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Background: Altered neuronal development is discussed as the underlying pathogenic mechanism of autism spectrum disorders (ASD). Copy number variations of 16p11.2 have recurrently been identified in individuals with ASD. Of the 29 genes within this region, quinolinate phosphoribosyltransferase (QPRT) showed the strongest regulation during neuronal differentiation of SH-SY5Y neuroblastoma cells. We hypothesized a causal relation between this tryptophan metabolism-related enzyme and neuronal differentiation. We thus analyzed the effect of QPRT on the differentiation of SH-SY5Y and specifically focused on neuronal morphology, metabolites of the tryptophan pathway, and the neurodevelopmental transcriptome.
Methods: The gene dosage-dependent change of QPRT expression following Chr16p11.2 deletion was investigated in a lymphoblastoid cell line (LCL) of a deletion carrier and compared to his non-carrier parents. Expression of QPRT was tested for correlation with neuromorphology in SH-SY5Y cells. QPRT function was inhibited in SH-SY5Y neuroblastoma cells using (i) siRNA knockdown (KD), (ii) chemical mimicking of loss of QPRT, and (iii) complete CRISPR/Cas9-mediated knock out (KO). QPRT-KD cells underwent morphological analysis. Chemically inhibited and QPRT-KO cells were characterized using viability assays. Additionally, QPRT-KO cells underwent metabolite and whole transcriptome analyses. Genes differentially expressed upon KO of QPRT were tested for enrichment in biological processes and co-regulated gene-networks of the human brain.
Results: QPRT expression was reduced in the LCL of the deletion carrier and significantly correlated with the neuritic complexity of SH-SY5Y. The reduction of QPRT altered neuronal morphology of differentiated SH-SY5Y cells. Chemical inhibition as well as complete KO of the gene were lethal upon induction of neuronal differentiation, but not proliferation. The QPRT-associated tryptophan pathway was not affected by KO. At the transcriptome level, genes linked to neurodevelopmental processes and synaptic structures were affected. Differentially regulated genes were enriched for ASD candidates, and co-regulated gene networks were implicated in the development of the dorsolateral prefrontal cortex, the hippocampus, and the amygdala.
Conclusions: In this study, QPRT was causally related to in vitro neuronal differentiation of SH-SY5Y cells and affected the regulation of genes and gene networks previously implicated in ASD. Thus, our data suggest that QPRT may play an important role in the pathogenesis of ASD in Chr16p11.2 deletion carriers.
Impaired alveolar formation and maintenance are features of many pulmonary diseases that are associated with significant morbidity and mortality. In a forward genetic screen for modulators of mouse lung development, we identified the non-muscle myosin II heavy chain gene, Myh10. Myh10 mutant pups exhibit cyanosis and respiratory distress, and die shortly after birth from differentiation defects in alveolar epithelium and mesenchyme. From omics analyses and follow up studies, we find decreased Thrombospondin expression accompanied with increased matrix metalloproteinase activity in both mutant lungs and cultured mutant fibroblasts, as well as disrupted extracellular matrix (ECM) remodeling. Loss of Myh10 specifically in mesenchymal cells results in ECM deposition defects and alveolar simplification. Notably, MYH10 expression is downregulated in the lung of emphysema patients. Altogether, our findings reveal critical roles for Myh10 in alveologenesis at least in part via the regulation of ECM remodeling, which may contribute to the pathogenesis of emphysema.
Angesichts heutiger Umweltprobleme ist die Stärkung positiver Mensch-Natur-Beziehungen wichtiger denn je. Zeitgenössische Umweltbildung zielt darauf ab, Motivation und Einstellungen zu fördern sowie eine grundlegende Wissensbasis zu schaffen (IUCN, UNEP, & WWF, 1991; Potter, 2010), um einen selbstbestimmten, verantwortungsvollen Umgang mit der Natur zu ermöglichen. Positiver Naturbezug und Umwelteinstellungen gelten als Basis für aktiven Umweltschutz. Direkte Naturerfahrungen gelten dabei als didaktische Möglichkeit, die Motivation für Umweltschutz zu festigen (Kaiser, Roczen, & Bogner, 2008). Einstellungen verändern sich im Laufe des Lebens und so kann das Alter eine wichtige Rolle bezüglich der Effektivität von Umweltbildungsprogrammen spielen (Ernst & Theimer, 2011). Auch Umweltwissen gilt als Grundlage von Umwelthandeln. Denn sinnliche Erfahrungen allein führen nicht zum Verständnis ökologischer Zusammenhänge (Frick, Kaiser, & Wilson, 2004; Liefländer, Bogner, Kibbe, & Kaiser, 2015). Die biologiedidaktische Forschung sieht Fakten-, Handlungs- und Effektivitäts-wissen als zentral für die Genese von Umwelthandeln (Frick, Kaiser, & Wilson, 2004). Isoliertes Fachwissen wiederum führt nach aktueller Erkenntnis auch nicht zur Entwicklung von Haltungen und Wertvorstellungen, welche unser Handeln beeinflussen (Barr, 2003; Finger, 2010; Leiserowitz, Kates, & Parris, 2005).
Bis heute sind altersbasierte Unterschiede bei Schülerinnen und Schülern bezüglich ihrer Naturverbundenheit und Umwelteinstellungen nicht hinreichend untersucht. Auch ist die nötige Dauer der Naturerfahrungen noch nicht nachgewiesen. Es gibt bislang keine Studie, die Umwelteinstellungen, -wissen und –handeln von Kindern verschiedener Regionen der Erde untersucht und Daten auf internationaler Ebene erhoben und ausgewertet hat. Die gezielte Integration der drei Umweltwissensarten in ein solch globales Umweltbildungsprojekt stellt eine zusätzliche bislang nicht angegangene Aufgabe dar. Die vorliegende Arbeit schließt diese Forschungslücken, indem sie auf internationaler Ebene jene Variablen mit einbezieht, die einen nahezu vollständigen Eindruck der Effektivität von Umweltbildung in verschiedenen Regionen, Sozialisationen und Altersklassen zulässt. So wird der Einfluss eines umfassenden Umweltbildungsprogramms auf Naturverbundenheit, Umwelteinstellungen und -wissen der verschiedenen Typen untersucht und ein Bezug zur eventuellen Veränderung des Umwelthandelns hergestellt. Dabei stehen sowohl traditionelle als noch unerforschte mögliche Einflussfaktoren im Fokus. Die Studie umfasst insgesamt 1454 Schülerinnen und Schüler aus Bangladesch, Malaysia, Deutschland und Singapur, die alle an dem Umweltbildungsprojekt „Global denken, lokal handeln – wir schützen unsere Umwelt!“ bzw. “Think global, act local – we protect our environment!“ teilgenommen haben.
Zur Messung der Naturverbundenheit diente Schulz’ INS-Skala (Inclusion of Nature in Self) (2002). Umwelteinstellungen wurden mit dem 2-MEV-Modell (Two Major Environmental Values) gemessen (Johnson & Manoli, 2011). Eine Skala zur Erhebung von Umweltwissen wurde eigens erstellt und hinsichtlich der drei Wissenstypen nochmals modelliert. Eine Skala zur Ermittlung von Umwelthandeln wurde auf Grundlage von Bögeholz (1999) erstellt. Alle Skalen waren Teil eines Fragebogens, welcher in Form eines Pre-, Post- und Follow-up-Test eingesetzt wurde. Kinder aus Parallelklassen, die nicht am Projekt teilnahmen, aber Klassenunterricht zu den jeweiligen Themen erhielten, dienten als Kontrollgruppen.
Die Ergebnisse bestätigen einen positiven Effekt außerschulischer Umweltbildung bezüglich der Entwicklung der untersuchten Variablen. So wurde nach der Teilnahme am eintägigen und auch nach dem fünftägigen Umweltbildungsprogramm eine signifikante Verstärkung des Naturbezugs gemessen, wohingegen die Kontrollgruppen keine messbare Veränderung zeigten. Jedoch nur die fünftägige Intervention führte auch zu nachhaltigen Veränderungen. Hierbei am stärksten beeinflusst wurden Kinder zwischen sieben und neun Jahren.
Bei der Untersuchung demographischer Einflussfaktoren auf Umwelteinstellung, -wissen und –handeln stellten sich das Wohnsitzland sowie die städtische bzw. ländliche Prägung der Wohngegend als entscheidend heraus. So waren dies die einflussreichsten Determinanten zur Vorhersage des Grundvorhandenseins sowie Veränderungen der untersuchten Variablen in Folge der Bildungsmaßnahme. Einzig bei der Entwicklung des Umwelthandelns schien die direkte Naturerfahrung unwesentlich, zeigten die Kontrollgruppen ähnlichen Wandel in ihrem aktiven Einsatz für die Umwelt. Im internationalen Vergleich scheint die komplexe Verkettung diverser einflussnehmender Faktoren, wie der Wohlstand des jeweiligen Staates, das generelle politische System sowie spezifische bildungspolitische Begebenheiten, den Erfolg von Umweltbildungsprogrammen mit zu bestimmen.
Die Daten zeigen, dass Faktenwissen Grundlage für Handlungs- und Effektivitätswissen ist. Alle Dimensionen wurden durch die Intervention signifikant gesteigert. Effektivitätswissen wuchs am stärksten. Auch das Umweltverhalten wurde positiv verstärkt. Jedoch ließen sich nur schwache Korrelationen zwischen den einzelnen Wissenstypen und Handeln feststellen. Zusammenfassend war das durchgeführte Bildungsprojekt erfolgreich in der Förderung von Naturverbundenheit sowie Umwelteinstellungen, -wissen und- handeln. Die Ergebnisse werden im Rahmen dieser Arbeit im Hinblick auf ihre Bedeutung für die schulische Umweltbildung sowie die didaktische Forschung erörtert.
In the 'Golden Age of Antibiotics', between 1940 and 1970, the global pharmaceutical companies discovered many antibiotics, such as cephalosporins, tetracyclines, aminoglycosides, glycopeptides, etc., as well as antifungal and antiparisitic agents. Due to several reasons, e.g. the steady re-discovery of already known NPs and the associated high costs, many pharmaceutical companies have significantly scaled back or totally abandoned their NP discovery programs since the late 20th century. Instead those companies started to focus on drug discovery based on combinatorial synthesis and thereby on the creation of enormous synthetic libraries containing small molecules. Unfortunately, this synthetic approach dealing with the optimization of existing NP or antibiotic has its limitations. As a result, leading pharmaceutical companies are re-conducting NPs research to discover new antimicrobials for the upcoming antimicrobial resistance threat. The Natural Product Center of Excellence, a collaboration between Sanofi-Aventis and Fraunhofer IME, is advancing in this context the discovery and development of novel antimicrobial agents for the treatment of infectious diseases through the testing of Sanofi's microbial extract library and strain collection. The aim of the present PhD thesis was the discovery and isolation of novel antimicrobial compounds with improved activities and/or novel MOAs as potential lead compound for a further drug discovery.
Cardiac trabeculation is one of the essential processes required for the formation of a competent ventricular wall, whereby clusters of ventricular cardiomyocytes (CMs) from a single layer delaminate and expand into the cardiac jelly to form sheet-like projections in the developing heart (Samsa et al., 2013). Several congenital heart diseases are associated with defects in the formation of these trabeculae and lead to embryonic lethality (Jenni et al., 1999; Zhang et al., 2013, Jenni et al., 2001; Towbin 2010). It has been experimentally shown that lack of Nrg1/ErbB2/ErbB4, Angipoetin1/Tie2, EphrinB2/B4, BMP10, or any component of the Notch signaling pathway can cause defective trabeculation. Moreover, changes in blood flow and/or contractility can also affect trabeculation (Samsa et al., 2013). Together, these observations demonstrate that cardiac trabeculation is a highly dynamic and regulated process.
Trabeculation is a morphogenetic process that requires control over cell shape changes and rearrangements, similar to those observed during EMT. Epithelial cells within an epithelium are polarized and establish cell-cell junctions with the neighboring cells (Ikenouchi et al., 2003; Ferrer-vaquer et al., 2010), thus epithelial cell polarity is an important feature to maintain cell shape and tissue structure. During developmental processes such as cell migration and cell division or in disease states epithelial polarity might be disrupted. As a consequence of this alteration, cells lose their tight cell-cell adhesions, undergo cytoskeletal rearrangements, change their shape and gain migratory properties becoming mesenchymal cells (Micalizzi et al., 2010). In epithelial cells, apicobasal polarity is regulated by a conserved set of core complexes, including the PAR, Scribble and Crumbs complexes (Kemphues et al., 1988; Bilder and Perrimon, 2000; Teppas et al., 1984). The polarity proteins composing these complexes interact in a well organized and coordinated-manner creating molecular asymmetry along the apicobasal axis of the cell. In turn, this crosstalk regulates the maturation and stabilization of the junctions between cells and cytoskeleton in order to strengthen cell polarization (Roignot et al., 2013). Amongst the different polarity complex, Crumbs has been shown to be a key regulator of apicobasal polarity during development in both vertebrates and invertebrates (Tepass et al., 1990; Fan et al., 2004).
Here, taking advantage of zebrafish as a model organism, I study in vivo at single cell resolution changes in CM apicobasal polarity during cardiac trabeculation. Moreover, I show which factors regulate CM apicobasal polarity during this process. In addition, I dissect the role of the polarity complex Crumbs in regulating CM junctional rearrangements and the formation of the trabecular network.
Neuropogonoid species in the lichen-forming fungal genus Usnea exhibit great morphological variation that can be misleading for delimitation of species. We specifically focused on the species delimitation of two closely-related, predominantly Antarctic species differing in the reproductive mode and representing a so-called species pair: the asexual U. antarctica and the sexual U. aurantiacoatra. Previous studies have revealed contradicting results. While multi-locus studies based on DNA sequence data provided evidence that these two taxa might be conspecific, microsatellite data suggested they represent distinct lineages. By using RADseq, we generated thousands of homologous markers to build a robust phylogeny of the two species. Furthermore, we successfully implemented these data in fine-scale population genomic analyses such as DAPC and fineRADstructure. Both Usnea species are readily delimited in phylogenetic inferences and, therefore, the hypothesis that both species are conspecific was rejected. Population genomic analyses also strongly confirmed separated genomes and, additionally, showed different levels of co-ancestry and substructure within each species. Lower co-ancestry in the asexual U. antarctica than in the sexual U. aurantiacoatra may be derived from a wider distributional range of the former species. Our results demonstrate the utility of this RADseq method in tracing population dynamics of lichens in future analyses.
Lizards of Paraguay: an integrative approach to solve taxonomic problems in central South America
(2018)
Paraguay is located in the center of South America with drier and warmer climatic conditions in the western part of the country, and more temperate and humid in the eastern region. Biogeographically, Paraguay is a key spot in South America, where several ecoregions converge. In my study, I sampled most of the ecoregions of Paraguay. The main objective of my work is to solve taxonomic problems, identified through genetic barcoding analyses, in the central region of South America. To achieve this objective, I used selected taxa of the Paraguayan Squamata as models taking into consideration the crucial geographic position of the country, plus the scarce available genetic data of Paraguayan reptiles.
The collecting activities were performed in the framework of a barcoding inventory project of the Paraguayan herpetofauna and carried out mostly in rural areas searching for animals in different types of habitats using active search as the sampling technique.
For genetics, the extraction of DNA was performed with DNeasy® Blood & Tissue Kit of Qiagen® for sets of few samples, and the fiber glass plate protocol for sets of 96 samples. I assessed the quality of sequences after amplification in agarose gel electrophoresis. The first marker sequenced was 16S mtDNA, used for barcoding analysis. A DNA barcode is a genetic identifier for a species. Once a taxonomic problem was detected, I generate more gene sequences to target the issue.
All the analyses to test phylogenetic hypotheses (based on single genes or concatenated datasets) were performed under Maximum Likelihood and Bayesian approaches. To root the phylogenetic trees, I chose the available taxon (or taxa) most closely related to the respective studied group as outgroups. For the general tree of Paraguayan Squamata, based on barcodes of 16S, I chose Sphenodon punctatus.
I generated a total of 142 sequences of 64 species of Squamata from Paraguay (Appendix I). The final alignment of 615 bp comprised 249 samples. The best substitution model for the Barcoding dataset based on the gene 16S was GTR+G, according to the BIC.
To complement molecular evidence generated with the ML grouping of 16S barcodes, I took a morphological approach based on voucher specimens collected during fieldwork (usually the same specimens that I used for genetic analysis), supplemented by the revision of museum collections.
Summarizing my results, samples of Colobosaura exhibit large genetic distances, and accordingly I revalidated Colobosaura kraepelini (Appendix II). Tropidurus of the spinulosus group show two clades and among them there is little genetic and morphological variation, I synonymized T. tarara and T. teyumirim with T. lagunablanca, and T. guarani with T. spinulosus (Appendix III). I detected the presence of candidate species of Homonota, and I restricted the name H. horrida for Argentina, and described two new species of Homonota (Appendices IV and V), and a new species of Phyllopezus also in the Family Phyllodactylidae (Appendix VI).
In this work I present the most comprehensive analysis of genetic samples of Squamata from Paraguay. The results obtained here will be useful to help to clarify further taxonomic issues regarding the squamate fauna from the central region of South America. Moreover, the data generated for this study will have a positive impact in a larger geographic context, beyond Paraguayan borders.
Regarding the conservation of the Paraguayan reptiles, and considering the taxonomic changes accomplished here, it is important to note that many species lack legal protection. In Paraguay, the major problem for conservation is habitat loss due to extensive crop farming. Thus, currently, the protected areas are the best strategy for conservation of biodiversity in the country. However, many such areas face legal problems (e.g., lack of official measurements, management plans, forest guards, infrastructure, etc.) so that the maintenance of their biodiversity over time is not guaranteed.
In conclusion, in this study I present contributions on the taxonomy of mostly lizards from Paraguay. Due to lack of samples, I was not able to deal with a deep taxonomic revision of the country's snakes. Based on my results, I can argue that analyses of Xenodontini and Pseudoboini are currently a pressing research issue. This barcoding project may continue since some colleagues in Paraguay are interested in collaboration. Given that the sequenced specimens are yet a small portion of the actual diversity of Paraguay, it will be of utmost importance to continue and expand these studies that will further improve our taxonomic knowledge. Furthermore, it is desirable to have Paraguayan scientists not only involved, but to see them taking the lead of high quality taxonomic research.
Background: Molecular hydrogen (H2) is an attractive future energy carrier to replace fossil fuels. Biologically and sustainably produced H2 could contribute significantly to the future energy mix. However, biological H2 production methods are faced with multiple barriers including substrate cost, low production rates, and low yields. The C1 compound formate is a promising substrate for biological H2 production, as it can be produced itself from various sources including electrochemical reduction of CO2 or from synthesis gas. Many microbes that can produce H2 from formate have been isolated; however, in most cases H2 production rates cannot compete with other H2 production methods.
Results: We established a formate-based H2 production method utilizing the acetogenic bacterium Acetobacterium woodii. This organism can use formate as sole energy and carbon source and possesses a novel enzyme complex, the hydrogen-dependent CO2 reductase that catalyzes oxidation of formate to H2 and CO2. Cell suspensions reached specific formate-dependent H2 production rates of 71 mmol g protein −1 h−1 (30.5 mmol g CDW −1 h−1) and maximum volumetric H2 evolution rates of 79 mmol L−1 h−1. Using growing cells in a two-step closed batch fermentation, specific H2 production rates reached 66 mmol g CDW −1 h−1 with a volumetric H2 evolution rate of 7.9 mmol L−1 h−1. Acetate was the major side product that decreased the H2 yield. We demonstrate that inhibition of the energy metabolism by addition of a sodium ionophore is suitable to completely abolish acetate formation. Under these conditions, yields up to 1 mol H2 per mol formate were achieved. The same ionophore can be used in cultures utilizing formate as specific switch from a growing phase to a H2 production phase.
Conclusions: Acetobacterium woodii reached one of the highest formate-dependent specific H2 productivity rates at ambient temperatures reported so far for an organism without genetic modification and converted the substrate exclusively to H2. This makes this organism a very promising candidate for sustainable H2 production and, because of the reversibility of the A. woodii enzyme, also a candidate for reversible H2 storage.
Hydrogenation of CO₂ at ambient pressure catalyzed by a highly active thermostable biocatalyst
(2018)
Background: Replacing fossil fuels as energy carrier requires alternatives that combine sustainable production, high volumetric energy density, easy and fast refueling for mobile applications, and preferably low risk of hazard. Molecular hydrogen (H2) has been considered as promising alternative; however, practical application is struggling because of the low volumetric energy density and the explosion hazard when stored in large amounts. One way to overcome these limitations is the transient conversion of H2 into other chemicals with increased volumetric energy density and lower risk hazard, for example so-called liquid organic hydrogen carriers such as formic acid/formate that is obtained by hydrogenation of CO2. Many homogenous and heterogenous chemical catalysts have been described in the past years, however, often requiring high pressures and temperatures. Recently, the first biocatalyst for this reaction has been described opening the route to a biotechnological alternative for this conversion.
Results: The hydrogen-dependent CO2 reductase (HDCR) is a highly active biocatalyst for storing H2 in the form of formic acid/formate by reversibly catalyzing the hydrogenation of CO2. We report the identification, isolation, and characterization of the first thermostable HDCR operating at temperatures up to 70 °C. The enzyme was isolated from the thermophilic acetogenic bacterium Thermoanaerobacter kivui and displays exceptionally high activities in both reaction directions, substantially exceeding known chemical catalysts. CO2 hydrogenation is catalyzed at mild conditions with a turnover frequency of 9,556,000 h−1 (specific activity of 900 µmol formate min−1 mg−1) and the reverse reaction, H2 + CO2 release from formate, is catalyzed with a turnover frequency of 9,892,000 h−1 (930 µmol H2 min−1 mg−1). The HDCR of T. kivui consists of a [FeFe] hydrogenase subunit putatively coupled to a tungsten-dependent CO2 reductase/formate dehydrogenase subunit by an array of iron–sulfur clusters.
Conclusions: The discovery of the first thermostable HDCR provides a promising biological alternative for a chemically challenging reaction and might serve as model for the better understanding of catalysts able to efficiently reduce CO2. The catalytic activity for reversible CO2 hydrogenation of this enzyme is the highest activity known for bio- and chemical catalysts and requiring only ambient temperatures and pressures. The thermostability provides more flexibility regarding the process parameters for a biotechnological application.
Regulation of protein turnover allows cells to react to their environment and maintain homeostasis. Proteins can show different turnover rates in different tissue, but little is known about protein turnover in different brain cell types. We used dynamic SILAC to determine half-lives of over 5100 proteins in rat primary hippocampal cultures as well as in neuron-enriched and glia-enriched cultures ranging from <1 to >20 days. In contrast to synaptic proteins, membrane proteins were relatively shorter-lived and mitochondrial proteins were longer-lived compared to the population. Half-lives also correlate with protein functions and the dynamics of the complexes they are incorporated in. Proteins in glia possessed shorter half-lives than the same proteins in neurons. The presence of glia sped up or slowed down the turnover of neuronal proteins. Our results demonstrate that both the cell-type of origin as well as the nature of the extracellular environment have potent influences on protein turnover.