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By the latter half of the twentieth century, a documented, substantial quantitative increase had occurred in the total number of Christian political organizations operating in Washington, D.C. with the sole purpose of influencing Congress and the administration through direct lobbying. This study seeks to understand what were the contributing historical factors that influenced the rise of Christian Lobby Organizations (CLOs), resulting in their normalization in American society?
Krebs ist und wird voraussichtlich auch in näherer Zukunft eine der häufigsten Todesursachen weltweit bleiben. Trotz vielversprechenden Fortschritten in Therapeutik und Diagnostik bedarf es noch weiterer Forschung, um die vielfältigen molekularen Mechanismen zu entschlüsseln, welche dem Verlauf von malignen Tumorerkrankungen bestimmen und zu beeinflussen vermögen. Das RNA-Bindeprotein Hu antigen R (HuR) reguliert Genexpression auf posttranskriptioneller Ebene, indem es durch Bindung an Ziel mRNAs Einfluss auf deren Abbau, Lokalisation oder Translationseffizienz nimmt. Darüber hinaus zeigte sich in den letzten Jahren, dass HuR diese Prozesse auch indirekt durch Interaktion mit regulatorischen RNAs beeinflusst. In Krebszellen lässt sich häufig eine erhöhte Aktivität von HuR beobachten, welche in Verbindung mit verschiedenen tumorigenen Prozessen gebracht wird. Unter anderem trägt HuR zur Deregulation des Zellzyklus bei, indem es die Expression der Cycline A2, B1, D1 und E1 erhöht. Weiterhin unterstützt HuR das Tumorwachstum durch Regulation von proangiogenen Faktoren wie VEGF, IL8 und COX2. Da HuR generell eine prominente Rolle bei der Regulation von Immunantworten, sowohl in Immunzellen selbst als auch in solidem Gewebe einnimmt, wurde HuR in der Vergangenheit häufig auch mit der Ausbildung des inflammatorischen Tumormikromilieus in Verbindung gebracht, jedoch ist die Datenlage in dieser Hinsicht bis heute uneindeutig. Obwohl eine Großzahl an Zytokinen und inflammatorischen Faktoren prinzipiell als HuR Zielgene beschrieben sind, gibt es nur für die wenigsten dieser Proteine entsprechende Untersuchungen in Tumorzellen.
Ziel dieser Arbeit war es, den Einfluss von HuR in Tumoren auf die Rekrutierung von Makrophagen zu evaluieren. Hierfür bot sich als in vitro Modell die Brustkrebszelllinie MCF-7 an, da diese unter entsprechenden Kultivierungsbedingungen dreidimensionale Sphäroide bildet. Solch ein Sphäroidmodell bietet sich als Kompromiss zwischen der klassischen zweidimensionalen Zellkultur an, welche zwar höchst artifiziell, jedoch leicht zu handhaben und zu kontrollieren ist, und den physiologischeren, aber gleichzeitig experimentell unzugänglicheren und speziesfremden Tiermodellen. Mittels lentiviraler Transduktion wurde ein small hairpin RNA (shRNA) vermittelter stabiler Knockdown von HuR in MCF-7 erzielt, welcher zu vermindertem Zellwachstum führte, jedoch keinen weiteren Einfluss auf die Bildung von Sphäroiden hatte. Um die initiale Suche nach HuR-regulierten, potenziell relevanten Faktoren möglichst breit und unvoreingenommen zu halten, wurde die Expression von 174 Zytokinen in Wildtyp- und HuR-knockdown Sphäroiden mittels eines Protein Arrays untersucht. Überraschenderweise zeigte der Großteil der veränderten Proteins einen negativen Zusammenhang mit HuR, welches eigentlich eher als positiv regulierendes Protein beschrieben ist. Bemerkenswerterweise befand sich unter den mit am stärksten regulierten Faktoren das Chemokin CCL5 (auch RANTES genannt), welches einerseits als einer der beiden zentralen Faktoren für die Makrophageninfiltration in Brustkrebs gilt, andererseits bisher noch nicht in Verbindung mit HuR gebracht wurde.
Im Folgenden untersuchte ich zuerst den mechanistischen Hintergrund dieser Regulation. Da diese sich auch in adhärenten Zellrasen zeigte, wechselte ich für die entsprechenden Experimente zu zweidimensionaler Zellkultur. Eine negative regulatorische Funktion von HuR wird meist in Verbindung mit verminderter Translation von Zielfaktoren gebracht. Da die mRNA Level von CCL5 dem Effekt auf Proteinebene entsprachen, konnten entsprechende Mechanismen als Grund für die veränderten CCL5 Level ausgeschlossen werden. Desweiteren blieb die mRNA Stabilität ungeachtet der HuR Level konstant; dabei zeigte sich zudem, dass mRNA Abbau generell keinen relevanten Einfluss auf die Expression von CCL5 in MCF-7 hatte. Da diese Ergebnisse auf eine transkriptionelle Regulation hindeuteten, untersuchte ich im Folgenden den Einfluss von HuR auf die Promoteraktivität von CCL5. Hierfür isolierte ich zunächst die CCL5-Promoterregion aus genomischer DNA von MCF-7 Zellen und inserierte diese dann in einen zuvor promoterlosen Luciferase-Expressionsvektor. In den folgenden Reporteranalysen zeigte sich, dass HuR tatsächlich einen negativen Einfluss auf die Promoteraktivität von CCL5 ausübt. Durch sukzessive Verkürzung ließ sich der entscheidende DNA-Bereich auf die letzten 140 Nukleotide vor dem Transkriptionsstartpunkt eingrenzen. Dieser Bereich enthält vier prominente und sehr gut charakterisierte regulatorische Abschnitte: zwei benachbarte NF-κB Bindestellen sowie je ein Interferon-stimulated Response Element (ISRE) und ein C/EBPβ Erkennungsmotiv. Während das C/EBP Element keine funktionelle Relevanz in den Reporteranalysen hatte, reduzierte sich durch Deletion sowohl der ISRE als auch der NF-κB Elemente die Promoteraktivität um mehr als 50%, allerdings nur im ISRE-Deletionskonstrukt unter Nivellierung des HuR-abhängigen Unterschiedes. Somit ließ sich der Einfluss von HuR auf die CCL5 Promoteraktivität vollständig und ausschließlich auf das ISRE zurückführen. Im Gegensatz zu dem in Tumorzellen häufig basal überaktiven NF-κB Signalweg sind die kanonischen, ISRE-assoziierten Typ I Interferon Signalkaskaden und ihre vermittelnden Transkriptionsfaktoren, die sogenannten Interferon Regulatory Factors (IRFs) nicht konstitutiv überaktiviert. Eine Sonderstellung nehmen dabei die Faktoren IRF1 und IRF2 ein, da sie, für Proteine abseits der Stimulus-getriebenen ISRE-Interferon Achse, auch als konstitutive Transkriptionsfaktoren beschrieben sind, wobei IRF2 in diesem Kontext als IRF1-Antagonist und somit Transkriptionsrepressor fungiert. Überraschenderweise ließ sich mittels Chromatin Immunopräzipitation eine Assoziation von IRF1 mit dem CCL5 Promoter nur in Wildtyp-, jedoch nicht in HuR-knockdown Zellen nachweisen. Im Gegensatz dazu ergaben mRNA Expressionsanalysen der Tumor-relevanten IRFs, dass die CCL5 Induktion in HuR-depletierten Zellen mit einer allgemeinen, jedoch niedrigschwelligen Erhöhung von Typ I Interferon-assoziierten Signalen einhergeht. Interessanterweise korrelierte Interferon β zwar mit CCL5 auf mRNA Ebene, jedoch hatte eine Blockade des Interferon-α/β Rezeptors in HuR-depletierten Zellen keinen akuten Effekt auf CCL5. Umgekehrt zeigte sich auch keine erhöhten CCL5 Level in Wildtypzellen unter Kokultur mit HuR-knockdown Zellen, wie es bei parakriner Induktion durch Interferon β zu erwarten wäre. Ebenso konnte alternatives ISRE Signaling durch einen Komplex aus unphosphoryliertem Stat1 und IRF9, wie es in vitro unter länger anhaltender Niedriglevel Exposition mit Interferon β beobachtet wurde, ausgeschlossen werden. Um sicher zu stellen, dass diese Erhöhung kein sequenzabhängiges off-target Artefakt ist, wie es in der Vergangenheit für einzelne small hairpin RNAs (shRNAs) beobachtet wurde, wurde eine entsprechende Aktivierung von IRF3 und damit des IRF3/IRF7 Aktivierungsweges untersucht und ausgeschlossen. Zusätzlich konnte durch Tests unterschiedlicher shRNA Sequenzen sowie Zellsysteme demonstriert werden, dass die CCL5 Aktivierung tatsächlich ein spezifischer und in einer größeren Bandbreite an Krebszelllinien unterschiedlicher Herkunft, darunter Brust- und Lungenkarzinom, Glioblastom- sowie Melanom- Zelllinien, reproduzierbarer Effekt von HuR-Defizienz ist.
Da CCL5 als eines der zentralen Chemokine bei der Rekrutierung von Monozyten/Makrophagen in Tumore beschrieben ist, stellte sich die Frage, ob HuR mit diesem Vorgang in Verbindung zu bringen ist. Brusttumore weisen oft eine hohe Zahl von Tumor-assoziierten Makrophagen auf, welche von eingewanderten Blutmonozyten abstammen. Ein Einfluss von HuR auf diesen Vorgang in vitro konnte mittels einer Kokultur von Sphäroiden mit zuvor frisch aus Humanblut isolierten Primärmonozyten nachgewiesen werden. Hierbei wiesen HuR-knockdown Sphäroide trotz ihres geringeren Durchmessers eine erhöhte Anzahl von Monozyten/Makrophagen auf. Da sich in diesen Zellen weder Proliferation noch relevante Apoptose zeigte, ließ sich die erhöhte Anzahl auf verstärkte Einwanderung in das Sphäroid zurückführen. Hierbei erwies sich der direkte Zellkontakt zwischen Monozyten und Tumorzellen als erforderlich, da Monozyten keine unterschiedliche Chemotaxis gegenüber entsprechenden Sphäroidüberständen zeigten. Dass die erhöhte Infiltration in HuR-defizienten Sphäroiden tatsächlich auf CCL5 zurückzuführen ist, konnte in Kokulturexperimenten durch Inhibierung von CCL5 gezeigt werden. Unterstütztend wurde ein Zusammenhang zwischen HuR, CCL5 und Tumor assoziierten Makrophagen in silico unter Zuhilfenahme des TCGA Datensets für Estrogenrezeptor-positive Brusttumore untersucht. Im Einklang mit meinen Ergebnissen zeigte sich eine negative Korrelation zwischen HuR und CCL5. Außerdem ließ sich ein negativer Zusammenhang zwischen HuR und einer Makrophagensignatur feststellen, während CCL5 wie erwartet mit dieser Signatur positiv korrelierte.
Zusammenfassend zeigte sich in dieser Arbeit, dass HuR eine Rolle bei der zellulären Zusammensetzung des inflammatorischen Tumor-Mikromilieus spielt. Der Verlust von HuR in Tumorzellen führte zu einer erhöhten Expression des Chemokins CCL5. Dies ließ sich in Brust- und Lungenkarzinom-, Glioblastom- sowie Melanom- Zelllinien beobachten. In Brustkrebszellen zeigte sich, dass diese Regulation auf verstärkte Transkription, vermittelt durch ein ISRE innerhalb des CCL5 Promoters, zurückzuführen ist. Funktionell konnte die erhöhte CCL5 Produktion in HuR-defizienten Tumorsphäroiden in Verbindung mit verstärkter Infiltration von Monozyten/Makrophagen gebracht werden. Unterstützend zeigte sich auch bei einer in silico Analyse von Estrogenrezeptor-positiven Brusttumoren eine negative Korrelation zwischen HuR und CCL5, was mit einer entsprechend veränderten Makrophagensignatur einherging. Im Hinblick auf derzeit diskutierte Ansätze, das Wachstum von Tumoren mittels HuR Blockade zu inhibieren, sind meine Ergebnisse potenziell von therapeutischer Relevanz. Basierend auf meiner Arbeit sollte dabei in zukünftigen Studien näher untersucht werden, wie sich Inhibierung von HuR in Tumoren auf die Zusammensetzung und Funktion des Tumormikromilieus auswirkt und daraus resultierende Effekte auf das Tumorwachstum in Relation zu der allgemein wachstumsfördernden Rolle von HuR in Tumorzellen gesetzt werden.
In the light of emerging resistances against common drugs, new drug leads are required. In the past natural sources have been more yielding in this respect than synthetic strategies. Fungi synthesize many natural products with biological activities and pharmacological relevance. However, only a fraction of the estimated fungal diversity has been evaluated for biological activity, and much of the Fungi’s natural chemical diversity awaits discovery. Especially promising in this context are lichenized fungi. Lichens are well known for their particularly rich and characteristic secondary chemistry which allows them to withstand intense UV radiation, protects them against herbivory, and prevents them from being overgrown. The slow growth rates of lichens and difficulties and infeasibility of large scale cultivations in the laboratory render lichens inaccessible for applied purposes. These experimental challenges have led to a poor understanding of the molecular mechanisms underlying the biosynthesis of characteristic lichen secondary metabolites. The recent development of improved sequencing techniques has enabled new strategies to address multi-species assemblages directly through metagenome sequencing and survey their biosynthetic potential through genome mining. However, whole genome sequencing of entire lichen thalli to metagenomically assess the lichen-forming fungus without the need of cultivation has not been evaluated for lichens before. This approach will enable the reconstruction of fungal genomes from mixed DNA from lichen thalli and allow the exploration of biosynthetic gene content.
My thesis was conducted in two parts: a methodological evaluation of a metagenomic strategy to reconstruct genomes and gene sets of lichen-forming fungi, and the exploration of biosynthetic gene content with the help of comparative genomics and phylogenetics. For the first part, I evaluated the quality of metagenome-derived genome assemblies and gene sets by direct comparison to culture-derived reference assemblies and gene sets of the same species. I showed that metagenome-derived fungal assemblies are comparable to culture-derived references genomes and have a similar total genome size and fungal genome completeness. The quality of assemblies was affected strongly by the choice of assembler, but not by the method of taxonomic assignment or inference of non-mycobiont DNA sequences. The fungal gene space is well covered in metagenome-derived and culture-derived fungal gene sets and overlaps to 88-90 %. Finally, the metagenome-derived assemblies reliably recover gene families of secondary metabolism. This shows the suitability of metagenomically derived genomes for mining biosynthetic genes, and potentially also other gene families. Overall, the method validation showed a high similarity between metagenome- and culture-derived genome assemblies.
For the second part of my thesis, I explored the biosynthetic gene content in two different systems: Between two sister-species with different ecological requirements but similar chemical profile, and between two species which are metabolite-rich and economically relevant in the perfume industry. I compared the diversity of biosynthetic gene clusters between the species and in the broader context of other lichenized and non-lichenized fungi. Overall, the whole genome mining revealed a large number of uncharacterised secondary metabolite gene clusters in fifteen genomes of lichen-forming fungi compared to other fungal classes. Their number highly outweighs the number of known synthesized metabolites and highlights the hidden biosynthetic potential in lichen-forming fungi. Many biosynthetic gene clusters in the ecological distinct sister-species showed a high homology in accordance with the high synteny in gene content and order in both genomes. These clusters represent ideal candidates for secondary metabolites synthesized by both species, while the remaining clusters may encode for metabolites relevant for the different ecological requirements of both species. The metabolite-rich species used in the perfume industry showed a particularly high number of biosynthetic gene clusters. An in-depth characterization of architecture and gene content of homologous gene clusters together with hints from phylogenetic relatedness to functional characterized metabolites provides promising insights into the biosynthetic gene content of these lichen-forming fungi.
In conclusion, I showed that metagenome sequencing of natural lichen thalli is a feasible approach to reconstruct the fungal mycobiont genome of lichens and circumvent time-consuming and in some cases impossible cultivation of individuals. The genome mining for secondary metabolite gene clusters in lichen-forming fungi revealed a high biosynthetic potential for the discovery of new natural products. One of the focal species, Evernia prunastri, contained the highest ever reported number (80) of biosynthetic clusters in lichenized fungi. The comprehensive cluster characterizations through annotation, comparative mapping and phylogenetics provide first valuable hints for linking metabolites to genes in these lichen-forming fungi. My results pave the way for biotechnological strategies to unlock the vast richness of natural products from lichens for applied purposes.
Cerebellar ataxias are a group of neurodegenerative disorders primarily affecting the cerebellum. Although causative mutations in several genes have been identified there is currently no cure for ataxias.
The first part of this dissertation is focused on Spinocerebellar ataxia type 2 (SCA2). SCA2 is a dominant ataxia caused by repeat expansion mutations in the ATXN2 gene, which encodes the protein Ataxin2 (ATXN2). A polyglutamine (polyQ) tract consisting of CAG repeats interrupted by CAA was identified at exon 1 of ATXN2. Healthy individuals have between 22 and 23 glutamines, while expansions longer than 33 CAG repeats cause SCA2. The most noticeable symptom that SCA2 patients show is ataxic gait; however, they also show cerebellar dysarthria, dysdiadochokinesia, and ocular dysmetria caused by the progressive cerebellar degeneration.
To model the SCA2 disease, we generated a new mouse model where 100 CAG repeats were introduced in the mouse Atxn2 gene via homologous recombination. The characterization of this mouse model, Atxn2-CAG100-KIN, demonstrated that it reproduces the symptomatology observed in SCA2 patients. These animals showed significant loss of weight over time, brain atrophy, and motor deficits.
In addition, ATXN2 intermediate expansions have been linked to the pathology of Amyotrophic lateral sclerosis (ALS) as a risk factor. ALS is a fatal neurodegenerative disease where the motor neurons in the brain and spinal cord degenerate. A hallmark of ALS is the presence of TDP43-positive inclusions in neurons and glia. Further studies of post mortem spinal cord samples from SCA2 patients showed severe and widespread neurodegeneration of the central somatosensory system. Therefore, it was of interest to further investigate the pathology affection of this tissue in the Atxn2-CAG100-KIN line and the relationship between ATXN2 and TDP43. The characterization of the spinal cord pathology via protein quantification, transcript quantification, and immunohistochemistry showed a preferential affection of RNA binding proteins (RBP) in the spinal cord rather than the cerebellum. The ALS-linked factors TDP43 and TIA1 showed time-dependent co-aggregation with ATXN2 in spinal cord sections together with an increase of CASP3 levels. Therefore, this mouse model can help develop new therapies and evaluate their effect in differently affected areas.
A transcriptome data set from Atxn2-CAG100-KIN spinal cord samples at the final disease stage of this mouse model showed a strong up-regulation of RNA toxicity-, immune- and lysosome-implicated factors. These data pointed to a pathological reactivation of the synaptic pruning and phagocytosis in microglia. ATXN2-positive aggregates were found in microglia from spinal cord sections of 14-month-old Atxn2-CAG100-KIN via immunohistochemistry. The characterization of microglial response and the potentially deleterious effects of the expanded ATXN2 in this cell type could lead to therapies to improve patients’ living standards or delay the symptoms’ onset.
The second part of this thesis was focused on an autosomal recessive form of cerebellar ataxia, Ataxia Telangiectasia (A-T), with childhood onset. A-T patients show severe cerebellar atrophy manifesting as ataxia when the child starts to walk. The genetic cause of A-T is loss-of-function-mutations in the Ataxia Telangiectasia Mutated gene (ATM). ATM is a kinase involved in DNA damage response, oxidative stress, insulin resistance, autophagy via mTOR signaling, and synaptic function.
Working with proteome data from cerebrospinal fluid of 12 A-T patients and 12 healthy controls, we aimed to define novel biomarkers that would allow following the neurodegeneration in extracellular fluid. Additional validation efforts with ~2-month-old Atm-knock-out (Atm-/-) cerebellar samples helped us to define a scenario were the deficit of vesicle-associated ATM alters the secretion of ApoB, reelin, and glutamate. As extracellular factors, apolipoproteins and their cargo such as vitamin E may be useful for neuroprotective interventions.
Role of Orphan G-protein-coupled receptor GPRC5B in smooth muscle contractility and differentiation
(2019)
G protein coupled receptors (GPCRs) are the largest family of cell-surface receptors encoded in the human genome. They mediate the cellular responses to a wide variety of stimuli, ranging from light, odorants, and metabolic cues to hormones, neurotransmitters, and local mediators. Upon ligand binding, the GPCR undergoes conformational changes resulting in the activation of heterotrimeric G-proteins belonging to the families Gs, Gi/o, Gq/11, G12/13, which in turn mediate the downstream signaling. While most of the 360 non-olfactory GPCRs are well studied, approximately 120 GPCRs are still considered "orphan", meaning that their mechanism of activation and biological function is unknown. GPCRs have been functionally described in the regulation of almost all organ systems, and their dysregulation has been implicated in the pathogenesis of a multitude of diseases. In the vascular system, the contractile tone of vessels is crucially regulated by GPCRs. Substances that act through G12/13- and Gq/11-coupled GPCRs are associated with facilitation of contraction, while Gs-coupled GPCRs are usually associated with the induction of relaxation. Furthermore, while Gq/11 pathway activation promotes proliferation and dedifferentiation of vascular smooth muscle cells (VSMC), G12/13 and Gs signaling pathways promote expression of contractile proteins and differentiation.
The functional properties of VSMC depend on the anatomical location, and a recent single-cell expression analysis showed that VSMC from different vascular beds have different patterns of GPCR expression. Interestingly, smooth muscle cells (SMCs) from resistance arteries not only express various GPCRs for known modulators of vascular tone, but also a number of orphan GPCRs. These results suggest a potential role of orphan GPCRs in the modulation of blood pressure. Orphan GPCR GPRC5B was one of the GPCRs enriched in resistance arteries, and this receptor was also upregulated in dedifferentiated aortal SMC. The function of GPRC5B in these types of SMC is currently unknown. In vitro studies suggested that GPRC5B negatively regulates obesity, inflammation, insulin secretion and fibrotic activity, but there are no data available with respect to its function in regulation of vascular tone or other SMC functions.
Our study aimed at the identification of the specific functions of GPRC5B in SMC. To do so, we generated a SMC-specific GPRC5B-deficient mouse line by crossing Gprc5bfl/fl mice with smooth muscle-specific, tamoxifen-inducible Myh11-CreERT2 mice. We found that SMC-specific deletion of GPRC5B did neither affect myogenic tone in pressure myography, nor the response to the contractile agonists in wire myography. In contrast, vessel relaxation in response to prostacyclin analogues cicaprost and iloprost, which act on the prostacyclin receptor IP, were increased. These results suggested a selective improvement of IP receptor signaling. The IP receptor is coupled to Gs protein, it promotes vasorelaxation and acts as a restraint on platelet activation. Using overexpression of IP and GPRC5B in HEK cells, we found that GPRC5B physically interacts with the IP receptor and controls IP trafficking and membrane localization. Furthermore, we found that membrane IP receptor expression was increased in GPRC5B-deficient human aortic SMC and in resistance vessels of SMC-specific GPRC5B. To investigate the importance of increased IP-mediated signaling in SMC in vivo, we measured blood pressure in two mouse models of hypertension. We found that SMC-deletion of Gprc5b resulted in a significant reduction of blood pressure compared with control mice, which suggested that Gprc5b negatively regulated relaxation in hypertensive disease by decreasing IP mediated relaxation. In line with this notion we found that application of the IP antagonist Cay10441 largely abrogated the beneficial effect of GPRC5B inactivation in this hypertension model. Another important function of the IP receptor is the regulation of SMC differentiation, which led us to investigate the differentiation state of GPRC5B-deficient SMC. We found that deletion of GPRC5B enhanced expression of contractile genes and reduced expression of proliferative markers. This improved differentiation was, at least partially, due to increased IP signaling in SMC. Moreover, in a mouse model of atherosclerosis SMC-specific deletion of Gprc5b reduced plaque area and contributed to a more stable fibrous cap by promoting differentiation.
In conclusion, deletion of GPRC5B in SMC significantly improved contractility and differentiation by increasing IP receptor membrane availability and signaling.
The overarching aim of this doctoral research was to examine and quantify the spatiotemporal variability in the movements of nomadic ungulates to better understand the possible drivers and characteristics of such movements as well as to examine the particular conservation challenges associated with nomadic movements.
The brain is a large complex system which is remarkably good at maintaining stability under a wide range of input patterns and intensities. In addition, such a stable dynamical state is able to sustain essential functions, including the encoding of information about the external environment and storing memories. In order to succeed in these challenging tasks, neural circuits rely on a variety of plasticity mechanisms that act as self-organizational rules and regulate their dynamics. Based on toy models of self-organized criticality, this stable state has been proposed to be a phase transition point, poised between distinct types of unhealthy dynamics, in what has become known as the critical brain hypothesis. It is not yet known, however, if and how self-organization could drive biological neural networks towards a critical state while maintaining or improving their learning and memory functions.
Here, we investigate the emergence of criticality signatures in the form of neuronal avalanches due to self-organizational plasticity rules in a recurrent neural network. We show that power-law distributions of events, widely observed in experiments, arise from a combination of biologically inspired synaptic and homeostatic plasticity but are highly dependent on the external drive. Additionally, we describe how learning abilities and fading memory emerge and are improved by the same self-organizational processes. We finally propose an application of these enhanced functions, focusing on sequence and simple language learning tasks.
Taken together, our results suggest that the same self-organizational processes can be responsible for improving the brain’s spatio-temporal learning abilities and memory capacity while also giving rise to criticality signatures under particular input conditions, thus proposing a novel link between such abilities and neuronal avalanches. Although criticality was not verified, the detailed study of self-organization towards critical dynamics further elucidates its potential emergence and functions in the brain.
The division Ascomycota(Fungi) contains a large number of taxa known to reproduce only asexually by the formation of conidia or other non-motile propagules produced by mitotic cellular devisions. They are called anamorphic, mitosporic, asexual or conidial fungi and ecologically, they are often found associated with plant debris in different stages of decay. In general, saprobic anamorphs of ascomycetous affinities are poorly studied and their outstanding diversity is currently underexplored. Phylogenetic relationships are unknown for many of them and they are still largely underrepresented in the current phylogenetic classification system of Fungi, with many morphologically defined anamorphic taxa still awaiting taxonomic reassessment in the light of molecular approaches. The increasing usage of molecular markers combined with robust statistical methods has allowed their phylogenetic affinities to be revealed and to gradually incorporate many of them into the different taxonomic groups of the division Ascomycota. However, the phylogenetic placement and taxonomic status of a large number of saprobic taxa remain unresolved due to the lack of DNA sequence data.
The present dissertation aims to explore the rich but understudied diversity of those anamorphic fungi traditionally known as hyphomycetes that inhabit dead plant debris. It consists of five publications in which a polyphasic approach integrating morphological, developmental, cultural and molecular data was used to incorporate novel or incertae sedis taxa within Ascomycota and to make more sound decisions regarding their taxonomic status. Specific objectives include: 1. the collection, isolation and morphological characterization of selected anamorphic fungi representing putative new or interesting taxa of uncertain phylogenetic placement; 2. the generation of novel DNA sequence data to infer their phylogenetic relationships and to resolve their taxonomic affinities within Ascomycota; 3. the testing of any previously available morphologically based hypotheses on their putative position, generic placement or relationships with teleomorphic, pleomorphic or other anamorphic taxa; and 4. the determination of their generic validity, monophyly and taxonomic boundaries using molecular data and phylogenetic analyses methods.
Materials studied in these five projects consisted of specimens collected during field work carried out by the author or collaborators in different countries including USA, the Czech Republic and Panama between the years 2014 and 2017. The target substrates were dead leaves of different palm trees, dead wood and bark of pines and twigs or stems of unknown shrubs and woody vines that are all known to harbor a rich saprobic mycobiota. Putative novelties or anamorphic taxa with unknown or poorly studied phylogenetic affinities were selected for further morphological and molecular investigation. Micromorphological studies were based on fungal structures observed on natural substrate, herbarium specimens and in culture. DNA was extracted from cultures and PCR amplification followed by Sanger sequencing was carried out using relevant molecular markers employed in fungal phylogenetic studies. Newly obtained DNA sequence data were analyzed following a standard phylogenetic analysis pipeline and phylogenetic relationships were reconstructed using character-based methods such as Maximum Likelihood and Bayesian inference.
Conclusion is that anamorphic Ascomycota inhabiting dead plant debris represents a largely untapped source of biodiversity and information still in need of further exploration. A new capnodiaceous genus Castanedospora, seven new species named Taeniolella sabalicola, Hermatomyces bifurcatus, H. constrictus, H. megasporus, H. sphaericoides, H. verrucosus and Septonema lohmanii, and two new combinations, Castanedospora pachyanthicola and H. reticulatus, are proposed based on morphological and DNA sequence data. Molecular phylogenetics was confirmed as the tool of choice for the inference of relationships in novel or incertae sedis anamorphic fungi that are otherwise difficult to assess in the absence of a teleomorphic state. They were first resolved or revisited for several saprobic species such as Ernakulamia cochinensis, H. sphaericus, H. tucumanensis or Septonema fasciculare in a suitable framework for phylogenetic hypothesis testing. Molecular data allowed to fully incorporate all these taxa in Ascomycota, particularly within the classes Dothideomycetes and Sordariomycetes, and to provide a foundation for better taxonomic decisions on their classification. Large and polyphyletic genera such as Taeniolella, Sporidesmium and Septonema, partially treated in this work and containing mostly saprobic species of obscure affinities, remained in need of further investigation.
Hypoxia is a condition in which cells are deprived of adequate oxygen supply and represents a main feature of solid tumours. Cells under hypoxic stress activate transcriptional responses driven by hypoxia-inducible factors (HIFs), which affect multiple cellular pathways, including angiogenesis, metabolic adaptation and cell proliferation. While the transcriptional changes induced in hypoxic tumours are well characterised, it is still poorly understood how hypoxia contributes to the aberrant post-transcriptional regulation observed in tumours. In this PhD thesis, I studied the RNA response to hypoxia in cancer, to provide novel insights into its regulation.
Using deep RNA-Sequencing (RNA-Seq), I investigated transcriptome changes of three human cell lines from lung, cervical and breast cancer under hypoxia, advancing our knowledge of post-transcriptional gene regulation in hypoxic cancer. I show that hypoxia induced consistent changes in transcript abundance in the three cancer types. This was coupled to divergent splicing responses, highlighting the cell type specificity of alternative splicing programs. While the mRNA levels of RNA-binding proteins were mainly reduced, hypoxia upregulated muscleblind-like protein 2 (MBNL2) in all three cell lines. Hypoxia control was specific for MBNL2, since it did not affect its paralogs MBNL1 and MBNL3. Via knockdown experiments of MBNL2 in hypoxic cells, I could show that MBNL2 induction promotes adaptation of cancer cells to low oxygen by regulating both transcript abundance and alternative splicing of hypoxia response genes. In addition, depletion of MBNL2 reduced the proliferation and migration of cancer cells, corroborating a function of MBNL2 as cancer driver.
In the last few years, a novel class of RNAs has gained attention, namely circular RNAs (circRNAs), which are produced by a particular splicing mechanism, known as back-splicing. CircRNAs have been reported to change their abundance in cancer and their high stability makes them promising candidates as diagnostic biomarkers. In this study, I took advantage of deep rRNA-depleted RNA-Seq data to comprehensively investigate the expression of circRNAs in human cancer cells and their changes in response to hypoxia. To reliably identify circRNAs, I established a pipeline that integrates two available tools. for circRNA detection with custom approaches for quantification and statistical analysis. Using this pipeline, I identified 12006 circRNAs in the three cancer cell lines. Their molecular features suggest an involvement of complementary RNA sequences as well as trans-acting factors in circRNA biogenesis, including the splicing factor HNRNPC. Remarkably, I detected 210 circRNAs that are more abundant than their linear counterparts. Upon hypoxic stress, 64 circRNAs were differentially expressed in cancer cells, in most cases in a cell type-specific manner. In summary, in this PhD thesis, I present a comparative transcriptome profiling in human cancer cell lines. It reveals MBNL2 as an important player in hypoxic cancer progression and provides novel insights into the biogenesis and regulation of circRNAs under hypoxic stress.
Canada’s geographic centre lies in the Territory Nunavut. From here the distance to the geographic North Pole is as far as to the US border. Nunavut takes up about 1/5 of the Canadian land mass but has by far the smallest population with currently about 38,000 residents. 85% of its population are Inuit whose culture dramatically changed within the last 70 years.
As a result, the territory is dealing with several generations of Inuit that are traumatized or at least severely affected by cultural and economic changes that started after World War 2 with the resettlement from the land into permanent communities. No matter if we are talking about the actual elders, mid-age adults or pre-teenagers, each of this generation experienced and still experiences various personal and cultural challenges of identity, financial and housing insecurity, food insecurity, substance abuse education, change of social values ranging from inter-generational and gender relationships to the introduction of a foreign political and legal system.
On the other side, a lot of the traditional societal values are still being practiced in Inuit families. Despite all the tragedies that several generations of Inuit have experienced by now, the society keeps generating the strength and cultural pride that allows many Inuit both, as individuals and as a collective under the umbrella of either Inuit Land Claims or not for profit organizations to advocate on behalf of Inuit culture, to fight for more acknowledgement of Inuit culture and to enhance pride in the historic and present day cultural achievements of Nunavut’s indigenous population.
The social issues, inter- and intra-cultural processes described in my thesis are not exclusive to the situation in Nunavut or to Inuit. Studies from other regions, in Canada or from around the world (LaPrairie 1987; Jensen 1986; Nunatsiaq News 6/30/2010) reveal similar challenges.
Though many structural similarities can be identified by comparing these studies with each other, e.g. marginalization of the indigenous local population, colonization, paternalism and resulting issues like personal and cultural identity loss, it is important to have a more in depth look into the single cases to determine which individual events and developments causes and maybe still cause such a devastating social situation as it is found among many indigenous peoples across the world. From my perspective effective improvements of the situation of a group, a respective community or region can only happen when particularities of socialization, communication and philosophy in the single cultural entities are being considered.
That is why my thesis will exclusively focus on developments in Nunavut and use various case studies of communities. The case studies shall help to identify local differences in historic and recent developments and thus provide starting points for explanations of different developments in different Nunavut communities.
The thesis is looking at both, historic and recent root causes for the many issues in Nunavut.
The data that my my thesis is based on are a combination of literature and about 60 formal and informal interviews that I conducted in three Nunavut communities (Iqaluit, Whale Cove, Kugluktuk) during my 18 months of field work between October 2008 and March 2010. Many more spontaneous unstructured conversations between me and community members added to the pool of first-hand information that I gathered.
Since my field work is limited to those three communities it has a very strong qualitative character. The quantitative side, which allows me to confidently apply my research analyses to entire Nunavut, comes from literature research as well as many informal conversations and a few formal interviews that I conducted with people who had some experience in other communities than Iqaluit, Kugluktuk and Whale Cove.
Furthermore, while I was living at the old residence of the Nunavut Arctic College in Iqaluit, I spend time with college students from across Nunavut. Through them, I obtained „case studies “from following communities: Iqaluit, Qikiqtarjuaq, Kimmirut, Pangnirtung, Clyde River, Pond Inlet, Igloolik, Repulse Bay, Cape Dorset, Chesterfield Inlet, Baker Lake, Rankin Inlet, Whale Cove, Arviat, Taloyoak, Kugluktuk.
My general categorization of “early contact period”, “contact”, “1st generation” and “2nd generation” is very similar to Damas’ terms of “early contact phase”, “contact – traditional”, “resettlement” that he uses to create a timeline that describes the major phases of impact for Inuit society (Damas 2002: 7, 17).
Chapters 2 is meant to provide an inventory of the key aspects of current social issues in Nunavut. In this context I am looking at the four major aspects that in my opinion shape Nunavut’s society:
1) violence and other forms of social dysfunctions
2) the associated services and delivering agencies that try to address those matters
3) Education
4) Inuit cultural particularities in communication and socialization
Those four areas are forming the foundation for the rest of my work. The following chapters will guide the reader through the historic transformation process of Inuit pre-colonial semi-nomadic society to a society that is living in permanent settlements, strongly influenced if not in many ways dominated by Euro-Canadian culture. Each of those chapters will be referring to the social and cultural changes that happened in the different time periods that I labeled with “Pre-settlement, First, Second, and Third Generation”. The relevance of violence and other social dysfunctions, their context and strategies how each generation dealt with those matters will be analyzed while I will be also referring to the impacts that non-Inuit, primarily Euro-Canadians and Euro-Americans had and have on Inuit society.
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