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In this thesis, the development of a phylogenetic DNA microarray, the analysis of several gene expression microarray datasets and new approaches for improved data analysis and interpretation are described. In the first publication, the development and analysis of a phylogenetic microarray is presented. I could show that species detection with phylogenetic DNA microarrays can be significantly improved when the microarray data is analyzed with a linear regression modeling approach. Standard methods have so far relied on pure signal intensities of the array spots and a simple cutoff criterion was applied to call a species present or absent. This procedure is not applicable to very closely related species with high sequence similarity because cross-hybridization of non-target DNA renders species detection impossible based on signal intensities alone. By modeling hybridization and cross-hybridization with linear regression, as I have presented in this thesis, even species with a sequence similarity of 97% in the marker gene can be detected and distinguished from related species. Another advantage of the modeling approach over existing methods is that the model also performs well on mixtures of different species. In principle, also quantitative predictions can be made. To make better use of the large amounts of microarray data stored in public databases, meta-analysis approaches need to be developed. In the second publication, an explorative meta-analysis exemplified on Arabidopsis thaliana gene expression datasets is presented. Integrating datasets studying effects such as the influence of plant hormones, pathogens and different mutations on gene expression levels, clusters of similarly treated datasets could be found. From the clusters of pathogen-treated and indole-3-acetic acid (IAA) treated datasets, representative genes were selected which pointed to functions which had been associated with pathogen attack or IAA effects previously. Additionally, hypotheses about the functions of so far uncharacterized genes could be set up. Thus, this kind of meta-analysis could be used to propose gene functions and their regulation under different conditions. In this work, also primary data analysis of Arabidopsis thaliana datasets is presented. In the third publication, an experiment which was conducted to find out if microwave irradiation has an effect on the gene expression of a plant cell culture is described. During the first steps, the data analysis was carried out blinded and exploratory analysis methods were applied to find out if the irradiation had an effect on gene expression of plant cells. Small but statistically significant changes in a few genes were found and could be experimentally confirmed. From the functions of the regulated genes and a meta-analysis with publicly available microarray data, it could be suspected that the plant cell culture somehow perceived the irradiation as energy, similar to perceiving light rays. The fourth publication describes the functional analysis of another Arabidopsis thaliana gene expression dataset. The gene expression data of the plant tumor dataset pointed to a switch from a mainly aerobic, auxotrophic to an anaerobic and heterotrophic metabolism in the plant tumor. Genes involved in photosynthesis were found to be repressed in tumors; genes of amino acid and lipid metabolism, cell wall and solute transporters were regulated in a way that sustains tumor growth and development. Furthermore, in the fifth publication, GEPAT (Genome Expression Pathway Analysis Tool), a tool for the analysis and integration of microarray data with other data types, is described. It consists of a web application and database which allows comfortable data upload and data analysis. In later chapters of this thesis (publication 6 and publication 7), GEPAT is used to analyze human microarray datasets and to integrate results from gene expression analysis with other datatypes. Gene expression and comparative genomic hybridization data from 71 Mantle Cell Lymphoma (MCL) patients was analyzed and allowed proposing a seven gene predictor which facilitates survival predictions for patients compared to existing predictors. In this study, it was shown that CGH data can be used for survival predictions. For the dataset of Diffuse Large B-cell lymphoma (DLBCL) patients, an improved survival predictor could be found based on the gene expression data. From the genes differentially expressed between long and short surviving MCL patients as well as for regulated genes of DLBCL patients, interaction networks could be set up. They point to differences in regulation for cell cycle and proliferation genes between patients with good and bad prognosis.
The chick midbrain is subdivided into functionally distinct ventral and dorsal domains, tegmentum and optic tectum. In the mature tectum, neurons are organized in layers, while they form discrete nuclei in the tegmentum. An interesting characteristic of the embryonic brain is the development of a large optic tectum, of which the growth becomes obvious at embryonic day 3 (E3). Dorsoventral (DV) specification of the early midbrain should thus play a crucial role for the organization of the neuronal circuitry in optic tectum and tegmentum. In the first part of my thesis, I investigated regional commitment and establishment of cellular differences along the midbrain DV axis. I examined the commitment of gene expression patterns in isolated ventral and dorsal tissue in vivo and in vitro, and studied their cell mixing properties. Explant cultures, and grafting of dorsal midbrain into a ventral environment or vice versa, revealed a gradual increase in the autonomy of region-specific gene regulation between, which was accompanied by a gradual increase in differential adhesive properties from E2 to E3, once the DV axis polarity was fixed. These events happened at a time-point when the majority of midbrain cells are not yet differentiated. Long-term transplantation (6 - 9 days) using quail cells from ventral midbrain as grafts showed the same result. Hence, the results suggest that progressive specification of the midbrain DV axis is accompanied by progressively reduced cell mixing between dorsal and ventral precursors, leading to a partial regionalization of midbrain tissue into autonomous units of precursor cell populations. In the second part I investigated the genes that might be involved in regulating the growth of the tectum. In particular, I focused on the role of Pax7 transcription factor, a paired domain protein. The results suggested that Pax7 was involved in regulating the medial-lateral extension of the tectum. Over expression of Pax7 in dorsal midbrain led to an enlarged tectum accompanied by a raise in cell division, while Pax7 knockdown by shrank caused a reduction in tectum. The overall pattern of neuronal differentiation was not disturbed by an up or down regulation of Pax7. Pax7 also positively regulated Pax3, another pair-ruled gene expressed dorsally. These results suggest that Pax7 very likely together with Pax3 could facilitate or maintain neural cell proliferation in the midbrain at early stages and that a regulation of the size in that region does not influence the neuronal patterning of the developmental field. I further checked the expression and function of a GFPase Rab 23, that was suggested to be involved in the DV patterning in mouse neural tube as a negative regulator of Shh signaling. Overexpression of Rab23 indicated that it facilitated the expression of Pax7 and Pax3 in the neural tube and suppressed ventral genes like Nkx6.1 cell autonomously, however, it did not disturb neuronal patterning. Interestingly, a thorough expression study of Rab 23 during chick early development revealed that Rab23 is already expressed very early and asymmetrically during gastrulation, suggesting a possible role of Rab23 on the left-right determination of Hensen’s node. In combination with the result that Rab23 is expressed in the notochord early in development, I assume that both Rab23 and Shh exist in all neural progenitor cells initially, and when their expression patterns separate gradually the neural cells adopt a ventral or dorsal fate according to their location along the dorsoventral axis. The avian embryo is a classic system used widely to investigate questions of vertebrate development. The easy and cheap accessibility of the embryo for in ovo or ex ovo experiments all around the year make it an ideal animal model to work with. The only recently developed method of over expressing genes in specific cells or regions in the chick embryo by electroporation enabled me to study different ways of gene suppression using this way of gene transfection. Thus, I compared the effect of long-hairpin and short hairpin dsRNA in different vectors and antisense morpholino oligonucleotides. The results revealed that all hairpin dsRNA constructs did reduce gene and protein expression often accompanied by morphological changes. Most efficiently were shRNAi constructs cloned into a siRNA-specific vector – pSilencer 1.0-U6. Gene silencing was already well observed 36 hours after transfection. In comparison antisense morpholino oligonucleotides did not show such big gene reduction as the shRNA in pSilencer. Taken together, this methodical research proposes that the shRNA in the pSilencer vector was a good and effective tool to reduce gene and protein expression locally.
HMG-Proteine sind Architekturelemente des Chromatins und regulieren durch ihre Bindung an das Chromatin auf verschiedene Weise DNA-abhängige Prozesse wie Replikation, Transkription und DNA-Reparatur. Um zu verstehen, wie HMG-Proteine ihre vielfältigen Funktionen erfüllen können, wurde mit Hilfe von EGFP- und DsRed2-Fusionsproteinen ihre Funktion in vivo untersucht. Im Wesentlichen wurde dabei mit Hilfe von Bleichtechniken ihr dynamisches Verhalten charakterisiert. Daneben wurde für die HMGN-Proteine ihr bislang unbekanntes Expressionsverhalten in Tumorzellen bestimmt. So konnte für die HMGN-Proteine gezeigt werden, dass bestimmte Tumorzelllinien (HT-29, FTC-133, MCF-7, RPMI 8226, 697, Ishikawa, LNCap) eine relativ erhöhte Expression von HMGN2 aufweisen, die mit der Tumordifferenzierung korreliert. Eine relativ verringerte Expression von HMGN1 steht dagegen in Mammakarzinomen und Non-Hodgkin-Lymphomen in direktem Zusammenhang mit der Aggressivität der Tumore. Somit kann die HMGN-Expression bei diesen Tumoren als diagnostischer Marker verwendet werden. FRAP-Analysen mit EGFP-Fusionsproteinen führten zu der Erkenntnis, dass HMGN1, HMGN2, HMGA1a, HMGA1b und HMGB1 sich sehr schnell durch den Zellkern bewegen und nur transient an das Chromatin gebunden sind. Es konnte gezeigt werden, dass die spezifischen DNA/Chromatin-Bindungsmotive im Wesentlichen entscheiden, wo die Bindung der HMG-Proteine in vivo erfolgt, ihre Verweildauer im Euchromatin, Heterochromatin und zellzyklusabhängig dann aber durch Modifikationen (Phosphorylierungen, Acetylierungen) reguliert wird. Dies wurde beispielhaft durch punktmutierte und deletierte Fusionsproteine, sowie durch Inkubation der Zellen mit spezifischen Drogen für die HMGA1a-Proteine gezeigt. FRAP-Analysen haben außerdem gezeigt, dass die Spleißvarianten hHMGA1a und hHMGA1b unterschiedliche kinetische Parameter besitzen. Dies zeigt, dass beiden Varianten unterschiedliche Funktionen zugesprochen werden können. Die gefundenen spezifischen, transienten Verweildauern der einzelnen HMG-Proteine führen zu einem Modell eines dynamischen Chromatin-Netzwerkes, wobei alle HMG-Proteine in Wechselwirkungen innerhalb eines dynamischen Chromatinprotein-Cocktails DNA-abhängige Prozesse regulieren können. Die jeweiligen, wie hier gezeigt, durch Modifikationen regulierten Verweildauern der HMG-Proteine bestimmen darüber, welche anderen Chromatinproteine wie lange am Chromatin verbleiben und bestimmte Funktionen, wie beispielsweise die Modifikation der Core-Histone, übernehmen können. Die dynamischen Parameter einzelner HMG-Proteine erklären so, wie diese Proteine ihre vielfältigen Funktionen als Architekturelemente und bei der Regulation DNA-abhängiger Prozesse erfüllen können. Einige Vertreter, wie die HMGB1-Proteine, bewegen sich so schnell durch den Zellkern, dass ihre kinetischen Parameter durch das beschränkte zeitliche Auflösungsvermögen konfokaler Mikroskope der älteren Generation nicht erfassbar sind. Die Bestimmung von Dosis-Wirkungs-Beziehungen von Drogen, welche die kinetischen Parameter von HMGB1-Proteinen beeinflussen können, ist inzwischen mit Mikroskopen der neuen Generation möglich. Im Verlaufe der Arbeit zeigte sich, dass andere verwendete Fluorophore wie DsRed2 die kinetischen Eigenschaften von HMG-Fusionsproteinen beeinflussen können. Durch eine erhöhte Verweildauer können auch sehr transiente Interaktionen sichtbar gemacht werden. Wie gezeigt wurde, kann eine erhöhte Verweildauer aber auch zur Verdrängung anderer Proteine führen, die die gleichen Bindungsstellen benutzen und so eine Modulation des Chromatins bewirken. Die Nutzung von DsRed-Fluorophoren ermöglicht interessante neue Erkenntnisse. Diese müssen aber stets vor dem Hintergrund eines veränderten dynamischen Verhaltens der Fusionsproteine interpretiert werden. Zusammengenommen liefern die hier vorgestellten Ergebnisse zur Dynamik der HMG-Proteine grundlegende Informationen, die zur Klärung ihrer Funktion bei Chromatinmodulationen, etwa bei Differenzierungsprozessen oder der Entstehung von Tumorzellen entscheidend beitragen. Die Erkenntnis, dass diese Proteine lediglich transiente Interaktionen mit ihren Bindungspartnern eingehen können, sind im Hinblick auf die Behandlung von Tumoren, bei denen HMG-Proteine im Vergleich zu Normalgewebe häufig überexprimiert sind, von großer Bedeutung.
Im Genom von Listeria monocytogenes konnten zwei Gene identifiziert werden, die mutmaßlich für niedermolekulare Protein-Tyrosin Phosphatasen (LMW-PTPs) kodieren, Lmo0938/Ptp-1 und Lmo2540/Ptp-2, beide ähneln LMW-PTPs von B. subtilis. Einzel- und Doppeldeletionen der ptp-Gene beeinflussten die Transkription zahlreicher Gene, wie anhand von Gesamtgenom-DNA-Microarray-Analysen und quantitativer RT-PCR gezeigt werden konnten. Insbesondere waren die Gene für i) die Internaline A und B, ii) den Osmoprotektanten-Transporter OpuC, iii) MCP, notwendig zur Flagellen-Bewegung und iv) eine Anzahl von den Proteinen, die in die Nährstoffaufnahme sowie den intrazellulären Metabolismus involviert sind, in vitro herunterreguliert. Die PrfA-regulierten Virulenzgene wurden in den Mutanten verstärkt exprimiert. Im Wesentlichen konnte das gleiche Transkriptionsmuster in infizierten Caco-2-Enterocyten beobachtet werden. Die verringerte Invasivität (abhängig von InlA) und die Unbeweglichkeit der Mutanten passt zu den Transkriptionsergebnissen. Jedoch wurden weder die intrazelluläre Replikation innerhalb eukaryontischer Wirtszellen noch die Resistenz gegen Stressbedingungen durch die Deletion beeinträchtigt. Die Proteome des Wildtyps und der ptp-Mutanten wurden durch 2-dimensionale Gelelektrophorese verglichen und es zeigte sich, dass die Transkriptionsergebnisse nicht vollständig im Proteom reflektiert wurden. Die Ergebnisse zeigen, dass die Ptps in die Regulationsnetzwerke des alternativen Stress-Sigmafaktor SigB und von PrfA eingreifen. Der ähnliche Effekt beider Ptps auf die Transkription oder auf den Proteinlevel deutet eine Interaktion oder Kooperation der beiden Enzyme an.
Regulating and reverting the adipo-osteogenic lineage decision of trabecular human bone marrow stromal cells (hBMSCs) represents a promising approach for osteoporosis therapy and prevention. Fibroblast growth factor 1 (FGF1) and its subfamily member FGF2 were scored as lead candidates to exercise control over lineage switching processes (conversion) in favor of osteogenesis previously. However, their impact on differentiation events is controversially discussed in literature. Hence, the present study aimed to investigate the effects of these FGFs on the adipogenic and osteogenic differentiation and conversion of primary hBMSCs. Moreover, involved downstream signaling mechanisms should be elucidated and, finally, the results should be evaluated with regard to the possible therapeutic approach.
This study clearly revealed that culture in the presence of FGF1 strongly prevented the adipogenic differentiation of hBMSCs as well as the adipogenic conversion of pre-differentiated osteoblastic cells. Lipid droplet formation was completely inhibited by a concentration of 25 ng/µL. Meanwhile, the expression of genetic markers for adipogenic initiation, peroxisome proliferator-activated receptor gamma 2 (PPARg2) and CCAAT/enhancer binding protein alpha (C/EBPa), as well as subsequent adipocyte maturation, fatty acid binding protein 4 (FABP4) and lipoprotein lipase (LPL), were significantly downregulated. Yet, the genetic markers of osteogenic commitment and differentiation were not upregulated during adipogenic differentiation and conversion under FGF supplementation, not supporting an event of osteogenic lineage switching.
Moreover, when examining the effects on the osteogenic differentiation of hBMSCs and the osteogenic conversion of pre-differentiated adipocytic cells, culture in the presence of FGF1 markedly decreased extracellular matrix (ECM) mineralization. Additionally, the gene expression of the osteogenic marker alkaline phosphatase (ALP) was significantly reduced and ALP enzyme activity was decreased. Furthermore, genetic markers of osteogenic commitment, like the master regulator runt-related transcription factor 2 (RUNX2) and bone morphogenetic protein 4 (BMP4), as well as markers of osteogenic differentiation and ECM formation, like collagen 1 A1 (COL1A1) and integrin-binding sialoprotein (IBSP), were downregulated. In contrast, genes known to inhibit ECM mineralization, like ANKH inorganic pyrophosphate transport regulator (ANKH) and osteopontin (OPN), were upregulated. ANKH inhibition revealed that its transcriptional elevation was not crucial for the reduced matrix mineralization, perhaps due to decreased expression of ectonucleotide pyrophosphatase/phosphodiesterase 1 (ENPP1) that likely annulled ANKH upregulation. Like FGF1, also the culture in the presence of FGF2 displayed a marked anti-adipogenic and anti-osteogenic effect.
The FGF receptor 1 (FGFR1) was found to be crucial for mediating the described FGF effects in adipogenic and osteogenic differentiation and conversion. Yet, adipogenic conversion displayed a lower involvement of the FGFR1. For adipogenic differentiation and osteogenic differentiation/conversion, downstream signal transduction involved the extracellular signal-regulated kinases 1 and 2 (ERK1/2) and the mitogen-activated protein kinase (MAPK)/ERK kinases 1 and 2 (MEK1/2), probably via the phosphorylation of FGFR docking protein FGFR substrate 2a (FRS2a) and its effector Ras/MAPK. The c-Jun N-terminal kinase (JNK), p38-MAPK, and protein kinase C (PKC) were not crucial for the signal transduction, yet were in part responsible for the rate of adipogenic and/or osteogenic differentiation itself, in line with current literature.
Taken together, to the best of our knowledge, our study was the first to describe the strong impact of FGF1 and FGF2 on both the adipogenic and osteogenic differentiation and conversion processes of primary hBMSCs in parallel. It clearly revealed that although both FGFs were not able to promote the differentiation and lineage switching towards the osteogenic fate, they strongly prevented adipogenic differentiation and lineage switching, which seem to be elevated during osteoporosis. Our findings indicate that FGF1 and FGF2 entrapped hBMSCs in a pre-committed state. In conclusion, these agents could be applied to potently prevent unwanted adipogenesis in vitro. Moreover, our results might aid in unraveling a pharmacological control point to eliminate the increased adipogenic differentiation and conversion as potential cause of adipose tissue accumulation and decreased osteoblastogenesis in bone marrow during aging and especially in osteoporosis.
WISP3 is a member of the CCN family which comprises six members found in the 1990’s: Cysteine-rich,angiogenic inducer 61 (CYR61, CCN1), Connective tissue growth factor (CTGF, CCN2), Nephroblastoma overexpressed (NOV, CNN3) and the Wnt1 inducible signalling pathway protein 1-3 (WISP1-3, CCN4-6).They are involved in the adhesion, migration, mitogenesis, chemotaxis, proliferation, cell survival, angiogenesis, tumorigenesis, and wound healing by the interaction with different integrins and heparan sulfate proteoglycans. Until now the only member correlated to the musculoskeletal autosomal disease Progressive Pseudorheumatoid Dysplasia (PPD) is WISP3. PPD is characterised by normal embryonic development followed by cartilage degradation over time starting around the age of three to eight years. Animal studies in mice exhibited no differences between knock out or overexpression compared to wild type litter mates, thus were not able to reproduce the symptoms observed in PPD patients. Studies in vitro and in vivo revealed a role for WISP3 in antagonising BMP, IGF and Wnt signalling pathways. Since most of the knowledge of WISP3 was gained in epithelial cells, cancer cells or chondrocyte cell lines, we investigated the roll of WISP3 in primary human mesenchymal stem cells (hMSCs) as well as primary chondrocytes.
WISP3 knock down was efficiently established with three short hairpin RNAs in both cell types, displaying a change of morphology followed by a reduction in cell number. Simultaneous treatment with recombinant WISP3 was not enough to rescue the observed phenotype nor increase the endogenous expression of WISP3. We concluded that WISP3 acts as an essential survival factor, where the loss resulted in the passing of cell cycle control points followed by apoptosis. Nevertheless, Annexin V-Cy3 staining and detection of active caspases by Western blot and immunofluorescence staining detected no clear evidence for apoptosis. Furthermore, the gene expression of the death receptors TRAILR1 and TRAILR2,important for the extrinsic activation of apoptosis, remained unchanged during WISP3 mRNA reduction. Autophagy as cause of cell death was also excluded, given that the autophagy marker LC3 A/B demonstrated to be uncleaved in WISP3-deficient hMSCs. To reveal correlated signalling pathways to WISP3 a whole genome expression analyses of WISP3-deficient hMSCs compared to a control (scramble) was performed. Microarray analyses exhibited differentially regulated genes involved in cell cycle control, adhesion, cytoskeleton and cell death. Cell death observed by WISP3 knock down in hMSCs and chondrocytes might be explained by the induction of necroptosis through the BMP/TAK1/RIPK1 signalling axis. Loss of WISP3 allows BMP to bind its receptor activating the Smad 2/3/4 complex which in turn can activate TAK1 as previously demonstrated in epithelial cells. TAK1 is able to block
caspase-dependent apoptosis thereby triggering the assembly of the necrosome resulting in cell death by necroptosis.
Together with its role in cell cycle control and extracellular matrix adhesion, as demonstrated in human mammary epithelial cells, the data supports the role of WISP3 as tumor suppressor and survival factor in cells of the musculoskeletal system as well as epithelial cells.
Untersuchungen der Transkriptionsebene individueller präimplantatorischer Embryonalstadien können wertvolle Informationen über den physiologischen Status der betrachteten Embryonen, die z.B. zur Verbesserung der Systeme zur In vitro-Produktion von Embryonen genutzt werden können, liefern. Bisher fehlte es jedoch an einer geeigneten Technologie, um eine große Anzahl von Transkripten in einzelnen Embryonen zu erfassen. Zielsetzung der vorliegenden Arbeit war es, ein Verfahren zur globalen Amplifikation embryonaler mRNA-Präparationen zu entwickeln, das die Analyse der Transkriptionsebene einzelner präimplantatorischer Embryonalstadien über die cDNA-Array-Technologie ermöglicht. Dazu wurde die Strategie gewählt, zwei bereits etablierte Amplifikationsverfahren, Polymerasekettenreaktion und In vitro-Transkription, zu kombinieren, um so synergistische Effekte beider Verfahren zu nutzen. Die Evaluierung des entwickelten Verfahrens zeigte eine hohe Reproduzierbarkeit der erhaltenen Genexpressionsdaten und belegte, dass die relativen Mengenverhältnisse einzelner mRNA-Spezies zueinander während der globalen mRNA-Amplifikation nur unwesentlich verändert wurden. Die entwickelte Methodik ist somit geeignet, komplexe Genexpressionsprofile einzelner Blastozysten zu erstellen und Unterschiede in der Expressionsstärke einzelner Transkripte zu detektieren. Es konnte weiterhin gezeigt werden, dass es möglich ist, über heterologe Hybridisierung Genexpressionsprofile boviner Blastozysten mit cDNA-Arrays, die murine Probensequenzen enthalten, reproduzierbar darzustellen. Neben der Detektion individueller Unterschiede in den Genexpressionsprofilen diverser muriner Embryonalstadien und boviner Blastozysten lag ein Schwerpunkt dieser Arbeit in der Untersuchung der Auswirkungen verschiedener in vitro-Produktionssysteme auf die embryonale Genexpression. Die erhaltenen cDNA-Array Expressionsdaten muriner Oozyten, Zweizeller und Blastozysten befanden sich dabei in Übereinstimmung mit Daten früherer Publikationen anderer Arbeitsgruppen. Genexpressionsprofile in vitro fertilisierter boviner Blastozysten ließen eine Beurteilung der Auswirkungen unterschiedlicher Proteinsupplemente des Kulturmediums auf die embryonale Genexpression zu. Im Rahmen dieser Arbeit wurden zum ersten Mal Genexpressionsprofile einzelner präimplantatorischer Säugerembryonen über cDNA-Array-Analyse erstellt. Die entwickelte Technologie ermöglicht es -bei Verwendung entsprechender cDNA-Array-Systeme-, eine theoretisch unbegrenzte Zahl von Transkripten in individuellen Säugerembryonen semiquantitativ zu erfassen. Dies ist ein wichtiger Schritt hin zu einem besseren Verständnis komplexer Regulationsabläufe während der frühen Embryonalentwicklung und einer besseren Beurteilung der Lebensfähigkeit und Entwicklungskompetenz in vitro produzierter Embryonen, was für die Verbesserung von In vitro-Produktionssystemen für Embryonen sowohl bei Tieren als auch beim Menschen unerlässlich ist.
Cardiovascular disease is the leading cause of mortality in both men and women in the Western world. Earlier observations have pointed out that pre-menopausal women have a lower risk of developing cardiovascular disease than age-matched men, with an increase in risk after the onset of menopause. This observation has directed the attention to estrogen as a potential protective factor in the heart. So far the focus of research and clinical studies has been the vascular system, leaving the current knowledge on the role of estrogen in the myocardium itself rather scarce. Functional estrogen receptor-alpha as well as -beta have recently been identified in the myocardium, making the myocardium an estrogen target organ. The focus of this thesis was 1) to investigate the role of estrogen and estrogen receptors in modulating myocardial gene expression both in vivo in an animal model for cardiac hypertrophy (spontaneously hypertensive rats; SHR), as well as in vitro in isolated neonatal cardiomyocytes, 2) to investigate the mechanisms of the rapid induction of an estrogen target gene, the early growth response gene-1 (Egr-1) and 3) to initiate the search for novel estrogen target genes in the myocardium. 1) The effects of estrogen on the expression of one of the major myocardial specific contractile proteins, the alpha-myosin heavy chain (alpha-MHC) have been investigated. In ovarectomised animals treated either with 17beta-estradiol alone or in combination with a specific estrogen receptor antagonist, ICI 182780, it was shown that both alpha-MHC mRNA and protein were upregulated by estrogen in an estrogen receptor specific manner. The in vivo results were confirmed in vitro in isolated neonatal cardiomyocytes which showed that estrogen has a direct action on the myocardium potent enough to upregulate the expression of alpha-MHC. Furthermore it was shown that the alpha-MHC promoter is induced by estrogen in an estrogen receptor-dependent manner and first investigations into the mechanisms involved in this upregulation identified Egr-1 as a potential transcription factor which, upon induction by estrogen, drives the expression of the alpha-MHC promoter. 2) Previously it was shown that Egr-1 is rapidly induced by estrogen in an estrogen receptor-dependent manner which was mediated via 5 serum response elements (SREs) in the promoter region and surprisingly not via the estrogen response elements (EREs). In this study it was shown that estrogen-treatment of cardiomyocytes resulted in the recruitment of serum response factor (SRF), or an antigenically related protein, to the SREs in the Egr-1 promoter, which was specifically inhibited by the estrogen receptor antagonist ICI 182780. Transfection experiments showed that estrogen induced a heterologous promoter consisting only of 5 tandem repeats of the c-fos SRE in an ER-dependent manner, which identified SREs as promoter elements able to confer an estrogen response to target genes. 3) Potentially new target genes regulated by estrogen in vivo were analysed using hearts of ovarectomised animals as well as ovarectomised animals treated with estrogen. Analyses of cDNA microarray filters containing 1250 known genes identified 24 genes that were modified by estrogen in vivo. Among these genes, some might have potentially important functions in the heart and further analyses of these genes will create a more global picture of the role and function of estrogen in the myocardium. Taken together, the results showed that estrogen does have a direct action on the myocardium both by regulating the expression of myocardial specific genes in vivo, as well as exerting rapid non-nuclear effects in cardiac myocytes. It was shown that SREs in the promoter region of genes can confer an estrogen response to genes identifying SREs as important elements in regulation of genes by estrogen. Furthermore, 24 potentially new estrogen targets were identified in the myocardium, contributing to the general understanding of estrogen action in the myocardium.
In die Region p13 des menschlichen Chromosoms 11 kartieren mehrere krankheitsrelevante Gene wie das Wilms' Tumor Gen WT1 oder das für die Aniridie verantwortliche Gen PAX6. Beide Gene können bei Patienten mit dem WAGR-Syndrom deletiert sein, was das Auftreten von Wilms' Tumoren oder Aniridie bei diesen Patienten erklärt. Die genetische Ursache für weitere Symptome des WAGR-Syndroms, wie beispielsweise die geistige Retardierung, ist bisher nicht geklärt. Des weiteren wurden Allelverluste auf 11p13 in Verbindung mit verschiedenen Tumoren (Lunge, Blase, Brust, Ovar) beobachtet, ohne daß die ursächlichen Gene hierfür beschrieben werden konnten. Eine Kartierung und anschließende Sequenzierung dieser Region dient als Grundlage für die Identifizierung neuer Gene, die möglicherweise im Zusammenhang mit diesen Krankheiten stehen. Mit dem Ziel der Sequenzierung dieser Region wurde ausgehend von einem YAC-Contig, das 8 Mb des Chromosoms 11p13-14.1 abdeckt, eine Feinkartierung der Region 11p13 durchgeführt. Über ein Screening einer humanen PAC-Bibliothek mit 11p13-spezifischen Proben, wurden PAC-Klone erhalten, die aus dieser Region stammen. Mit einem Teil dieser Klone konnte mittels "chromosome walking" ein 4,5 Mb großes PAC-Contig erstellt werden. Zur Sequenzierung des Chromosomenabschnitts 11p13 am Sanger Centre/UK wurden die PAC-Klone des "minimal tiling path" gewählt. Auf der Grundlage des PAC-Contigs wurden auf experimentellem Weg mit Hilfe des Exontrappings neue Transkripte isoliert. Hierfür wurden sechs PAC-Klone, die etwa 700 kb des Chromosoms 11p13 abdecken, herangezogen. Zusätzlich wurden erste Sequenzabschnitte (insgesamt ca. 640 kb) der PAC-Klone über eine computergestütze Auswertung mit dem Programmpaket NIX/HGMP analysiert. Insgesamt konnten mit Hilfe des Exontrappings und der in silico Analyse fünf neue potentielle Transkripte identifiziert werden. Eine erste Untersuchung dieser Transkripte wurde mit Hilfe von Datenbankvergleichen und Expressionsstudien auf Northern Blots und in situ Hybridisierungen durchgeführt. Aussagen über eine mögliche Funktion konnten bei zwei der identifizierten Transkripte anhand von Datenbankvergleichen getroffen werden. Es handelt sich zum einen um ein Transkript mit Homologien zum Gen cca3 aus der Ratte, für das aufgrund der enthaltenen BTB-Domäne eine regulatorische Funktion auf DNA-Ebene postuliert werden kann. Zum anderen wurde ein Gen mit Ähnlichkeiten zu einem Transkript aus Achlya ambisexualis isoliert. Letzteres besitzt möglicherweise die Funktion eines Steroidrezeptors. Zusätzlich zu den hier beschriebenen Transkripten, können aus dem erstellten PAC-Contig neue Gene auf der Basis von cDNA-Selektion, Exontrapping oder, nach Fertigstellung der gesamten Sequenz, über in silico Analysen identifiziert werden.