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Photorhabdus and Xenorhabdus are Gram-negative, entomopathogenic bacteria, living in endosymbiosis with the soil-dwelling nematode of the genera Steinernema and Heterorhabditis. The life cycle of these nematodes consists of non-feeding infective juvenile (IJ) stage, which actively searches for insects in the soil. After penetrating the insect prey, Photorhabdus and Xenorhabdus bacteria are released from the nematode gut. The bacteria proliferate and produce toxins to kill the insect. Photorhabdus and Xenorhabdus support nematode development throughout the life cycle and to get rid of food competitors by providing a wide variety of specialized metabolites (SMs). However, little is known about which SMs function as so called “food signals” to trigger the development process.
The IJs develop into adult, self-fertilizing hermaphrodites in a process called recovery, while feeding on cadaver and bacterial biomass. Heterorhabditis and Steinernema proceed to breed until nutrients are exhausted. Next generation IJs (NG-IJs) develop and leave the cadaver to search for another insect prey.
Photorhabdus and Xenorhabdus can be cultivated in defined medium under laboratory conditions. By placing IJs on a plate containing their respective bacterial symbiont, the complete life cycle of the nematodes can be observed in vitro. The in vitro nematode bioassay was used as a tool to investigate the development of the nematode.
The aim of this study was to find the food signals responsible for nematode development. Different Photorhabdus deletion strains unable to produce one or several SMs were co-cultivated with nematodes in the nematode bioassay. Subsequently, two aspects of the life cycle were investigated: recovery and NG-IJ development.
As isopropyl stilbene (IPS) is postulated to function as a food signal to support nematode recovery, it was used as a starting point for investigations. This study was focused on the biosynthetic pathway of IPS, including intermediates, side products and derivatives to investigate which one is in fact responsible for supporting nematode development.
The biosynthesis of IPS requires two precursors, phenylalanine and leucine (Figure 5). The first topic was focused on the phenylalanine derived pathway. Photorhabdus laumondii deletion mutants, defective in intermediate steps of this pathway, were created. The deletion of the genes coding for the phenylalanine ammonium lyase (stlA), converting phenylalanine into cinnamic acid (CA), the coenzyme A (CoA) ligase (stlB) and the operon coding for a ketosynthase and aromatase (stlCDE), were used. These strains were used for nematode bioassay including complementation of mutant phenotypes by feeding experiments. Recovery of nematodes grown on the deletion strains was always lower than recovery of nematodes grown on wild type bacteria. Feeding IPS to a deletion strain did not restore wild type level nematode recovery, thus IPS cannot be the food signal. Instead, the food signal must be another compound derived from this part of biosynthetic pathway. Lumiquinone and 2,5-dihydrostilbene are suggested to function as food signals and need to be investigated in future work.
The second part of this study was focused on the leucine derived pathway, which involved the Bkd complex forming the iso-branched part of IPS. A deletion of bkd was created and phenotypically analysed, subsequently performed with the nematode bioassay. Not only IPS but also other branched SMs, like photopyrones and phurealipids are synthetised by the Bkd complex. Deletions strains defective in producing photopyrones and phurealipids were also performed in nematode bioassays to investigate effects of these SMs individually. Branched SMs did not have an impact on nematode development, but nematodes grown on the ΔbkdABC strain showed a reduced nematode recovery and almost diminished NG-IJs development. As the Bkd complex also produces branched chain fatty acids (BCFAs), feeding experiments were performed with lipid extracts of wild type and mutant strain. All lipid extracts improved recovery, but only wild type lipids could complement NG-IJ development. This strongly indicates that BCFAs play an important role in NG-IJ development, which needs to be proven with purified BCFA feeding. This is an interesting finding, which could improve nematode production for biocontrol agent usage.
The role of IPS derived to epoxy stilbene (EPS) for nematode development, was another focus in the nematode life cycle. Recently it was demonstrated that EPS does not support nematode development. However, EPS forms adducts with amino acids. In my thesis, novel adducts containing the amino acid phenylalanine or a tetrapeptide were characterized. Another adduct, most likely being an EPS dimer, was also characterized. The biological role of such adducts was discussed to be potentially important for insect weakening and the structure of the novel compounds need to be structure elucidated and tested for bioactivity.
Amphibians have existed on the planet for over 300 million years and are today one of the most diverse vertebrate classes in the world with over 7000 known species and still many more to be discovered. However, several studies assume that approximately one third of the world´s known living amphibians are directly threatened with extinction, making it the most endangered vertebrate class. In relation to the relatively small land mass that is occupied by the state of Panama, it supports one of the most diverse amphibian faunas. However, in many cases the ecological role of single species in a wider context and their habitat preferences are still poorly understood and subject to ongoing research. Modern taxonomic approaches in other tropical regions have shown that former assumptions of amphibian diversity were distinct underestimations of the actual species diversity; a situation that is probably also true for Panama. Concurrently, the collection of amphibian diversity data and the description of new species is a race against time. The amphibian fauna of the world and that of Panama in particular, has suffered from an unprecedented loss of diversity over the last 30 years. The reasons are manifold and include destruction, alteration, and fragmentation of their natural habitats as the main causes, but also the deadly amphibian disease chytridiomycosis caused by the fungal pathogen Batrachochytrium dendrobatidis (Bd). In Panama and Costa Rica, this Emerging Infectious Disease (EID) spread in a wave-like manner from west to east causing mass die-offs and reduced amphibian diversity even in well-preserved habitats. The disease has primarily affected stream-associated highland species. The last large-scale evaluation of the conservation status of Panama´s amphibians through the IUCN Red List of Threatened Species in 2004 concluded that approximately 30% of the known species are acutely threatened with extinction. Furthermore, around 17% of the amphibian species that have been known back then lacked adequate data to be assessed. In view of Panama´s already overwhelming amphibian diversity, as well as the variety of habitats and the large number of sites that have not been examined with regard to amphibians before, I started this study with the conviction that the inventory of Panama´s amphibian diversity is far from being completed. Furthermore, when I started this study, it was uncertain if there would be any surviving amphibian species in areas where chytridiomycosis had emerged. The loss of whole amphibian communities in upland western Panama following Bd arrival led to a shift of amphibian research to lowland sites in central and eastern Panama aiming primarily on pathogen arrival and the documentation of epizootic outbreak and subsequent population decline. The situation of amphibian communities in areas post-decline was therefore largely unknown. Accordingly, the main goals of my study were to add to the taxonomic inventory of amphibians in Panama and to assess the situation of amphibian populations in habitats where chytrid-driven declines have been observed. To address these tasks I conducted fieldwork in western Panama with a focus on mountainous elevations between 1000 and 3475 m asl. Additionally, I visited different lowland sites between sea level and 1000 m asl to collect comparative material. In the period between 2008 and 2013, I conducted five collection trips to Panama that add up to a total of approximately 13 months in the field. I have sampled nine regions in western Panama and collected 767 specimens together with student collaborators, 531 of which were collected under my personal field number. Additional data obtained from those specimens include 68 male anuran call recordings, 102 standardized color descriptions of specimens in life, and 259 tissue samples that to date yielded 185 16S mtDNA sequences. This comprises the most comprehensive data set for amphibians of Panama and the first large-scale DNA barcoding approach for western Panama to date. After a preliminary DNA barcoding and subsequent comparative examination of morphological und bioacoustic data of all specimens collected, the number of taxonomic problems that needed to be addressed was higher than I previously anticipated. For most genetic lineages deeper taxonomic analyses were required to reach conclusive results. A selection had to be made with which lineages to proceed in the analyses, in view of the substantial financial and time expenditure that would be needed for a complete taxonomic revision. Therefore, I chose to run deeper analyses on one genus from each of the three amphibian orders in Panama. The genera selection depended largely on the availability of sufficient material and the scientific relevance of the respective genus.
I selected the genus Diasporus from the order Anura. These small frogs are omnipresent in many habitats and thus relatively easy to find. In addition, the genus is underrepresented in taxonomic studies. This is the first taxonomic study on the genus Diasporus to include a molecular phylogeny and the first comparison of advertisement calls between several populations from western Panama. In total, I collected 67 Diasporus specimens throughout western Panama and compared them morphologically with 49 additional specimens from Central America in collections, including the primary types of D. diasporus and D. hylaeformis. Additional comparative data were taken from literature. The DNA barcoding analysis of a fragment of the 16S rRNA gene included 43 own sequences that were complemented with 15 relevant GenBank sequences. In addition, I compared the advertisement calls of 26 male individuals among each other and with call descriptions from the literature. The DNA barcoding approach revealed several unnamed genetic lineages, but in some cases also resulted in the lumping of morphologically and bioacoustically distinct specimens. Generally, the morphological examination of the collected material revealed almost no specific characters that could be used to distinguish between genetic lineages. However, it was possible to identify species using a combination of several morphological characteristics. Which ones are relevant in the individual case depends on the respective species. My extensive collection of call recordings made it possible to test for the first time the intraspecific call variation of D. hylaeformis in dependency of various parameters. This analysis showed that the dominant frequency depends significantly on the body size of the calling male; the smaller the calling male, the higher the frequency of the call. A similar relationship was observed between the call rate and temperature: the lower the temperature during calling, the lower the call rate. I suppose that these general patterns, which have already been observed in other anuran genera, are also true in other Diasporus species that could not be tested in this study. Taking into account the intraspecific variation of Diasporus advertisement calls, I consider comparative call analyses to be the best way to distinguish between species. This is especially true in syntopic species. Integration of the three lines of evidence (i.e., morphology, DNA barcoding, and bioacoustics) led to the identification of four new species, two of which (i.e., D. citrinobapheus and D. igneus) colleagues and I have already formally described.
I conducted an integrative taxonomic analysis of the western Panamanian representatives of the genus Bolitoglossa from the order Caudata, the larger of the two Panamanian salamander genera. Bolitoglossa is very species-rich with a centre of diversification in the high mountains of Costa Rica and western Panama. I collected 53 Bolitoglossa specimens and compared them to twelve specimens in collection, including the holotype and one paratype of B. gomezi. The dataset was complemented with information from the literature. Among the sampled specimens were two species considered to be endangered that have not been collected or observed for several decades; B. magnifica has not been seen for 34 years and B. anthracina has not been seen for 22 years. Further, I collected salamanders at several new locations. To date, my 16S mtDNA barcoding analysis represents the densest taxon sampling for Panamanian Bolitoglossa composed of 21 own sequences that were combined in the final alignment with 47 GenBank sequences. Even though the molecular phylogeny is based only on a single marker, the received trees largely coincide with previous studies and the nodes received high statistical support. In these trees, I retrieve all previously defined subgenera and species groups. On the basis of this molecular phylogeny, I placed B. anthracina, here sequenced for the first time, in the B. subpalmata species group. Due to the fact that B. anthracina is a large and dark colored species it had previously been placed by implication in the B. schizodactyla species group along with other large black salamanders of the B. nigrescens species complex. Moreover, I found deep divergent genetic lineages among geographically separated populations of B. minutula. However, until now there were no additional morphological characteristics detectable to distinguish between these lineages. Additionally, my colleagues and I described a new deep divergent lineage in the B. robinsoni species group as B. jugivagans, a species new to science. In contrast, I found only minor genetic differences between specimens of B. sombra and B. nigrescens. After combining morphometric data and tooth counts from literature of both species with additional data from specimens of B. sombra that I collected near the type locality, the distinguishing features blurred. In particular, including much larger specimens of B. sombra, not yet known at the time of its description, showed that the tooth count difference is dependent on the size and age of the specimen examined. Larger specimens have more maxillary and vomerine teeth. Based on this evidence I regard B. sombra as a junior synonym of B. nigrescens. Further, I revised the Panamanian distribution of the two relatively common lowland salamanders, B. colonnea and B. lignicolor. Besides filling the gaps in the fragmentary known distributions of these species, I assessed the molecular and morphological variation of both species among populations in Panama. While there was little variation in B. lignicolor, I found divergent genetic lineages among geographically distinct populations of B. colonnea that require further taxonomic examination.
Caecilians (order Gymnophiona) are among the least investigated terrestrial vertebrates. After I received a first specimen of the predominantly South American genus Oscaecilia (family Caeciliidae) in western Panama, I started to work more extensively on the taxonomy of Caeciliidae in Central America. The specimens from western Panama were not readily assignable to a single described species, but shared characters with O. elongata and O. osae. While O. osae was only known from the holotype, the type material of O. elongata was destroyed during World War II. On the basis of the original description, the unique feature in O. elongata within Oscaecilia is the absence of subdermal scales in the posterior part of the body. In a referred specimen of O. elongata mentioned in the original description from eastern Panama, this characteristic cannot be examined as it consists of head and neck only. Therefore, I used non-destructive high-resolution, synchrotron-based X-ray micro CT imaging (HRμCT) to examine cranial characters in the specimens in question and took normal radiographs to count vertebrae and to make subdermal scales visible. I found that the fragmented specimen from eastern Panama likely belongs to the well-sampled species O. ochrocephala and has not much in common with O. osae or the specimens from western Panama. Contrarily, O. osae and the specimens from western Panama share many morphological characters, but also show some differences. Genetic barcoding revealed that both species are close relatives, but the genetic distance could not be finally resolved, because 16S sequences obtained from blood samples of living O. osae were of poor quality. Thus, I compare the Oscaecilia from western Panama to O. osae in this study, but postpone a taxonomic decision until further material becomes available. Further, I designate O. elongata a nomen dubium, because the type material is lost, the type locality is not defined in more detail than “Panama”, and the original description does not allow for a definite assignment. Since previous molecular studies only considered O. ochrocephala, the monophyly of Oscaecilia was never tested before. So far, the genus Oscaecilia is based largely on a single cranial character, the eyes covered with bone. Here, I combined two 16S mtDNA sequences of O. osae from Costa Rica and two sequences from O. sp. from western Panama with two sequences of O. ochrocephala and ten sequences of four species of the genus Caecilia, the sister genus of Oscaecilia. The resulted phylogeny contains two well-supported clades, one clade containing two species of Caecilia, one from Panama and one from western Ecuador and all species of Oscaecilia tested. The other clade consists of two species of Caecilia from the Amazon basin. I therefore assume that the split in both clades is due to the rise of the Andes, what led to today’s cis-trans-Andean distribution of the two clades. For now, to restore monophyly, I suggest to place Oscaecilia within the synonymy of Caecilia until more taxa have been tested. When assessing the conservation status of the amphibian species in mountainous western Panama, I first compiled a list of known species that I potentially could have found during my fieldwork. Using the IUCN categories, I analyzed how many of the endangered species I actually found and how these are distributed over families and species groups. Surprisingly, my rediscoveries of lost species were not equally distributed among the four families that comprise most endangered amphibian species (i.e., Bufonidae, Craugastoridae, Hylidae, and Plethodontidae). While I discovered ten of eleven endangered hylids and six of nine endangered plethodontids, I found only one of four endangered bufonids and none of the nine endangered craugastorids. I assume that the secretive living plethodontids, for which no Bd related declines have been documented, were just overlooked in the past decades. In contrast, I propose that hylids, in which Bd related population decline is well documented, developed distinct evolutionary solutions permitting coexistence with the pathogen. The situation is obviously different in bufonids and craugastorids, where I found no signs of population recoveries at present. So far, the only surviving populations of species from these families exist in climatic or physiographic niches that have probably shielded them from Bd. My data confirm the current view that the risk for naïve amphibian populations to decline during Bd epizootics is predicted by ecological traits (e.g., aquatic index, vertical distribution) and not dependent on taxonomic affiliation. However, I propose that only certain amphibian families (e.g., hylids and centrolenids) have the ability to acquire immunity solutions to coexist with the pathogen during enzootic stages. This is a very new perspective on the worst infectious disease in amphibians worldwide, allowing for new research approaches to understand the host-pathogen dynamics. Moreover, I examined where the share of surviving endangered amphibian species is particularly high in mountainous western Panama. As was to be expected, most of the endangered species are found within the boundaries of protected areas. One exception is the unprotected Cerro Colorado region in the Comarca Ngöbe-Buglé that provides habitat for a wide variety of endangered and undiscovered amphibian species. Nonetheless, planned open pit mining would destroy the forests in a large part of the area. This demonstrates once again that human activities are the biggest threat to amphibians in Panama and elsewhere.
Die 5-Lipoxygenase (5-LO) ist das Schlüsselenzym in der Biosynthese proinflammatorischer Leukotriene, die maßgeblich an der Entstehung allergischer und entzündlicher Erkrankungen wie Arthritis, Asthma und kardiovaskulären Erkrankungen beteiligt sind (23). Humane 5-LO besteht aus 673 Aminosäuren und besitzt ein Molekulargewicht von 77,8 kDa (25). Das Protein besteht aus einer größeren katalytischen Domäne, die ein zentrales Eisen(II)-Atom enthält, dass für die zweistufige LTA4-Bildung aus Arachidonsäure benötigt wird, und einer kleineren C2-ähnlichen Domäne, die Bereiche für die Membran- sowie Ca2+-Bindung enthält. Durch Stimulation von intakten Zellen kommt es zu einer Translokation der 5-LO an die Kernmembran. Die Wechselwirkung mit dem membranständigen FLAP fördert die 5-LO-Leukotrienbildung. Die vorliegende Arbeit beschäftigte sich mit niedermolekularen Modifikationen der 5-LO durch U-73122 und Glutathion sowie mit der Charakterisierung von 5-LO-Inhibitoren. U-73122 ist ein Inhibitor, der in vitro und in vivo mit einem IC50-Wert von 30 nM bzw. 2,4 µM die 5-LO-Aktivität hemmt (2). U-73122 verfügt über eine thiol-reaktive Maleinimid-Gruppe, wodurch die Substanz kovalent an einige 5-LO-Cysteine (Cys-99, -159 und weitere) binden kann. Entsprechende U-73122-5-LO-Peptide konnten nach Trypsin-Verdau der 5-LO mit MALDI-MS-Messungen nachgewiesen werden. Für diesen Zweck musste eine effiziente Aufreinigung für native 5-LO (Reinheit > 95%) entwickelt werden. Um die Veränderung der 5-LO-Aktivität nach U-73122-Zugabe zu untersuchen, wurden Cystein/Serin-5-LO-Mutanten hergestellt. Es konnte festgestellt werden, dass die Mutante C416S-5-LO nicht mehr effektiv durch U-73122 gehemmt werden konnte. Daher ist anzunehmen, dass U-73122 an Cystein-416 der 5-LO bindet und die 5-LO-Produktbildung hemmt. Auf der 5-LO-Oberfläche kann ein Bereich lokalisiert werden, der einen Zugang für das Substrat zum aktiven Zentrum der 5-LO bilden könnte (238,239). Dieser Bereich liegt in unmittelbarer Nähe zu Cystein-416. Daher besteht die Möglichkeit, dass U-73122, nachdem es an Cystein-416 gebunden hat, diesen Bereich hemmend beeinflussen kann. Es konnte nachgewiesen werden, dass Glutathion an mehrere Cysteine der 5-LO (Cystein-99, -264 und -449) kovalent binden kann. Um Veränderungen der 5-LO-Aktivität durch in vivo Glutathionylierungen zu zeigen, wurden HeLa-Zellen mit 5-LO, Cystein-/Serin-5-LO-Mutanten sowie FLAP transfiziert und mit Diamid inkubiert. Es konnte festgestellt werden, dass die native sowie FLAP-gesteigerte 5-LO-Produktbildung durch Diamid gehemmt wird. Dies konnte ebenfalls für die Mutante 3W-5-LO beobachtet werden. Zusätzlich wurden verschiedene Cystein-/Serin-5-LO-Punktmutanten sowie eine 4fach Mutante (C159S/C300S/C416S/C418S-5-LO = 2D-5-LO) untersucht. Das Verhalten dieser Mutanten konnte in drei Gruppen eingeteilt werden. Gruppe A (C159S-, C300S- und C418S-5-LO) wurde durch Diamid nicht beeinflusst. Gruppe B (C416S- und 2D-5-LO) zeigte eine sehr starke Stimulation der 5-LO±FLAP-Leukotrienbildung nach Zugabe von Diamid. Bei Gruppe C (C99S-, C264S- und C449S-5-LO) konnte eine FLAP-gesteigerte 5-HETE-Bildung beobachtet werden. Durch Diamid kommt es zu Glutathionylierungen von zellulären Proteinen, da reduziertes Glutathion (GSH) zu reaktiveren oxidierten Glutathion (GSSG) umgesetzt wird. An der 5-LO-Oberfläche können in Folge an verschiedenen Cysteinen Glutathione binden. Durch die Glutathion-Bindung wird eine stark polare Struktur auf der 5-LO-Oberfläche eingebracht. Dadurch kommt es zu einer verminderten Membranbindung und Produktbildung der nativen 5-LO. Die 5-LO-Oberfläche der 2D-5-LO-Mutante kann an verschiedenen Positionen keine Glutathione mehr binden, es kommt es zu einer stärkeren Wechselwirkung mit Membranbestandteilen und zu einer erhöhten 5-LO-Leukotrienbildung. Für Celecoxib konnte gezeigt werden, dass neben der COX2-Hemmung auch die 5-LO-Aktivität mit einem IC50-Wert von 3-10 µM gehemmt werden kann (268). Im Rahmen dieser Arbeit wurden HeLa-Zellen mit 5-LO±FLAP transfiziert, um den Einfluss von Celecoxib auf FLAP zu untersuchen. Celecoxib führt zu einer direkten Hemmung der 5-LO. ML3000 (Licofelon) wurde als dualer COX/5-LO-Inhibitor entwickelt und hemmt die 5-LO-Aktivität in intakten Zellen, aber nicht im Homogenat. Daher wurden Versuche mit 5-LO±FLAP-tranfizierten HeLa-Zellen durchgeführt, um den Einfluss von ML3000 auf die FLAP-gesteigerte 5-LO-Leukotrienbildung zu zeigen. Aus diesen und weiteren Ergebnissen unserer Arbeitsgruppe konnte gefolgert werden, dass ML3000 ein FLAP-Inhibitor ist (277). Garsubellin A ist strukturverwandt zu Hyperforin, einem dualen COX/5-LO-Inhibitor (204). Garsubellin A hemmt die 5-LO-Aktivität im Homogenat von PMNL und am gereinigten Enzym mit einer IC50 von 10-30 µM. Verbindungen, die den Bicyclo[3.3.1]nonan-Grundkörper des Garsubellin A und Hyperforin enthalten, wurden auf ihr inhibitorisches Potential getestet. Es konnte gezeigt werden, dass der Bicyclo[3.3.1]nonan-Grundkörper alleine nicht für eine 5-LO-Hemmung ausreicht, sondern eine freie Carbonsäure sowie eine bis zwei Prenylierungen vorliegen müssen, um eine 5-LO-Hemmung zu erzielen. Sind diese Voraussetzungen vorhanden, wird die 5-LO-Aktivität in intakten PMNL mit einer IC50 von 10 µM und an gereinigter 5-LO mit 0,3-1 µM gehemmt.
Inhibition des Stat3-Signalweges durch Peptid-Aptamere : ein neuer Ansatzpunkt für die Tumortherapie
(2004)
In der vorliegenden Arbeit konnten durch den Einsatz modifizierter Hefe-zwei-Hybrid-Screens erstmals Peptid-Aptamere isoliert werden, die spezifisch mit verschiedenen funktionellen Domänen von Stat3 interagieren und dadurch den Stat3-Signalweg auf unterschiedlichen Ebenen inhibieren. Als Zieldomänen im Hefe-zwei-Hybrid-System wurden die Dimerisierungs- bzw. die DNA-Bindedomäne von Stat3 verwendet. Nach der erfolgreichen Identifikation von Peptid-Aptameren im modifizierten Hefe-zwei-Hybrid-System war es zunächst notwendig, die spezifische Interaktion der isolierten Peptid-Aptamere mit Stat3 zu demonstrieren. Die in vitro Interaktion der isolierten Peptid-Aptamere mit dem gesamten Stat3-Molekül wurde in Ko-Immunopräzipitationsexperimenten gezeigt. Im Folgenden bestätigte sich die spezifische Interaktion der isolierten Peptid-Aptamere mit ihren jeweiligen funktionellen Domänen von Stat3 in Hefen mittels Mating-Experimenten. In den nächsten Schritten sollte die Bioaktivität der isolierten Peptid-Aptamere bei der Inhibition des Stat3-Signalweges in verschiedenen Zellsystemen validiert werden. Zunächst konnten in Herc-Zellen, die den Stat3-Signalweg nach exogenem Stimulus (EGF) aktivieren, die molekularen Wirkungs-mechanismen, die der Inhibition des Stat3-Signalweges durch die Peptid-Aptamere zugrunde liegen, aufgeklärt werden. Durch den Einsatz eines biochemisch-molekularbiologischen Methodenrepertoires (Western Blot Analysen, Reportergen-Analysen, und Gelretardierungsexperimente) zeigte sich, dass die verschiedenen selektionierten Peptid-Aptamere mit dem Aktivierungsszenario des Stat3-Signalweges auf zwei unterschiedlichen Ebenen, der Phosphorylierung bzw. der DNA-Bindung von Stat3, interferieren. Um die mögliche Anwendung der isolierten Peptid-Aptamere als potentielle Stat3-Inhibitoren in Tumorerkrankungen zu analysieren, wurden die Untersuchungen auf Tumorzelllinien mit konstitutiv-aktivem Stat3 (murine Melanomazelllinie B16 und humane Myelomazelllinie U266) ausgeweitet. Durch die zelluläre Applikation der für die isolierten Peptid-Aptamere codierenden DNA mittels Transfektion ergaben sich erste Einblicke über den Einfluss der isolierten Peptid-Aptamere auf die transkriptionelle Aktivität von Stat3. In weiteren Untersuchungen konnte eindrucksvoll gezeigt werden, dass durch die transiente Expression eines Peptid-Aptamers (DBD-1) Apoptose in murinen Melanomazellen induziert wird. Die biologische Aktivität des DBD-1 Peptid-Aptamers wurde dann mit Hilfe einer innovativen Methode zur zellulären Applikation von potentiell wirksamen Bio-Molekülen in eukaryotische Zellen studiert. Dabei konnte im Rahmen der vorliegenden Arbeit die Methode der Proteintransduktion für die Applikation von Peptid-Aptameren etabliert werden. Durch den Einsatz der Proteintransduktion ließ sich die Funktionalität des isolierten DBD-Peptid-Aptamers nicht nur in murinen, sondern auch in humanen Stat3-abhängigen Tumorzellen verifizieren. Dabei konnte auch eine Dosis-Wirkungsbeziehung zwischen der Überlebensrate von Stat3-abhängigen Tumorzellen und der Menge an applizierten Peptid-Aptamer hergestellt werden. Darüber hinaus demonstrieren weitere Ergebnisse, dass das DBD-1 Peptid-Aptamer keinen Einfluss auf die Überlebensrate von nicht-Stat3-abhängigen Tumorzellen hat, wodurch die hohe Spezifität des DBD-1 Peptid-Aptamers bestätigt wird. Zusätzlich zu diesen funktionellen Analysen konnte der durch das Peptid-Aptamer induzierte Signalweg, der die Einleitung des programmierten Selbstmordes der Stat3-abhängigen Tumorzellen auslöst, charakterisiert werden. Die vorliegenden Daten zeigen zudem die Funktionalität der rekombinant exprimierten Peptid-Aptamere fusioniert mit einer Proteintransduktionsdomäne in einem in vivo Tumormodell in der Maus. Für diesen tierexperimentellen Ansatz fanden B16-Tumorzellen Verwendung, die nach subkutaner Injektion in Mäusen lokale Tumore bilden. In diesem Tumormodell wurde mittels intratumorale Injektion des transduzierbaren DBD-Peptid-Aptamers ein viel versprechender, wachstumshemmender Effekt auf Tumorzellen erzielt. Die Ergebnisse der vorliegenden Arbeit belegen, dass Stat3 ein ideales Zielprotein für die Entwicklung neuer Tumortherapeutika ist. Dabei stellt nicht nur die Dimerisierungsdomäne, sondern auch die DNA-Bindungsdomäne ein attraktives Ziel für die Inhibition des Transkriptionsfaktors Stat3 dar. Die viel versprechenden Daten sowohl an Tumorzellen als auch im Gesamtorganismus des Maustumormodells, verbunden mit der hier herausgearbeiteten innovativen Applikationstechnik, lassen auf einen Einsatz der isolierten Peptid-Aptamere in der Tumortherapie hoffen. Zudem eröffnen die Daten zur Protein-transduktion von Peptid-Aptameren neue Perspektiven für die Applikation von Bio-Molekülen mittels „Protein-Therapie“ in der molekularen Bio-Medizin.
Die phylogenetisch hochkonservierte Jak/Stat‐Signaltransduktionskaskade repräsentiert eines der zentralen Säulen zellulärer Signalübertragung eukaryotischer Organismen. Ubiquitär im Organismus exprimiert und über eine Vielzahl von Zytokinen, Hormonen und Wachstumsfaktoren aktiviert, sind Stat‐Transkriptionsfaktoren maßgeblich an dem Erhalt der Physiologie und Homöostase von Organen und Geweben beteiligt. So sind die Mitglieder Stat5A und Stat5B (als homologe Proteine im Verbund als Stat5 bezeichnet) entscheidende Regulatoren des Immunsystems und der Hämatopoese, der Funktion und Entwicklung des Prostata‐ und Brustdrüsengewebes (Mammogenese) oder bestimmter Funktionen der Leber. Wie auch Stat3, konnten Stat5 Proteine in aberrant aktiver Form in verschiedensten Typen und Stadien humaner Tumore nachgewiesen werden, wo sie über die Expression ihrer Zielgene sowie über weitere nicht‐kanonische Funktionen im Zytoplasma und im Zellkern einer fortschreitend malignen Entartung entscheidend beitragen. Als Folge der Unterstützung essentieller Tumorgenese‐
Mechanismen, wie gesteigertes Zellwachstum, Apoptosehemmung, Migration und Metastasierung, Sauerstoff‐unabhängiger Energiestoffwechsel, Angiogenese oder Umgehung der Immunabwehr, entwickeln Tumore häufig eine Abhängigkeit gegenüber der gesteigerten Aktivität dieser Vertreter der Stat‐Proteinfamilie und reagieren mit einem Wachstumsstopp und Apoptoseinduktion auf ihre Inhibierung. Perspektivisch stellt die gezielte Interferenz mit aberranten, Tumortyp‐spezifischen Stat5‐Aktivitäten einen relevanten Ansatz in der personalisierten Therapie Stat5‐abhängiger Tumore, vorrangig leukämischen Ursprungs, dar. ...
Taspase1 stellt die bisher einzige Typ2-Asparaginase mit proteolytischer Aktivität dar. Das wichtigste Substrat der Taspase1 ist das MLL-Protein, einem Homolog des Trithorax- Proteins aus Drosophila melanogaster, das auch dort eine wichtige Rolle bei Differenzierungsprozessen spielt. Bei Patienten mit einer t(4;11)-Translokation ist Taspase1 maßgeblich an der Ausbildung einer t(4;11)-assoziierten Leukämie beteiligt. Die Inhibierung der proteolytischen Aktivität der Taspase1 könnte daher einen Ansatzpunkt für eine neuartige Krebstherapie darstellen. Aufgrund der ungewöhnlichen Eigenschaften von Taspase1 ist es bisher nicht gelungen einen selektiven Inhibitor für das katalytische Zentrum der Taspase1 zu identifizieren. Unter nativen Bedingungen (ca. 50 mM NaCl) befindet sich Taspase1 bereits in einem nahezu vollständig inhibierten Zustand, da im katalytischen Zentrum der Taspase1 ein Chloridion komplexiert ist. Dieses Chloridion wird einzig und allein nach Interaktion mit dem natürlichen Substrat MLL aus dem katalytischen Zentrum verdrängt, was zu einer kurzfristigen Aktivierung der Taspase1 führt. Nach Ablauf der hydrolytischen Spaltung des Substrates nimmt das Chloridion wieder seine Position im katalytischen Zentrum ein. Unter diesen Bedingungen ist aus sterischen Gründen die Bindung eines potentiellen Inhibitors im katalytischen Zentrum nicht möglich. Durch Herstellung von Mutanten der Taspase1 und deren Substrats konnte der Mechanismus der katalytischen Spaltung durch Taspase1 aufgeklärt werden. Dabei erwiesen sich drei Aminoäuren als essentiell für die Hydrolyse. Interessanterweise ist die Anwesenheit des Substrates, insbesondere des Aspartates an Position Sieben der cleavage sites CS1 bzw. CS2 notwendig um den katalytischen Prozess zu starten. Das negativ geladene Aspartat, verdrängt zunächst das Chloridion von seiner Position und aktiviert dadurch das katalytische Zentrum (Rotation von Threonin 234). Erst dadurch wird Threonin 234 zu einer katalytisch aktiven Aminosäure und kann einen nukleophilen Angriff auf die Peptidbindung zwischen Aspartat und Glycin des Substrates durchführen. Die Hydrolyse wird dabei durch die OH-Gruppe des Serins 252 durch Wechselwirkung mit dem Carboxylsauerstoff unterstützt. Durch Mutation beider Aspartate an Position sieben im artifiziellen Substrat 2CL zu Glycin oder Lysin führte zu einem vollständigen Verlust der hydrolytischen Spaltung an CS1 und zu einem starken Rückgang der hydrolytischen Spaltung an CS2. Die Mutationen T234D und S252D der Taspase1 führten beide zum vollständigen Verlust der katalytischen Spaltung, sowohl in cis, als auch in trans. Unter Verwendung des Taspase1-Aktivitätsassays konnte der transkriptionelle Regulator MLL4 als potentielles Substrat der Taspase1 identifiziert werden.
Background. There is growing public and scientific concern about the occurrence of anthropogenic chemicals in the aquatic environment. Surface and groundwater serve as main drinking water resource. Especially in metropolitan areas these water reservoirs are impacted by organic pollutants predominantly originating from wastewater treatment plant (WWTP) effluents. The impact of wastewater derived anthropogenic chemicals is therefore related to environmental and human health concerns. In order to lower the potential environmental and human health risk from wastewater associated pollutants, strategies for enhanced pollutant removal are applicable in a medium-term perspective. Ozonation and powdered activated carbon treatment are the two advanced wastewater treatment technologies, which are technically mature as well as economically feasible for the application in large-scale wastewater treatment plants. While powdered activated carbon removes substances by adsorption, ozonation degrades a parent compound into oxidation products. Most of the available research has been done at lab-scale while onsite ecotoxicity tests and chemical analyses are rare.
Objectives. For a comparative evaluation of advanced wastewater treatments' potential to alter toxicity, a broad spectrum of ecotoxicological data need to be collected. The focus has been set on three major objectives: A) Evaluation of the endocrine activity; B) Evaluation of the unspecific toxicity; C) Evaluation of genotoxicity and mutagenicity.
Methods. The advanced treatment methods, ozonation and powdered activated carbon treatment of secondary wastewater effluents, – each equipped with subsequent sand filtration as additional post treatment step – were ecotoxico-logically characterized at a pilot-scale WWTP. For process control the elimination of 35 selected pharmaceuticals was identified by chemical analyses using HPLC-MS/MS.
The endocrine activity ((anti-)estrogenic, (anti-)androgenic, dioxin-like activity)) was characterized by yeast-based in vitro bioassays and cytotoxicity by cell based assays. Genotoxicity and mutagenicity was assessed using umuC'assay and Ames assay, respectively. All in vitro assays were performed using extracts of the wastewater samples. In vivo toxicity was assessed with the fish early life stage test with rainbow trout (Oncorhynchus mykiss). Ozonation was additionally assessed at a full-scale WWTP with in-vitro tests on endocrine activity and cytotoxicity and in vivo toxicity tests using five aquatic model organisms: Lemna minor, Daphnia magna, Chironomus riparius, Lumbriculus variegatus, Potamopyrgus antipodarum.
Results. In conventional activated sludge treated effluents the residual estrogenicity, antiandrogenicity, aryl hydrocarbon receptor agonistic activity and cytotoxicity were considerably reduced while antiestrogenicity was increased by both advanced treatment technologies. Ozonation led to an increase in genotoxic effects detected with Ames assay and with single cell gel electrophoresis of rainbow trout erythrocytes. Furthermore, mortality of rainbow trout was increased and reproduction of L. variegatus was decreased. Sand filtration lessened the genotoxic effects and adjusted reproduction of L. variegatus and mortality of rainbow trout to a similar level as conventional treatment.
Conclusions. This work demonstrates that conventional activated sludge treatment induces in vitro and in vivo toxicity. Advanced wastewater treatment combined with subsequent sand filtration can reduce in vitro and in vivo toxicity. An observed increase of endocrine activity after advanced wastewater treatment is an indication for different removal efficiencies of chemicals causing agonistic or antagonistic activity, respectively. Ozonation of wastewater generates ecotoxicity, which is largely removed by subsequent sand filtration. After a comprehensive investigation and after assurance of the removal of adverse effects, advanced treatment technologies could have beneficial effects on the ecological quality of the receiving water.
Savanna regions in West Africa are valuable cultural landscapes and provide a wide range of ecosystem services for human well-being and are frequently affected by human-induced disturbances. Aside from agricultural activities (crop production and animal husbandry), the harvesting of timber and non-timber forest products is crucial for household income, alimentation and medicinal purposes. Most indigenous woody species have undergone increasing anthropogenic pressure as social and economic conditions have changed dramatically during recent decades, resulting in further habitat fragmentation and increased disturbance severity. Human land use activities influence growth conditions for plants by altering various abiotic factors, such as light, nutrient availability and water supply. They are found to alter demographic parameters (e.g., germination, seedling and sapling growth, survival and mortality rates) of woody plant individuals and alter the structure and stability of populations. The degree of anthropogenic disturbance varies between land-cover types, distance to settlements, and protection status. In the context of land-use change, there is an urgent need to better understand and evaluate the impact of land-use on savanna vegetation, particularly on the population biology of common savanna woody species. A major conclusion to be drawn from this thesis is that land use influences savanna vegetation in a complex way and does not necessarily lead to a decline or loss of tree populations and species. It is rather that in a constantly changing landscape, as a result of human-induced disturbances, populations of ubiquitous and some common species can be stable over time. The abundance of some species tends to decline consistently, whereas others benefit from human disturbance. Moreover, the study provides an insight into the structure and dynamics of common, dominant and less dominant savanna woody plants in a communal and a protected area. There is a need for further basic studies to assess the impact of land use and ecological preferences of all species, including repeated density studies that look at survivorship and transition probabilities over a number of seasons as well as longterm in-situ experiments in settlement areas in order to better understand woody plant populations in settlement areas as the few remaining semi-natural sites are likely to decrease in the future. A challenge will be the development of strategies to protect species within a landscape under cultivation.
Sphingolipids are not only structural components of cell membranes but can also act as signalling molecules in different pathways. Sphingolipid precursors, Ceramides (Cer), are synthesized de novo by six different synthases (CerS1-6) which generate Cer of different chain lengths. Cer can be further synthesized to glycosphingolipids and sphingomyelin. Cell membrane parts that are enriched in glycosphingolipids are so-called lipid rafts and can function as signalling platforms for different receptors, such like the T cell receptor (TCR). CD4+ T cells play a crucial role in the development of ulcerative colitis, a chronic inflammatory disease of the colon. As CerS3 expression was increased in the white blood cells of human colitis patients, the role of CerS3 in the TCR signalling and colitis was investigated in this dissertation. By lenti-viral transduction of a CerS3-shRNA into a CD4+ Jurkat cell line, it was shown that CerS3 has an impact on activated T cells. A decrease of different sphingolipids after T cell activation via CD2/3/28 activation beads and IL2 treatment was observed that was accompanied by an inhibition of Zap70 phosphorylation, an important protein of the TCR signalling. The impaired TCR signalling led to a diminished NFAT1 translocation into the nucleus which subsequently led to a reduced NFAT1- dependent TNFα release. Downregulation of CerS3 in primary CD4+ T cells, obtained from the blood of healthy volunteers, also showed a reduced release of pro-inflammatory cytokines after activation. This dissertation demonstrates a pivotal role for CerS3 in T cell function and highlights CerS3 as potential new target for T cell driven colitis.
Light is one of the most important abiotic factors for plant physiological processes. In addition to light intensity, the spectral quality of light can also influence the plant morphology and the content of secondary metabolites. In the horticultural industry, artificial light is used in to enable year-round production of herbs, ornamental plants and vegetables in winter terms.
Until today, discharge lamps like high-pressure sodium (HPS) lamps, emitting predominantly orange and red light and high amounts of infrared radiation, are the most common lamp systems in greenhouses. In the last decades, light-emitting diodes (LEDs) emerged as an efficient alternative light source. LEDs have the advantage of distinct adjustments to the light spectrum. For a usage in horticultural industry LEDs are often too expensive. Furthermore, reduced plant growth can occur due to incorrectly adjusted light spectra and lower leaf temperatures caused by the lack of infrared radiation.
In a research project (LOEWE, funding no. 487/15-29) funded by the Hessen State Ministry of Higher Education, Research and Arts, Microwave plasma lamps (MPL) were tested as new light sources for horticultural industry and plant research. The electrodeless lamp systems emit light in similar properties like sun light. The aim of the study was to determine the influence of artificial sunlight of the MPL on the accumulation of secondary metabolites, plant architecture and plant physiology of three different species (coleus, basil and potted roses). The MPL was compared with other light systems such as commercial HPS lamps, LEDs or ceramic metal halide lamps (CDM). In addition to morphological parameters such as plant height, internode length or fresh and dry weight, the phenolic content of leaves grown under the respective light sources were examined.
Overall an increased far-red light content in the emission spectra of the MPL showed high influence on the plant architecture which was observed in all three plant species. Artificial sunlight from MPL induced stem elongation in coleus and basil plants, compared to the other tested light sources. In potted roses a reduced branching degree was observed under MPL light compared to HPS grown plants.
In addition to the impact of far-red light also the blue light content of the emission spectra was found to be a strong influencing factor for plant physiological processes. A positive correlation between blue light content and leaf thickness was determined in coleus cultivated under MPL, LED, HPS and CDM lamps. Low blue light content in HPS emission spectra resulted in shade-adapted leaves with low photosynthetic capacity and susceptibility to high irradiances. Blue light was assumed to increase phenolic metabolites in basil and rose leaves. Furthermore, the different light treatments resulted in an alteration of the composition of essential oils of basil.
Experiments with coleus plants demonstrated that besides light color also the infrared radiation, had an influence on secondary metabolites by causing different leaf temperatures. Coleus plants grown with MPL showed the lowest content of phenolic compounds such as rosmarinic acid per dry weight. Infrared radiation resulted in a faster plant development indicated by increased biomass production and higher leaf formation rate as observed in coleus and basil plants.
The results obtained in this study show that the influence of leaf temperature should always be considered when comparing different lamp systems. Especially when LEDs are compared to discharge lamps an overestimation of light color can be a consequence since also infrared radiation influences the content of phenolic compounds and plant growth.