged in Eumeta-zoa at the latest and have been likewise part of an ancient SC as it can be found in the present-day cnidarian species Hydra. This SC displays the common organization and already possesses the minimal protein kit corresponding to the three different structural domains: LEs, TFs and the CE. Additionally, the individual phylogenies of the murine SC proteins revealed the dynamic evolu-tionary history of the ancient SC. Further components were added during the diversification of Bilateria and vertebrates while ancestral proteins likely duplicated in the vertebrate lineage and diversified or got lost in the branch leading to ecdysozoan species. It is hypothesized that the apparently non-homologous SC proteins in D. melanogaster and C. elegans actually do derive from the ancient SC proteins but diversified beyond recognition during the fast evolution of Ar-thropoda and Nematoda.
The study proposes Hydra as an alternative invertebrate model system for meiosis and SC re-search to the standard organisms D. melanogaster and C. elegans. Recent results about the cni-darian SC as well as the possible application of standard methods is discussed and summarized in the concluding section.
1. Pollination of sexually reproducing plants requires pollen transfer agents, which can be biotic, abiotic or a combination of biotic and abiotic agents. The dominance of one of pollination system in wild plant communities depends on climatic factors and/or degrees of anthropogenic influences, which have effects on pollinator diversity and pollination function. Anthropogenic activities and climate change are also considered as main causes of ongoing invasion of invasive species into wild and managed habitats which can bring up competition for pollinators with possible negative consequences for the reproduction of co-occurring native plant species.
2. The study aimed to determine pollination systems and pollination limitation of invasive and native plant communities in natural savannah between 870 – 1130 m and semi-natural (managed) grassland between 1300 – 1750 m above sea level; effects of flower density and pollinator abundance on seed production of cross-pollinated and self-pollinated plants; and relationships of bee abundance and the proportion of cross- pollinated plants at the southern slope of Mount Kilimanjaro, Tanzania.
3. Pollinator-exclusion, open pollination and supplemental hand-pollination treatments were applied to 27 plant species in savannah and grassland habitats. Flowers were counted in each clusters based upon their species. Pollinators were sampled by using pan traps. Information-theory-based multi-model averaging and generalized linear mixed effects models were used to identify and analyze the effects of flower density, pollinator abundance, pollination treatments and habitat types on seed production. Regression models were used to determine relationships of altitude with bee abundance, and with proportion of cross-pollinated plants.
4. My results show that mean seed numbers of native plants were significantly lower in pollinator-exclusion treatments than in open-pollination treatments, indicating their reliance on pollinators for reproductive success. In contrast, seed numbers of invasive plants were similar in pollinator-exclusion and open-pollination treatments, demonstrating an ability of reproduction without pollinators. Despite of higher levels of self-pollination in invasive plants, supplemental hand-pollination treatments revealed pollen limitation in grassland and marginally in savannah habitats. There were no significant difference in seed numbers between supplemental hand pollination and open pollination treatments of native plant communities in savannah and grassland, which indicates no pollination limitation in the studied ecological system for native communities. Besides, grassland plants produced comparatively more seeds than savannah plants, however seeds in grasslands were lighter than those of the savannah which may be due to nutrient limitation in grassland.
5. I found 12 cross-pollinated and 15 self-pollinated plants along altitudinal gradient after comparing seeds from pollinator-excluded and open-pollinated experiments. I also found that proportions of cross-pollinated plants and bee abundance simultaneously decreased with increasing altitude. All cross-pollinated plants were native and grew in savannah habitats, with an exception of one species.
6. Neither effects of focal flower density nor a significant interaction between focal flower densities and bee abundance for self-pollinated plants were observed. However, there were effects of focal flower densities and interactions of flower density with bee abundance for cross-pollinated plants. Non-focal flower density has no significant effects on seed production of cross-pollinated and self-pollinated plants.
7. The results show that native plants depend more on cross-pollination than invasive plants, despite of most native plants in managed habitat (grassland) rely on self-pollination for reproduction. The tendency of having more cross-pollinated plants in natural savannah which are in low altitude coincides with other finding that the cross-pollinated plants and bee abundance simultaneously decrease with increasing altitude. Therefore, our findings support the hypotheses that self-fertilization of flowering plants increases with increasing altitude, and pollinator limitation is most pronounced in managed or disturbed habitats. Despite of reduction of pollinators in grassland, only invasive plants experience pollen limitation, which may be due to poor integration with available pollinator networks.
8. I also found bee abundance and flower density are not the main pollination factors required by self-pollinated plants during reproduction. However, focal flower density, which influences pollinator diversity, is more applicable to cross-pollinated plants. Climate change and anthropogenic activities in natural habitats are factors that influence pollinator abundance and functioning, which lead to a shift of mating systems in plant communities so as to assure their reproduction.
Toll-like receptors (TLR) are pattern recognition receptors (PRR) by which macrophages (MØ) sense pathogen-associated molecular patterns (PAMPs). The recognition of lipopolysaccharide (LPS), the PAMP of gram negative bacteria, by TLR4 triggers signaling cascades and leads to the pro-inflammatory activation of the cells. A recent quantitative and kinetic analysis of the phosphoproteome of LPS-activated primary macrophages highlighted the cytoskeleton as a cell compartment with an enriched protein phosphorylation. In total 44 cytoskeleton-associated proteins were regulated by this post-translational modification and thus might be involved in the control and regulation of key macrophage functions like spreading, motility and phagocytosis.
To investigate the control of cytoskeleton-associated cell functions by TLR4 activation, we first developed a method to quantitatively measure the spreading response of bone marrow MØ after stimulation with LPS. Fluorescence microscopy was used for cell imaging and visualisation of the MØ contact area. In collaboration with the Fraunhofer Institute Erlangen, we developed and validated a software tool for the semi-automated segmentation and quantitation of MØ fluorescence microscopy data, which allowed fast, robust and objective image analysis. Using this method, we observed that LPS caused time-dependent spreading, which was detectable after 1-2 h and maximal after 24 h. Next, the impact of genetic or pharmacological inhibition of known TLR signaling components was investigated. Deficiency in the adapter protein MYD88 strongly reduced spreading activity at the late time points, but had no impact early after LPS-stimulation. A similar effect was observed upon pharmacological inhibition of ERK1/2 signaling, indicating that ERK1/2 mediates MYD88-dependent MØ spreading. In contrast, MØ lacking the MAPK p38 were impaired in the initial spreading response but responded normally 8-24 h after stimulation. The genetic deletion of the MAPK phosphatases DUSP1 and DUSP16 resulted in impaired late spreading, corroborating the essential role for functional MAPK signaling in TLR4-driven MØ spreading.
To identify the contribution of other cytoskeletal phosphoproteins to MØ spreading, siRNA knockdown of selected candidate genes in primary murine MØ was employed and combined with automated quantitative image analysis. These experiments revealed a functional role for the Myosins MYO1e and MYO1f in MØ spreading. These motor proteins are strongly phosphorylated in LPS-activated MØ. Because of their ability to simultaneously bind to actin filaments and cell membrane or other proteins, we investigated their role in phagocytosis, cytokine production and antigen presentation. Phagocytosis and killing of bacteria were not affected in Myo1e-/- macrophages. However, MYO1e plays a role in chemokine secretion and antigen presentation processes. MCP1 (CCL2) release was selectively increased in Myo1e-deficient MØ and dendritic cells (DC), while cytokine secretion was unaffected. Furthermore, macrophages and DCs lacking MYO1e showed lower levels of MHC-II on the cell surface. However, mRNA levels of CCL2 and of MHC-II were unaltered. These data suggest a role for MYO1e in the transport of selected chemokines and of MHC-II molecules to the cell surface. MHC-II-restricted antigen presentation assays revealed an impaired capacity of macrophages and DC lacking MYO1e to stimulate antigen-specific T cells, suggesting that the reduced MHC-II expression is functionally relevant.
Taken together, in this study first a quantitative image analysis method was developed which allows the unbiased, robust and efficient investigation of the macrophage spreading response. Combination of this method with siRNA knockdown of selected cytoskeleton-associated phosphoproteins led to the identification of MYO1e and MYO1f as regulators of macrophage spreading. Furthermore, we identified MYO1e in MØ and DC to be essential for the intracellular transport of CCL2 and MHC-II to the cell surface and for optimal stimulation of antigen-specific CD4 T cells.
Assistierte Reproduktionstechniken (ARTs) zur Behandlung von Infertilität werden mit einer erhöhten Häufigkeit von epigenetischen Aberrationen während der Gametogenese und der frühen Embryonalentwicklung in Verbindung gebracht, speziell durch eine Beeinträchtigung von geprägten Genen. Die in vitro-Maturation (IVM) von Eizellen ist eine ART, die bereits routinemäßig zur Reproduktion von ökonomisch wertvollen Zuchttieren wie dem Hausrind (Bos taurus) eingesetzt wird. IVM-Oozyten weisen jedoch eine verringerte Entwicklungs-kompetenz zum Blastozystenstadium dar, welche möglicherweise auf eine beeinträchtigte epigenetische Regulation zurückzuführen ist.
Von allen bekannten epigenetischen Mechanismen ist die DNA-Methylierung die meist untersuchte DNA-Modifikation. In dieser Arbeit wurden zur Klärung der Frage nach den Auswirkungen der IVM auf die DNA-Methylierung geprägter als auch nicht geprägter Gene Oozyten des Hausrinds analysiert. Diese Tierart weist eine ähnliche Präimplantations-entwicklung und Tragezeit wie der Mensch auf und wird daher zunehmend als Modell zum Studium der humanen Keimzell- und Embryonalentwicklung herangezogen. Im Gegensatz zu Mensch und Maus gibt es bislang nur wenig Information über bovine geprägte Gene. Das erste Ziel der hier dargestellten Forschungsarbeiten war daher die Identifizierung und Charakterisierung der bovinen differenziell methylierten Regionen (DMRs) der drei geprägten Genorte von IGF2/H19, SNRPN und PEG3, welche mit Imprintingdefekten des Menschen und/oder im Mausmodell assoziiert werden. Die hier erstmalig erfolgte Beschreibung von mehreren intergenischen DMRs mittels Bisulfitsequenzierung und Pyrosequenzierung belegt die Existenz und evolutionäre Konservierung der IGF2/H19-Imprintingkontrollregion (ICR) beim Rind. Der geprägte Zustand der IGF2/H19-ICR sowie der bovinen Gene SNRPN und PEG3 wurde durch den Nachweis differenzieller Methylierung in plazentalen und somatischen Geweben sowie in Spermien und parthenogenetischen Embryonen bestätigt. Die beobachteten Methylierungsprofile waren typisch für genomische Prägung.
Die direkte Bisulfitsequenzierung nach vorangegangener Limiting Dilution (LD) erlaubt die Analyse von Methylierungsmustern einzelner Allele (DNA-Moleküle) von einigen wenigen oder auch nur einer einzigen Zelle (El Hajj et al., 2011). In einem ersten LD-Versuch an bovinen Oozyten wurden die drei vorab charakterisierten und geprägten Gene hinsichtlich möglicher epigenetischer Veränderungen untersucht, welche durch verschiedene IVM-Bedingungen und -Medien (TCM und mSOF) hervorgerufen werden könnten. Die Gesamtrate von Methylierungsfehlern einzelner CpG-Stellen sowie die von ganzen Allelen (Imprintingfehlern) unterschied sich nicht wesentlich zwischen den beiden IVM-Gruppen und der in vivo-Gruppe. Dieses Ergebnis weist darauf hin, dass die gängigen IVM-Protokolle keinen oder nur einen geringfügigen Einfluss auf diese entscheidenden epigenetischen Markierungen haben.
IVM-Oozyten präpuberaler Kälber weisen eine herabgesetzte Entwicklungskompetenz im Vergleich zu IVM-Oozyten aus adulten Tieren auf. Aus diesem Grund wurde in einem zweiten LD-Versuchsansatz die Promotormethylierung von drei entwicklungsrelevanten, nicht geprägten Genen (SLC2A1, PRDX1, ZAR1) nach ovarieller Stimulation mit FSH und/oder IGF1 untersucht. Sowohl ungereifte als auch in vitro-gereifte Oozyten präpuberaler und adulter Kühe zeigten eine deutliche, unbeeinträchtige Hypomethylierung der drei Genpromotoren ohne jegliche Unterschiede zwischen den verschiedenen Alterstypen der Spendertiere oder deren Behandlung. Weder das Alter, die hormonelle Stimulation noch die IVM scheinen somit einen Einfluss auf den Methylierungsstatus dieser drei Gene zu haben.
Zusammenfassend spiegelte sich die reduzierte Entwicklungsfähigkeit von IVM-Eizellen aus adulten und präpuberalen Kühen nicht in abnormalen Methylierungsmustern der untersuchten geprägten und ungeprägten Gene wider. Dies lässt auf eine generelle Stabilität der etablierten DNA-Methylierungsprofile in Oozyten schließen. Aus diesem Grund müssen andere epigenetische Mechanismen als die DNA-Methylierung wie beispielsweise ncRNAs oder Histonmodifikationen zur Reduktion der Entwicklungskompetenz von präpuberalen und IVM-Oozyten beitragen. Diese Veränderungen behindern mutmaßlich die zytoplasmatische Reifung der Eizelle, welche wiederum zu einer späteren Beeinträchtigung der Entwicklung der Zygote und des Embryos führt.
The Notch signaling pathway is crucial for mammalian heart development. It controls cell-fate decisions, coordinates patterning processes and regulates proliferation and differentiation. Critical Notch effectors are Hey bHLH transcription factors (TF) that are expressed in atrial (Hey1) and ventricular (Hey2) cardiomyocytes (CM) and in the developing endocardium (Hey1/2/L). The importance of Hey proteins for cardiac development is demonstrated by knockout (KO) mice, which suffer from lethal cardiac defects, such as ventricular septum defects (VSD), valve defects and cardiomyopathy. Despite this clear functional relevance, little is known about Hey downstream targets in the heart and the molecular mechanism by which they are regulated.
Here, I use a cell culture system with inducible Hey1, Hey2 or HeyL expression to study Hey target gene regulation in HEK293 cells, in murine embryonic stem cells (ESC) and in ESC derived CM. In HEK293 cells, I could show that genome wide binding sites largely overlap between all three Hey proteins, but HeyL has many additional binding sites that are not bound by Hey1 or Hey2. Shared binding sites are located close to transcription start sites (TSS) where Hey proteins preferentially bind to canonical E boxes, although more loosely defined modes of binding exist. Additional sites only bound by HeyL are more scattered across the genome. The ability of HeyL to bind these sites depends on the C-terminal part of the protein. Although there are genes which are differently regulated by HeyL, it is unclear whether this regulation results from binding of additional sites by HeyL.
Additionally, Hey target gene regulation was studied in ESC and differentiated CM, which are more relevant for the observed cardiac phenotypes. ESC derived CM contract in culture and are positive for typical cardiac markers by qRT PCR and staining. According to these markers differentiation is unaffected by prolonged Hey1 or Hey2 overexpression. Regulated genes are largely redundant between Hey1 and Hey2. These are mainly other TF involved in e.g. developmental processes, apoptosis, cell migration and cell cycle. Many target genes are cell type specifically regulated causing a shift in Hey repression of genes involved in cell migration in ESC to repression of genes involved in cell cycle in CM.
The number of Hey binding sites is reduced in CM and HEK293 cells compared to ESC, most likely due to more regions of dense chromatin in differentiated cells. Binding sites are enriched at the proximal promoters of down-regulated genes, compared to up-or non-regulated genes. This indicates that up-regulation primarily results from indirect effects, while down-regulation is the direct results of Hey binding to target promoters. The extent of repression generally correlates with the amount of Hey binding and subsequent recruitment of histone deacetylases (Hdac) to target promoters resulting in histone H3 deacetylation.
However, in CM the repressive effect of Hey binding on a subset of genes can be annulled, likely due to binding of cardiac specific activators like Srf, Nkx2-5 and Gata4. These factors seem not to interfere with Hey binding in CM, but they recruit histone acetylases such as p300 that may counteract Hey mediated histone H3 deacetylation. Such a scenario explains differential regulation of Hey target genes between ESC and CM resulting in gene and cell-type specific regulation.
Das atriale natriuretische Peptid (ANP) wird infolge einer Zunahme des atrialen Drucks aus den Myozyten des Atriums sezerniert. Es spielt lokal eine bedeutende, protektive Rolle und wirkt der Entstehung von Herzhypertrophie und Fibrose entgegen. Darüber hinaus kommt ANP vor allem eine wichtige Rolle als endokrines Hormon zu, das den arteriellen Blutdruck und das Blutvolumen regelt. Diese physiologischen Effekte vermittelt das Herzhormon durch seinen Rezeptor, das Transmembranprotein Guanylatzyklase A (GC-A). Durch Bindung von ANP an die extrazelluläre Domäne der GC-A wird intrazellulär, durch die katalytische Domäne des Rezeptors, der sekundäre Botenstoff cGMP gebildet. Patienten mit einer, durch Bluthochdruck verursachten Herzhypertrophie und Herzinsuffizienz weisen erhöhte ANP-Konzentrationen im Plasma auf. Die durch ANP vermittelten, protektiven Effekte sind allerdings vermindert. Zahlreiche Studien haben in vitro gezeigt, dass die chronische Inkubation der GC-A mit ihrem Liganden, sowie die Behandlung von GC-A exprimierenden Zellen mit Hormonen wie Angiotensin II, zur Desensitisierung des Rezeptors führen. Der Verlust der Funktionsfähigkeit geht einher mit der Dephosphorylierung des Rezeptors an spezifischen, intrazellulär lokalisierten Aminosäuren. Durch die Erforschung dieses Mechanismus und Identifizierung möglicher Interaktionspartner in vivo könnte der Grundstein für neue oder verbesserte Therapieformen gelegt werden.
Im ersten Teil der vorliegenden Arbeit wurde eine kürzlich identifizierte Isoform des GC-A-Rezeptors identifiziert, die durch alternatives Spleißen des Exons 4 entsteht und in einer Vielzahl untersuchter Gewebe der Maus vorkommt. Die Deletion umfasst 51 Basenpaare und resultiert in einem um 17 Aminosäuren verkürzten GC-A-Rezeptor (GC-AΔLys314-Gln330). Molekulare Modellierungen der extrazellulären Domänen des wildtypischen GC-A-Rezeptors und der Isoform zeigten, dass sich die Deletion im membrannahen Bereich der extrazellulären Domäne und damit deutlich entfernt von der ANP-Bindungsdomäne befindet. Oberflächenbiotinylierungs- und Zellfraktionierungsversuche zeigten, dass die Isoform des GC-A-Rezeptors an der Oberfläche von Zellmembranen transient transfizierter HEK 293-Zellen präsentiert wird. Jedoch zeigten die ANP-Stimulationsexperimente unter Anwendung von cGMP-Radioimmunassay (cGMP-RIA) und Förster-Resonanzenergietransfer (FRET)-Messungen, dass die Isoform nicht zur ANP-vermittelten intrazellulären cGMP-Bildung stimuliert werden kann. Im Rahmen von ANP-Bindungsstudien mit 125I-ANP wurde gezeigt, dass GC-AΔLys314-Gln330 die Fähigkeit zur Bindung des Liganden ANP verloren hat. Jedoch zeigten die Koimmunpräzipitationsversuche, dass die Isoform des GC-A-Rezeptors Heterodimere mit dem wildtypischen GC-A-Rezeptor bilden und dadurch die ligandeninduzierte Bildung von cGMP reduzieren kann. In vivo konnte gezeigt werden, dass unter Angiotensin II-induzierter Hypertonie die mRNA-Expression für GC-AΔLys314-Gln330 in der Lunge gesteigert, und gleichzeitig die ANP-vermittelte cGMP-Bildung deutlich reduziert ist. Daher kann davon ausgegangen werden, dass das alternative Spleißen ein regulierender Mechanismus ist, der auf den ANP/GC-A-Signalweg Einfluss nimmt. Angiotensin II-induziertes alternatives Spleißen des GC-A-Gens kann daher einen neuen Mechanismus für die Verringerung der Sensitivität des GC-A-Rezeptors gegenüber ANP darstellen.
Im zweiten Teil der vorliegenden Arbeit wurden transgene Tiere mit kardiomyozytenspezifischer Überexpression eines Epitop-getaggten GC-A-Rezeptors generiert. Durch dieses Modell sollte es ermöglicht werden, den Rezeptor aus murinem Gewebe anreichern und aufreinigen zu können um danach Analysen zu posttranslationalen Veränderungen und möglichen Interaktionspartnern durchzuführen. Zunächst wurde in eine FLAG-Epitop-getaggte GC-A zusätzlich ein HA-tag, sowie eine Erkennungssequenz für die Protease des tobacco etch virus (TEV) eingefügt. Die Expression und Funktionsfähigkeit des modifizierten Rezeptors wurde durch ANP-Stimulationsexperimente unter Anwendung von cGMP-RIA und FRET-Messungen verifiziert. Die Funktionsfähigkeit der TEV-Erkennungssequenz wurde durch die Elution mittels TEV-Protease nach Immunpräzipitation (IP) nachgewiesen. In vivo wurde an Mäusen die Expression und Lokalisation der GC-A auf Proteinebene, unter Anwendung von Zellfraktionierungsexperimenten und Immunpräzipitationen, überprüft. Die entstandenen transgenen Tiere zeigten eine deutliche, in den Zellmembranen von Kardiomyozyten lokalisierte, Überexpression des Rezeptors. Dieser konnte über das HA-tag angereichert und aufgereinigt werden. Um die Funktionsfähigkeit des modifizierten Rezeptors in vivo nachzuweisen, wurde in zwei Versuchsreihen kardiale Hypertrophie durch chronische Applikation von Angiotensin II induziert. Es wurde postuliert, dass die Überexpression funktionsfähiger GC-A im Herzen die Tiere vor Herzhypertrophie schützt. Die Ergebnisse der Studien zeigen allerdings, dass die generierten transgene Tiere trotz kardiomyozytenspezifischer Überexpression des Rezeptors nicht den erwarteten Schutz vor Herzhypertrophie aufwiesen, sondern ähnlich wie ihre wildtypischen Geschwistertiere reagieren. Jedoch gelang es mit Hilfe des Überexpressionsmodells zusammen mit anderen Mitarbeitern der AG Kuhn eine zuvor in vitro beschriebene Interaktion des GC-A-Rezeptors mit den Kationenkanälen TRPC3 und TRPC6 in vivo nachzuweisen. Somit besteht die Möglichkeit die Epitope und das murine Überexpressionsmodell auch zukünftig zu nutzen, um Interaktionspartner der GC-A zu identifizieren.
Post-translational histone modifications (PTMs) such as methylation of lysine residues influence chromatin structure and function. PTMs are involved in different cellular processes such as DNA replication, transcription and cell differentiation. Deregulations of PTM patterns are responsible for a variety of human diseases including acute leukemia. DOT1 enzymes are highly conserved histone methyltransferases that are responsible for methylation of lysine 79 on histone H3 (H3K79). Most eukaryotes contain one single DOT1 enzyme, whereas African trypanosomes have two homologues, DOT1A and DOT1B, which methylate H3K76 (H3K76 is homologous to H3K79 in other organisms). DOT1A is essential and mediates mono- and di-methylations, whereas DOT1B additionally catalyzes tri-methylation of H3K76. However, a mechanistic understanding how these different enzymatic activities are achieved is lacking. This thesis exploits the fact that trypanosomes possess two DOT1 enzymes with different catalytic properties to understand the molecular basis for the differential product-specificity of DOT1 enzymes. A trypanosomal nucleosome reconstitution system was established to analyze methyltransferase activity under defined in vitro conditions. Homology modeling allowed the identification of critical residues within and outside the catalytic center that modulate product-specificity. Exchange of these residues transferred the product-specificity from one enzyme to the other and revealed regulatory domains adjacent to the catalytic center. This work provides the first evidence that few specific residues in DOT1 enzymes are crucial to catalyze methyl-state-specific reactions. These results have also consequences for the functional understanding of homologous enzymes in other eukaryotes.