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Switches in trypanosome differentiation: ALBA proteins acting on post-transcriptional mRNA control
(2011)
Trypanosoma brucei is a digenetic eukaryotic parasite that develops in different tissues of a mammalian host and a tsetse fly. It is responsible for sleeping sickness in sub-saharan Africa. The parasite cycle involves more than nine developmental stages that can be clearly distinguished by their general morphology, their metabolism and the relative positioning of their DNA-containing organelles. During their development, trypanosomes remain exclusively extracellular and encounter changing environments with different physico-chemical properties (nutritional availability, viscosity, temperature, etc.). It has been proposed that trypanosomes use their flagellum as a sensing organelle, in agreement with the established role of structurally-related cilia in metazoa and ciliates. Recognition of environmental triggers is presumed to be at the initiation of differentiation events, leading to the parasite stage that is the best suited to the new environment. These changes are achieved by the modification of gene expression programmes, mostly underlying post-transcriptional control of mRNA transcripts. We first demonstrate that the RNA-binding proteins ALBA3/4 are involved in specific differentiation processes during the parasite development in the fly. They are cytosolic and expressed throughout the parasite cycle with the exception of the stages found in the tsetse fly proventriculus, as shown by both immunofluorescence and live cell analysis upon endogenous tagging with YFP. Knock-down of both proteins in the developmental stage preceding these forms leads to striking modifications: cell elongation, cell cycle arrest and relocalization of the nucleus in a posterior position, all typical of processes acting in parasites found in the proventriculus region. When ALBA3 is over-expressed from an exogenous copy during infection, it interferes with the relocalization of the nucleus in proventricular parasites. This is not observed for ALBA4 over-expression that does not visibly impede differentiation. Both ALBA3/4 proteins react to starvation conditions by accumulating in cytoplasmic stress granules together with DHH1, a recognized RNA-binding protein. ALBA3/4 proteins also partially colocalize with granules formed by polyA+ RNA in these conditions. We propose that ALBA are involved in trypanosome differentiation processes where they control a subset of developmentally regulated transcripts. These processes involving ALBA3/4 are likely to result from the specific activation of sensing pathways. In the second part of the thesis, we identify novel flagellar proteins that could act in sensing mechanisms. Several protein candidates were selected from a proteomic analysis of intact flagella performed in the host laboratory. This work validates their flagellar localization with high success (85% of the proteins examined) and defines multiple different patterns of protein distribution in the flagellum. Two proteins are analyzed during development, one of them showing down-regulation in proventricular stages. The functional analysis of one novel flagellar membrane protein reveals its rapid dynamics within the flagellum but does not yield a visible phenotype in culture. This is coherent with sensory function that might not be needed in stable culture conditions, but could be required in natural conditions during development. In conclusion, this work adds new pieces to the puzzle of identifying molecular switches involved in developmental mRNA control and environmental sensing in trypanosome stages in the tsetse fly.
The obligate intracellular bacterium Chlamydia trachomatis invades into host cells to replicate inside a membrane-bound vacuole called inclusion. Multiple different host proteins are recruited to the inclusion and are functionally modulated to support chlamydial development. Invaded and replicating Chlamydia induces a long-lasting activation of the PI3 kinase signaling pathway that is required for efficient replication. We identified the cell surface tyrosine kinase EphrinA2 receptor (EphA2) as a chlamydial adherence and invasion receptor that induces PI3 kinase (PI3K) activation, promoting chlamydial replication. Interfering with binding of C. trachomatis serovar L2 (Ctr) to EphA2, downregulation of EphA2 expression or inhibition of EphA2 activity significantly reduced Ctr infection. Ctr interacts with and activates EphA2 on the cell surface resulting in Ctr and receptor internalization. During chlamydial replication, EphA2 remains active accumulating around the inclusion and interacts with the p85 regulatory subunit of PI3K to support the activation of the PI3K/Akt signaling pathway that is required for normal chlamydial development. Overexpression of full length EphA2, but not the mutant form lacking the intracellular cytoplasmic domain, enhanced PI3K activation and Ctr infection. Despite the depletion of EphA2 from the cell surface, Ctr infection induces upregulation of EphA2 through the activation of the ERK pathway, which keeps the infected cell in an apoptosis-resistant state. The significance of EphA2 as an entry and intracellular signaling receptor was also observed with the urogenital C. trachomatis-serovar D. Our findings provide the first evidence for a host cell surface receptor that is exploited for invasion as well as for receptor-mediated intracellular signaling to facilitate chlamydial replication. In addition, the engagement of a cell surface receptor at the inclusion membrane is a new mechanism by which Chlamydia subverts the host cell and induces apoptosis resistance.
Kälteschockproteine werden in Bakterien, gleichermaßen wie die gut charakterisierten Hitzeschockproteine, bei hohen Temperaturschwankungen stark induziert und ermöglichen der Zelle durch unterschiedliche Funktionen ein Wachstum in der Kälte. In dieser Promotionsarbeit wurde begonnen, die Kälteschock-Antwort von Bakterien des Genus Bordetella zu charakterisieren. Sowohl B. bronchiseptica als auch B. pertussis codieren für fünf Kälteschockproteine, die als CspA, CspB, CspC, CspD und CspE bezeichnet werden. Die fünf Proteine weisen eine signifikante Homologie zum Haupt-Kälteschockprotein CspA aus E. coli auf. Während in den Modellorganismen E. coli und B. subtilis mindestens vier (E. coli) bzw. alle drei (B. subtilis) csp-Gene deletiert sein müssen, um einen Wachstumsdefizit zu erkennen, genügt im Falle von B. bronchiseptica eine einzige Insertionsmutation im Gen cspB, um einen temperaturunabhängigen Wachstumsdefekt zu beobachten. Nach einem Kälteschock werden in B. bronchiseptica drei der fünf csp-Gene, cspA, cspB und cspC, deutlich induziert. Betrachtet man das Expressionsmuster der fünf csp-Gene unter verschiedenen Stressbedingungen, wie Zugabe von translationshemmenden Antibiotika, Hitzeschock oder osmotischer Stress, so lässt sich ein komplexes Expressionsmuster aufzeichnen. Außerdem besitzen die drei kälteinduzierbaren Gene cspA, cspB und cspC mehrere Transkriptionsstartpunkte, deren Transkriptmengen unter den verschiedenen Schockbedingungen stark variieren. Es stellte sich heraus, dass eine Überexpression von CspB aus B. bronchiseptica für die E. coli – Zelle toxisch ist, daher wurde das CspB-Protein als GST-Fusionsprotein exprimiert und über Glutathion-Sepharose aufgereinigt. Um eine potentielle Funktion von CspB in der Zelle zu untersuchen, wurden Filterbindeassays mit CspB::GST durchgeführt. Es wurde eine hochaffine, aber unspezifische Bindung an ssDNA festgestellt, was auf eine mögliche Funktion von CspB als Chaperon hindeutet. Nach Synthese eines CspB-spezifischen Antikörpers wurde die Kälteinduktion von CspB auch auf Proteinebene nachgewiesen. Durch 2D-Gelelektrophorese und massenspektrometrische Charakterisierung konnten 17 weitere kälteinduzierbare Proteine aus B. bronchiseptica identifiziert werden. Darunter waren u. a. ein Chaperon mit Ähnlichkeit zu GroES, ein Translationsinhibitor BB2940 und das CspB. Diese kälteinduzierbaren Proteine ähneln den CIPs aus E. coli. Weiterhin konnten noch das UspA und mehrere am Metabolismus beteiligte Proteine als CIPs aus B. bronchiseptica identifiziert werden, was signifikante Unterschiede in Bezug auf die Kälteadaptation zwischen den beiden Organismen aufzeigt. Betrachtet man die Promotorbereiche aller identifizierten csp-Gene, so fällt eine für diese Gene typische sehr lange 5’UTR auf. Innerhalb dieser upstream Region findet man in vier der fünf csp-Gene einen 9 bp langen Consensus mit der Sequenz TCCTTGATT, der in nahezu gleichem Abstand vom postulierten Startcodon vorkommt. Diese identifizierte 9bp-box ist für eine effiziente Transkription in der Kälte jedoch nicht von Bedeutung. Auf posttranskriptioneller Ebene wird die lange 5’UTR für die Stabilisierung der cold-shock mRNA in der Kälte verantwortlich gemacht. Außerdem ist das Vorhandensein der kompletten 5’UTR essentiell für eine effiziente Translation bei niedriger Temperatur, wobei eine Mutation der 9bp-box einen geringen, aber signifikanten negativen Effekt auf die Translation ausübt. Sechs Gene, der neu identifizierten CIPs, beinhalten ebenfalls eine 9bp-box in ihrer upstream Region. Interessanterweise werden zwei der fünf csp-Gene, cspC und cspD, vom BvgAS Zweikomponentensystem, dem Haupttranskriptionsregulator der Virulenzgene im Genus Bordetella, reguliert. Die beiden Gene gehören zu den Bvg-negativ regulierten Genen, die in der Bvg-minus-Phase exprimiert werden. Weiterhin beeinflusst eine leichte Überexpression von CspB aus B. pertussis die Expression der Adenylatzyklase sowohl in B. pertussis, als auch in B. bronchiseptica negativ. Dieser für das CspB spezifische Effekt erinnert an das strukturell verwandte Tex-Protein (Fuchs et al, 1996; König et al, 2002). Beide Proteine beeinflussen die Expression der Virulenzfaktoren negativ, wobei für CspB gezeigt werden konnte, dass es einen direkten Einfluss auf die verminderte cyaA-Expression auf Transkriptionsebene besitzt. Dies zeigt eine Verbindung der Kälteschockantwort mit dem Virulenz-Regulon der Bordetellen, deren Rolle im Infektionszyklus bislang ungeklärt ist.
Background: Combination of oncolytic vaccinia virus therapy with conventional chemotherapy has shown promise for tumor therapy. However, side effects of chemotherapy including thrombocytopenia, still remain problematic. Methods: Here, we describe a novel approach to optimize combination therapy of oncolytic virus and chemotherapy utilizing virus-encoding hyper-IL-6, GLV-1h90, to reduce chemotherapy-associated side effects. Results: We showed that the hyper-IL-6 cytokine was successfully produced by GLV-1h90 and was functional both in cell culture as well as in tumor-bearing animals, in which the cytokine-producing vaccinia virus strain was well tolerated. When combined with the chemotherapeutic mitomycin C, the anti-tumor effect of the oncolytic virotherapy was significantly enhanced. Moreover, hyper-IL-6 expression greatly reduced the time interval during which the mice suffered from chemotherapy-induced thrombocytopenia. Conclusion: Therefore, future clinical application would benefit from careful investigation of additional cytokine treatment to reduce chemotherapy-induced side effects.
To trigger innate behavior, sensory neural networks are pre-tuned to extract biologically relevant stimuli. Many male-female or insect-plant interactions depend on this phenomenon. Especially communication among individuals within social groups depends on innate behaviors. One example is the efficient recruitment of nest mates by successful bumblebee foragers. Returning foragers release a recruitment pheromone in the nest while they perform a ‘dance’ behavior to activate unemployed nest mates. A major component of this pheromone is the sesquiterpenoid farnesol. How farnesol is processed and perceived by the olfactory system, has not yet been identified. It is much likely that processing farnesol involves an innate mechanism for the extraction of relevant information to trigger a fast and reliable behavioral response. To test this hypothesis, we used population response analyses of 100 antennal lobe (AL) neurons recorded in alive bumblebee workers under repeated stimulation with four behaviorally different, but chemically related odorants (geraniol, citronellol, citronellal and farnesol). The analysis identified a unique neural representation of the recruitment pheromone component compared to the other odorants that are predominantly emitted by flowers. The farnesol induced population activity in the AL allowed a reliable separation of farnesol from all other chemically related odor stimuli we tested. We conclude that the farnesol induced population activity may reflect a predetermined representation within the AL-neural network allowing efficient and fast extraction of a behaviorally relevant stimulus. Furthermore, the results show that population response analyses of multiple single AL-units may provide a powerful tool to identify distinct representations of behaviorally relevant odors.
The East Himalaya is one of the world’s most biodiverse ecosystems. However, very little is known about the abundance and distribution of many plant and animal taxa in this region. Bumble bees are a group of cold-adapted and high elevation insects that fulfil an important ecological and economical function as pollinators of wild and agricultural flowering plants and crops. The Himalayan mountain range provides ample suitable habitats for bumble bees. Systematic study of Himalayan bumble bees began a few decades ago and the main focus has centred on the western region, while the eastern part of the mountain range has received little attention and only a few species have been verified. During a three-year survey, more than 700 bumble bee specimens of 21 species were collected in Arunachal Pradesh, the largest of the north-eastern states of India. The material included a range of species that were previously known from a limited number of collected specimens, which highlights the unique character of the East Himalayan ecosystem. Our results are an important first step towards a future assessment of species distribution, threat, and conservation. Clear elevation patterns of species diversity were observed, which raise important questions about the functional adaptations that allow bumble bees to thrive in this particularly moist region in the East Himalaya.
Ranging from dwarfs to giants, the species of honeybees show remarkable differences in body size that have placed evolutionary constrains on the size of sensory organs and the brain. Colonies comprise three adult phenotypes, drones and two female castes, the reproductive queen and sterile workers. The phenotypes differ with respect to tasks and thus selection pressures which additionally constrain the shape of sensory systems. In a first step to explore the variability and interaction between species size-limitations and sex and caste-specific selection pressures in sensory and neural structures in honeybees, we compared eye size, ommatidia number and distribution of facet lens diameters in drones, queens and workers of five species (Apis andreniformis, A. florea, A. dorsata, A. mellifera, A. cerana). In these species, male and female eyes show a consistent sex-specific organization with respect to eye size and regional specialization of facet diameters. Drones possess distinctly enlarged eyes with large dorsal facets. Aside from these general patterns, we found signs of unique adaptations in eyes of A. florea and A. dorsata drones. In both species, drone eyes are disproportionately enlarged. In A. dorsata the increased eye size results from enlarged facets, a likely adaptation to crepuscular mating flights. In contrast, the relative enlargement of A. florea drone eyes results from an increase in ommatidia number, suggesting strong selection for high spatial resolution. Comparison of eye morphology and published mating flight times indicates a correlation between overall light sensitivity and species-specific mating flight times. The correlation suggests an important role of ambient light intensities in the regulation of species-specific mating flight times and the evolution of the visual system. Our study further deepens insights into visual adaptations within the genus Apis and opens up future perspectives for research to better understand the timing mechanisms and sensory physiology of mating related signals.
Bees have had an intimate relationship with humans for millennia, as pollinators of fruit, vegetable and other crops and suppliers of honey, wax and other products. This relationship has led to an extensive understanding of their ecology and behavior. One of the most comprehensively understood species is the Western honeybee, Apis mellifera. Our understanding of sex-specific investment in other bees, however, has remained superficial. Signals and cues employed in bee foraging and mating behavior are reasonably well understood in only a handful of species and functional adaptations are described in some species. I explored the variety of sensory adaptations in three model systems within the bees. Females share a similar ecology and similar functional morphologies are to be expected. Males, engage mainly in mating behavior. A variety of male mating strategies has been described which differ in their spatiotemporal features and in the signals and cues involved, and thus selection pressures. As a consequence, males’ sensory systems are more diverse than those of females. In the first part I studied adaptations of the visual system in honeybees. I compared sex and caste-specific eye morphology among 5 species (Apis andreniformis, A. cerana, A. dorsata, A. florea, A. mellifera). I found a strong correlation between body size and eye size in both female castes. Queens have a relatively reduced visual system which is in line with the reduced role of visual perception in their life history. Workers differed in eye size and functional morphology, which corresponds to known foraging differences among species. In males, the eyes are conspicuously enlarged in all species, but a disproportionate enlargement was found in two species (A. dorsata, A. florea). I further demonstrate a correlation between male visual parameters and mating flight time, and propose that light intensities play an important role in the species-specific timing of mating flights. In the second study I investigated eye morphology differences among two phenotypes of drones in the Western honeybee. Besides normal-sized drones, smaller drones are reared in the colony, and suffer from reduced reproductive success. My results suggest that the smaller phenotype does not differ in spatial resolution of its visual system, but suffers from reduced light and contrast sensitivity which may exacerbate the reduction in reproductive success caused by other factors. In the third study I investigated the morphology of the visual system in bumblebees. I explored the association between male eye size and mating behavior and investigated the diversity of compound eye morphology among workers, queens and males in 11 species. I identified adaptations of workers that correlate with distinct foraging differences among species. Bumblebee queens must, in contrast to honeybees, fulfill similar tasks as workers in the first part of their life, and correspondingly visual parameters are similar among both female castes. Enlarged male eyes are found in several subgenera and have evolved several times independently within the genus, which I demonstrate using phylogenetic informed statistics. Males of these species engage in visually guided mating behavior. I find similarities in the functional eye morphology among large-eyed males in four subgenera, suggesting convergent evolution as adaptation to similar visual tasks. In the remaining species, males do not differ significantly from workers in their eye morphology. In the fourth study I investigated the sexual dimorphism of the visual system in a solitary bee species. Males of Eucera berlandi patrol nesting sites and compete for first access to virgin females. Males have enlarged eyes and better spatial resolution in their frontal eye region. In a behavioral study, I tested the effect of target size and speed on male mate catching success. 3-D reconstructions of the chasing flights revealed that angular target size is an important parameter in male chasing behavior. I discuss similarities to other insects that face similar problems in visual target detection. In the fifth study I examined the olfactory system of E. berlandi. Males have extremely long antennae. To investigate the anatomical grounds of this elongation I studied antennal morphology in detail in the periphery and follow the sexual dimorphism into the brain. Functional adaptations were found in males (e.g. longer antennae, a multiplication of olfactory sensilla and receptor neurons, hypertrophied macroglomeruli, a numerical reduction of glomeruli in males and sexually dimorphic investment in higher order processing regions in the brain), which were similar to those observed in honeybee drones. The similarities and differences are discussed in the context of solitary vs. eusocial lifestyle and the corresponding consequences for selection acting on males.
The genus Pogonomyrmex is predisposed for analyzing the evolution of ant colony characteristics in general and the sociogenetic structure in particular, due to the renowned biology of several species and the diversity of mating frequency and queen number. This variation in the sociogenetic structure of colonies produces a high variance in intracolonial relatedness which can be a major component driving the evolution of various colony characteristics. To exactly determine the variability of the intracolonial relatedness in the genus Pogonomyrmex both were analyzed, the number of matrilines and patrilines, in selected members of Pogonomyrmex, namely P. (sensu stricto) rugosus, P. (sensu stricto) badius and P. (Ephebomyrmex) pima using DNA fingerprint techniques. The evolution of these colony characteristics were tried to be explained within a phylogenetic framework. For that purpose we constructed a gene-tree of 39 species of the genus Pogonomyrmex. The taxon sampling covered about 83 % of the North American species and 43 % of the South American species. Effective multiple mating of queens was confirmed for P. rugosus (me=4.1) and P. badius (me=6.7). Additionally, both species are monogynous. These results corroborate behavioral observations of multiple mating for these species. Multiple mating is now known from 9 Pogonomyrmex species (behavioral evidence for 3 species – genetic evidence for 6 species). However, in P. (E.) pima all queens that were analyzed were single mated (me=1.0). Therefore, multiple mating may have either evolved early during the evolution of the genus Pogonomyrmex and has subsequently been lost in the subgenus Ephebomyrmex (plesiomorphic hypothesis), or it has first been evolved in the subgenus Pogonomyrmex sensu stricto (apomorphic hypothesis). In P. huachucanus, a species basal to the North- American sensu stricto complex, smaller effective mating number of queens compared to its sensu stricto relatives (J. Gadau and C.-P. Strehl, unpublished) probably do mirror a change from monandry to polyandry during the evolution of more advanced sensu stricto species, which would support the apomorphic hypothesis. The intracolonial relatedness in P. (E.) pima is however rather low. This is probably the result of multiple reproducing queens (polygyny). Polygyny is also documented for at least four other species of the subgenus Ephebomyrex, but so far P. (E.) pima is the only species with genetic evidence. It might be that there was an evolutionary trade-off within the subgenus Ephebomyrmex between polyandry and polygyny. Therefore, both subgenera retained a high intracolonial genetic diversity. This high genetic diversity might be one cause for the success and radiation of the genus Pogonomyrmex in arid environments. Evolution might have favored high genetic diversity of Pogonomyrmex colonies, because it helps colonies to improve their colonial organization and efficiency in performing external tasks. At least in P. badius a link between patrilines and physical polyethism was found, indicative of an improvement of colonial organization via polyandry. Furthermore, the documented extreme levels of polyandry might help P. badius females to overcome the possibility of inbreeding due to restricted dispersal. Restricted dispersal is also found in P. (E.) pima due to wingless, intermorphic queens. However, in P. (E.) pima inbreeding is probably prevented by outcrossing via males because no significant inbreeding is found. In the presented gene trees the subgenus Pogonomyrmex Ephebomyrmex was separated from the subgenus Pogonomyrmex sensu stricto. Therefore, P. Ephebomyrmex might be elevated to generic status, also due to its distinct morphological and life history characters. Nevertheless, for a precise taxonomic revision a broader complement of species has to be applied. Regularly a low number of unrelated workers was found in P. rugosus colonies, which probably stem from brood raids between mature and founding colonies. It is well known that most founding colonies are destroyed by neighboring conspecific mature colonies, but so far it was assumed that the brood of these colonies was also destroyed. This often neglected aspect might be an important fitness token for mature colonies.
To counteract insect decline, it is essential to understand the underlying causes, especially for key pollinators such as nocturnal moths whose ability to orientate can easily be influenced by ambient light conditions. These comprise natural light sources as well as artificial light, but their specific relevance for moth orientation is still unknown. We investigated the influence of moonlight on the reproductive behavior of privet hawkmoths (Sphinx ligustri) at a relatively dark site where the Milky Way was visible while the horizon was illuminated by distant light sources and skyglow. We show that male moths use the moon for orientation and reach females significantly faster with increasing moon elevation. Furthermore, the choice of flight direction depended on the cardinal position of the moon but not on the illumination of the horizon caused by artificial light, indicating that the moon plays a key role in the orientation of male moths.
Das Cytokin Interleukin-4 (IL-4) ist ein essentieller Faktor bei der Entstehung von Sofort-Typ Allergien. Die Bindung von IL-4 an seinen Rezeptor und die anschließende Phosphorylierung des IL-4 aktivierten Transkriptionsfaktors Stat6 ist ein Schlüsselereignis bei der allergischen Immunantwort. In der vorliegenden Arbeit werden Ergebnisse zur Hemmung der Stat6 vermittelten Signaltransduktion des IL-4 Rezeptors vorgestellt. Dazu wurde ein Vektorsystem etabliert, bei dem ein von dem Drosophila-Transkriptionsfaktor Antennapedia abgeleitetes 16 AS langes Peptid benutzt wird. Dieses Antennapediapeptid kann Plasmamembranen lebender Zellen energie- und rezeptorunabhängig durchqueren und dabei andere hydrophile Moleküle mittransportieren. Stat6 bindet über eine SH2 Domäne an phosphorylierte Reste von IL4Ra und bildet, nachdem es selbst phosphoryliert ist, mit anderen Stat6-Molekülen aktive Dimere. Ein aus der Stat6-Bindestelle des IL-4Ra abgeleitetes phosphoryliertes Peptid (Stat6BP) wurde mit Hilfe des Antennapediapeptids in verschiedene humane und murine Zellinien transportiert. Für Stat6BP konnte mit Hilfe von spezifischer Immunpräzipitation und Western-Blot gezeigt werden, dass es IL-4 induzierte Phosphorylierung und Aktivierung von Stat6 transient hemmen kann. Durch zusätzliche Applikation des Tyrosinphosphataseinhibitors Natriumpervanadat gelang es, die hemmende Wirkung von Stat6BP zu verlängern. Unter gleichen Bedingungen konnte auch gezeigt werden, dass Stat6BP spezifisch die Aktivierung von Stat6 hemmt, da die durch IL-4 oder IL-3 induzierte Phosphorylierung des eng verwandten Stat5 völlig unbeeinträchtigt bleibt. Ferner wurde durch das Peptid die Expression eines Stat6 kontrollierten Reportergens gehemmt. Im Rahmen dieser Arbeit wurde außerdem die Rolle der Src-Typ Kinasen p56lck und p59fyn in der IL-4 Signaltransduktion in unterschiedlichen T-Zellinien untersucht. Es zeigte sich, dass die Aktivierung der beide Kinasen stark von der getesteten Zellinie abhängt. In einigen T-Zellinien aktiviert IL-4 eher p56lck, in anderen eher p59fyn.
Background: The carpenter ant Camponotus floridanus harbors obligate intracellular mutualistic bacteria (Blochmannia floridanus) in specialized cells, the bacteriocytes, intercalated in their midgut tissue. The diffuse distribution of bacteriocytes over the midgut tissue is in contrast to many other insects carrying endosymbionts in specialized tissues which are often connected to the midgut but form a distinct organ, the bacteriome. C.floridanus is a holometabolous insect which undergoes a complete metamorphosis. During pupal stages a complete restructuring of the inner organs including the digestive tract takes place. So far, nothing was known about maintenance of endosymbionts during this life stage of a holometabolous insect. It was shown previously that the number of Blochmannia increases strongly during metamorphosis. This implicates an important function of Blochmannia in this developmental phase during which the animals are metabolically very active but do not have access to external food resources. Previous experiments have shown a nutritional contribution of the bacteria to host metabolism by production of essential amino acids and urease-mediated nitrogen recycling. In adult hosts the symbiosis appears to degenerate with increasing age of the animals. Results: We investigated the distribution and dynamics of endosymbiotic bacteria and bacteriocytes at different stages during development of the animals from larva to imago by confocal laser scanning microscopy. The number of bacteriocytes in relation to symbiont-free midgut cells varied strongly over different developmental stages. Especially during metamorphosis the relative number of bacteria-filled bacteriocytes increased strongly when the larval midgut epithelium is shed. During this developmental stage the midgut itself became a huge symbiotic organ consisting almost exclusively of cells harboring bacteria. In fact, during this phase some bacteria were also found in midgut cells other than bacteriocytes indicating a cell-invasive capacity of Blochmannia. In adult animals the number of bacteriocytes generally decreased. Conclusions: During the life cycle of the animals the distribution of bacteriocytes and of Blochmannia endosymbionts is remarkably dynamic. Our data show how the endosymbiont is retained within the midgut tissue during metamorphosis thereby ensuring the maintenance of the intracellular endosymbiosis despite a massive reorganization of the midgut tissue. The transformation of the entire midgut into a symbiotic organ during pupal stages underscores the important role of Blochmannia for its host in particular during metamorphosis.
Ameisen der Gattung Camponotus beherbergen bakterielle Symbionten der Gattung Blochmannia in spezialisierten Zellen des Mitteldarms (Blochmann, 1882; Buchner, 1965; Sauer, 2000; Schröder et al., 1996). Die Genomsequenzierung dieser Symbionten zeigte, dass Blochmannia, ähnlich den Symbionten von Blattläusen, hauptsächlich Gene der Aminosäurebiosynthese beibehalten hat (Degnan et al., 2005; Gil et al., 2003). Die Relevanz dieser nahrungsaufwertenden Funktion konnte experimentell bestätigt werden (Feldhaar et al., 2007). Ein Schwerpunkt der vorliegenden Arbeit war die Aufklärung der dynamischen Interaktion der beiden Partner während des komplexen Lebenszyklus des holometabolen Wirtes. Frühere Studien deuteten darauf hin, dass die Symbiose vor allem während der Larven- und Puppenphasen von Bedeutung sein könnte (Feldhaar et al., 2007; Wolschin et al., 2004; Zientz et al., 2006). Mit fluoreszenter in situ Hybridisierung (FISH) und konfokaler Laserscanning Mikroskopie konnte in der vorliegenden Arbeit die Lokalisierung von B. floridanus während der wichtigsten Entwicklungsstadien aufgeklärt werden. Hierbei konnte gezeigt werden, dass die Symbionten schon im ersten Larvenstadium in spezialisierten Zellen um den Darm angeordnet sind, aber in späteren Stadien nicht, wie bisher angenommen, auf diese Bakteriozyten beschränkt sind, sondern bis zum Schlupf der jungen Arbeiterinnen massiv andere Darmzellen infizieren. Übereinstimmend mit Bestimmungen der Zellzahl in den verschiedenen Wirtsstadien ist die Anzahl der Symbionten gegen Ende der Metamorphose am höchsten. Die Symbiose degeneriert in sehr alten Arbeiterinnen, gut gefüllte Bakteriozyten werden jedoch noch monatelang beibehalten. Mit Macroarray- und qRT- PCR- basierten Transkriptomanalysen wurde die Expression der bakteriellen Gene in charakteristischen Entwicklungsstadien des Wirtes untersucht. Allgemein zeigen vor allem Gene für molekulare Chaperons und bestimmte bakterielle Grundfunktionen eine hohe Expression. Aber auch viele Gene, die möglicherweise wichtige Funktionen in der Symbiose besitzen, wie die Biosynthese essentieller Aminosäuren und das Recycling von Stickstoffverbindungen, zeigen ein hohes absolutes Transkriptlevel. Zudem besteht eine positive Korrelation zwischen dem Expressionsniveau und dem GC- Gehalt der Gene, die in dem höheren Selektionsdruck und damit einer geringeren Mutationsrate der essentiellen Gene begründet liegt (Schaber et al., 2005). Durch Proteinanalysen konnte bestätigt werden, dass die Faktoren mit der höchsten absoluten Transkription die dominanten Proteine der Symbionten darstellen. In den unterschiedlichen Entwicklungsstadien zeigen viele Gene eine deutliche Dynamik, deren Ausmaß aber, verglichen mit freilebenden Bakterien, gering ist. Aus den Expressionsprofilen aufeinanderfolgender Gene lassen sich mögliche Transkriptionseinheiten ableiten, die teilweise auch experimentell bestätigt wurden. Oftmals zeigen auch Gene, die nicht in Transkriptionseinheiten angeordnet sind, aber verwandten Stoffwechselwegen angehören, ähnliche Muster. Dies deutet auf das Vorhandensein grundlegender Genregulations-mechanismen hin, obwohl im Genom von B. floridanus nur noch sehr wenige Transkriptionsfaktoren codiert sind (Gil et al., 2003). Auf übergeordneter Ebene zeigt sich, dass bei Symbionten aus späten Puppenstadien viele symbioserelevante Gene im Vergleich zu Genen des Grundmetabolismus eine erhöhte Expression zeigen. Dies betrifft besonders die Biosynthese aromatischer und verzweigter Aminosäuren, die in diesen Stadien vom Wirt in hoher Menge benötigt werden, während die internen Reserven gleichzeitig zur Neige gehen. Dies äußert sich auch im deutlichen Abfallen der Speicherproteinmenge des Wirts gegen Ende der Puppenphase. Die festgestellte Veränderung der Symbiontenzahl übertrifft das geringe Ausmaß der Genregulation um ein Vielfaches. Die Bakterien liegen in jedem Stadium polyploid mit bis zu 100 Genomkopien vor, dieser Polyploidiegrad bleibt jedoch während der gesamten Wirtsentwicklung weitestgehend konstant. Somit scheint die Kontrolle des Wirts über die bakterielle Vermehrung der entscheidende Faktor dieser Symbiose zu sein. Die verbleibenden regulatorischen Fähigkeiten der Bakterien stellen möglicherweise eine Feinjustierung von optimierten Produktionseinheiten dar, deren Anzahl nach den Bedürfnissen des Wirtes verändert wird. Insgesamt konnten in der vorliegenden Arbeit neue Einblicke in das komplexe Zusammenleben von Blochmannia und Camponotus gewonnen werden, die zu einem besseren Verständnis der biologischen Funktion und der grundlegenden Mechanismen dieser Symbiose führen. Eine der wichtigsten Fragestellungen nach dem Sinn einer nahrungsaufwertenden Symbiose für einen Nahrungsgeneralisten konnte mit starken Hinweisen auf eine stadienabhängige Relevanz der Symbiose beantwortet werden, die den enormen evolutionären Erfolg dieser Ameisengattung erklären könnte. 
Die PrfA-Aktivität im L. monocytogenes Stamm EGD sowie dessen prfA Deletionsmutante mit dem prfA- bzw. prfA*-Gen unter Kontrolle des prfA-Promotors auf dem High-Copy Plasmid pERL3 wurde nach Wachstum in BHI, LB (Luria-Bertani Medium) und definiertem MM untersucht. Die Medien waren versetzt mit 50 mM der PTS-Kohlenstoffquellen Glucose, Mannose oder Cellobiose oder mit der Nicht-PTS-Kohlenstoffquelle Glycerin. Mit dem Wildtyp EGD konnte in BHI und LB mit allen genannten Kohlenstoffquellen nur eine geringe PrfA-Aktivität beobachtet werden. In MM dagegen war die PrfA-Aktivität in Anwesenheit von Glycerin stark erhöht und mit Cellobiose als einziger Kohlenstoffquelle stark reprimiert. Mit dem PrfA*-überexprimierenden Stamm wurden unter allen Bedingungen hohe PrfA-Aktivität gefunden. EGDΔprfApPrfA zeigte dagegen trotz gleicher PrfA-Menge wie EGDΔprfApPrfA* nur in BHI eine hohe PrfA-Aktivität. Die Zugabe des Amberlites XAD4 in LB erhöht die reduzierte PrfA-Aktivität in EGDΔprfApPrfA und in MM verstärkt XAD4-Zugabe die PrfA-Aktivität des Wildtyps. Eine ptsH-Mutante ist in LB und MM unabhängig von der Zugabe einer der vier Kohlenstoffquellen nicht in der Lage zu wachsen (Stoll et al., 2008), was darauf hin deutet, dass die Aufnahme der verwendeten Kohlenstoffquelle und auch der Glycerinstoffwechsel von einem intakten PTS-Weg abhängig sind. In BHI stehen dagegen offensichtlich noch PTS-unabhängige Kohlenstoffquellen zur Verfügung, da die ptsH-Mutante in BHI noch wachsen kann. Dies unterstützt auch die Beobachtung, dass die Generationszeiten von L. monocytogenes in LB und vor allem MM im Vergleich zu BHI wesentlich länger sind. Expressionsdaten der PTS-Gene wurden von allen drei Stämmen unter verschiedenen Wachstumsbedingungen erstellt. Die Daten deuten darauf hin, dass die PrfA-Aktivität mit der Expressionsstärke und dem Phosphorylierungsstatus bestimmter PTS-Permeasen zusammenhängt. PTS-Permeasen bestehen immer aus mindestens drei Domänen, der Membran überspannenden Zucker transportierenden Domäne EIIC (und EIID im Falle von Mannose spezifischen PTS) und den zwei im Zytosol löslichen Komponenten EIIA und EIIB. EIIA wird direkt von HPr-His-P phosphoryliert, welches sein Phosphat von dem von PEP phosphorylierten EI empfängt. Das PTS spielt neben der Zuckeraufnahme eine Rolle in vielen regulatorischen Vorgängen in der Bakterienzelle, unter anderem in der Pathogenese (Barabote and Saier, 2005; Deutscher et al., 2006; Postma et al., 1993). Listerien codieren für alle sieben bekannten PTS-Familien, 86 Gene codieren für 29 komplette und einige unvollständige PTS. Trotz der großen Anzahl an PTS-Genen besitzt L. monocytogenes kein vollständiges PtsG, welches homolog zu E. coli oder B. subtilis ist, sondern nur ein EIIAGlc. Um die an der Glucoseaufnahme involvierten PTS-Permeasen zu identifizieren und einen möglichen Zusammenhang zwischen diesen PTS-Permeasen und der PrfA-Aktivität zu untersuchen, wurden in dieser Arbeit systematisch PTS-Permeasen deletiert, welche für putative Beta-Glucosid-PTS (PTSGlc), Mannose-PTS (PTSMan) und Cellobiose-PTS (PTSLac) codieren. Diese Deletionsmutanten wurden bezüglich ihres Wachstumes in Gegenwart der entsprechenden PTS-Zucker und die PrfA-Aktivität untersucht. Deletionen von in L. monocytogenes EGD-e nur schwach exprimierten PTSGlc haben keinen Einfluss auf das Wachstum in MM mit 10 mM Glucose oder Cellobiose. Von den vier exprimierten PTSMan sind zumindest zwei eindeutig in der Lage, Glucose zu transportieren, und die Deletion dieser PTS-Permeasen, codiert von lmo0096-0098 und lmo0781-0784, erhöht sehr deutlich die Expression des im Wildtyp wenig exprimierten Gens für die PTS-Permease PTSGlc(lmo0027). Für den Cellobiose-Transport scheint von den sechs vollständigen PTSLac-Permeasen vor allem PTSLac(lmo2683-2685) und nach Deletion dieses Operons, ebenfalls die PTSGlc(lmo0027)-Permease wichtig zu sein. Obwohl die multiple Deletion dieser für die Glucose/Mannose- bzw. Cellobiose-Aufnahme in L. monocytogenes wichtigen PTS-Permeasen das Wachstum in definiertem MM drastisch reduziert, haben diese Deletionen offensichtlich keine Auswirkung auf das intrazelluläre Wachstum, da die Infektionsrate so effizient ist wie die des Wildtyps. Auf PrfA hat die schrittweise Deletion der Glucose/Mannose-spezifischen PTS-Permeasen nach Wachstum in MM mit Glucose als einziger Kohlenstoffquelle eine aktivierende Wirkung, jedoch keine Auswirkung nach Wachstum in Cellobiose-haltigem MM. Umgekehrt verhält es sich mit den PTSLac-Deletionsmutanten. In vitro Transkriptionsstudien mit (teilweise phosphoryliert) aufgereinigten Lmo0096 (EIIABMan) und Lmo1017 (EIIAGlc) -Proteinen deuten auf eine direkte Interaktion zwischen PrfA und bestimmten EII-Proteinen hin. Dies konnte für Lmo0096 auch in Immunpräzipitationsassays gezeigt werden. Eine Überexpression von Lmo0096 führte zudem zu einer sehr deutlichen Reduktion der PrfA-Aktivität nach Wachstum in MM mit Glucose.
The propagation of the genetic information into proteins is mediated by messenger- RNA (mRNA) intermediates. In eukaryotes mRNAs are synthesized by RNA- Polymerase II and subjected to translation after various processing steps. Earlier it was suspected that the regulation of gene expression occurs primarily on the level of transcription. In the meantime it became evident that the contribution of post- transcriptional events is at least equally important. Apart from non-coding RNAs and metabolites, this process is in particular controlled by RNA-binding proteins, which assemble on mRNAs in various combinations to establish the so-called “mRNP- code”.
In this thesis a so far unknown component of the mRNP-code was identified and characterized. It constitutes a hetero-trimeric complex composed of the Tudor domain-containing protein 3 (TDRD3), the fragile X mental retardation protein (FMRP) and the Topoisomerase III beta (TOP3β) and was termed TTF (TOP3β-TDRD3-FMRP) -complex according to its composition.
The presented results also demonstrate that all components of the TTF-complex shuttle between the nucleus and the cytoplasm, but are predominantly located in the latter compartment under steady state conditions. Apart from that, an association of the TTF-complex with fully processed mRNAs, not yet engaged in productive translation, was detected. Hence, the TTF-complex is a component of „early“ mRNPs.
The defined recruitment of the TTF-complex to these mRNPs is not based on binding to distinct mRNA sequence-elements in cis, but rather on an interaction with the so-called exon junction complex (EJC), which is loaded onto the mRNA during the process of pre-mRNA splicing. In this context TDRD3 functions as an adapter, linking EJC, FMRP and TOP3β on the mRNP. Moreover, preliminary results suggest that epigenetic marks within gene promoter regions predetermine the transfer of the TTF-complex onto its target mRNAs.
Besides, the observation that TOP3β is able to catalytically convert RNA-substrates disclosed potential activities of the TTF-complex in mRNA metabolism. In combination with the already known functions of FMRP, this finding primarily suggests that the TTF-complex controls the translation of bound mRNAs.
In addition to its role in mRNA metabolism, the TTF-complex is interesting from a human genetics perspective as well. It was demonstrated in collaboration with researchers from Finland and the US that apart from FMRP, which was previously linked to neurocognitive diseases, also TOP3β is associated with neurodevelopmental disorders. Understanding the function of the TTF-complex in mRNA metabolism might hence provide important insight into the etiology of these diseases.
Cloning and functional characterization of novel genes expressed preferentially in the human retina
(2005)
The human retina is a multi-layered neuronal tissue specialized for the reception and processing of visual information. The retina is composed of a great diversity of neuronal cell types including rod and cone photoreceptors, bipolar cells, ganglion cells, amacrine cells, horizontal cells and Müller glia. In response to light, a coordinated series of molecular events, the so-called phototransduction cascade, is triggered in photoreceptor cells and the signals from the photoreceptors are further processed by the bipolar and ganglion cells to the higher centers of the brain. The retina as highly complex system may be greatly susceptible to genetic defects which can lead to a wide range of disease phenotypes. Therefore, isolation and characterisation of the genes active in the human retina will facilitate our deeper understanding of retinal physiology and mechanisms underlying retinal degeneration and provide novel candidates for the retinal disease genes. To identify novel genes that are specifically or predominantly expressed in the human retina, a cDNA library enriched for retina specific transcripts was generated using suppression subtractive hybridization (SSH) technique. In total, 1113 clones were randomly isolated from the retina SSH cDNA library and partially sequenced. On the basis of BLASTN algorithm analysis these clones were classified into four categories including those with I) significant homology to known human genes (766/1113), II) significant homology to partial transcripts and hypothetical gene predictions (162/1113), III) no homology to known mRNAs (149/1113), and IV) vector sequences and clones derived from mitochondrial genes (36/1113). After correcting for redundancy, category I represented 234 known human genes and category II a total of 92unknown transcripts. Clones from category I, were selected for expression analysis by RT-PCR in a great number of human tissues. This resulted in the identification of 16 genes which were expressed exclusively in the retina, 13 which were highly expressed in the retina compared to other tissues, 12 genes which were specifically expressed in neuronal tissues and 48 ubiquitously expressed genes. Thus, our expression analysis resulted in the identification of 29 genes exclusively or abundantly transcribed in the human retina. Of those, retina specific genes L25,L33, L35, L37, L38 and L40 were selected for further analysis. To characterize the complete mRNA sequences of these transcripts a full-length human retina cDNA library was constructed. The analysis of the L25 gene revealed three splicing variants of the ABCC5 gene, consequently named ABCC5_SV1 (SV1), ABCC5_SV2 (SV2) and ABCC5_SV3 (SV3).These isoforms comprise the first five exons of ABCC5 and additional novel exons named 5a, 5b and 5c, generated by differential exon usage. The determined lengths of the three transcripts are 2039 bp, 1962 bp, and 1887 bp in size, respectively. RT-PCR, real-time PCR and Northern blot analysis of ABCC5 as well as the isoforms SV1, SV2 and SV3demonstrated high levels of expression for all transcripts in the retina compared to other tissues. Analysis of their nucleotide sequences revealed that inclusion of exon 5a in splicing variant SV1 produced a frame shift and premature termination codon (PTC). Our data show that this splice variant is the target of nonsense mediated mRNA decay (NMD). This was shown by inhibition of protein synthesis with antibiotics puromycin and anisomycin in human cell lines A-RPE 19 and Y79. Our analysis resulted in an increase of the PTC containing transcript and a decrease of the ABCC5 transcript. Conversely, the amount of both transcripts (SV1 and ABCC5) returned to pre-treatment levels after removal of the inhibitors. Together, our results suggest that alternative splicing of the ubiquitously expressed ABCC5 gene in addition to NMD is involved in retina-specific transcriptional regulation of the mRNA level of ABCC5. In contrast, additional experiments demonstrated that the levels of expression ofSV2 and SV3 isoforms do not appear to influence ABCC5 transcription. Several of the cloned genes were selected for additional genotyping of single nucleotide polymorphisms (SNPs) in order to construct their SNP maps which are going to be used for future association studies of complex disease AMD. Thus, identification of novel retinal genes and their functional characterization will further our elucidation of retinal physiology in general and in the diseased state in particular, by providing candidate retinal disease genes.
Comprehensive bioinformatics identifies key microRNA players in ATG7-deficient lung fibroblasts
(2020)
Background: Deficient autophagy has been recently implicated as a driver of pulmonary fibrosis, yet bioinformatics approaches to study this cellular process are lacking. Autophagy-related 5 and 7 (ATG5/ATG7) are critical elements of macro-autophagy. However, an alternative ATG5/ATG7-independent macro-autophagy pathway was recently discovered, its regulation being unknown. Using a bioinformatics proteome profiling analysis of ATG7-deficient human fibroblasts, we aimed to identify key microRNA (miR) regulators in autophagy. Method: We have generated ATG7-knockout MRC-5 fibroblasts and performed mass spectrometry to generate a large-scale proteomics dataset. We further quantified the interactions between various proteins combining bioinformatics molecular network reconstruction and functional enrichment analysis. The predicted key regulatory miRs were validated via quantitative polymerase chain reaction. Results: The functional enrichment analysis of the 26 deregulated proteins showed decreased cellular trafficking, increased mitophagy and senescence as the major overarching processes in ATG7-deficient lung fibroblasts. The 26 proteins reconstitute a protein interactome of 46 nodes and miR-regulated interactome of 834 nodes. The miR network shows three functional cluster modules around miR-16-5p, miR-17-5p and let-7a-5p related to multiple deregulated proteins. Confirming these results in a biological setting, serially passaged wild-type and autophagy-deficient fibroblasts displayed senescence-dependent expression profiles of miR-16-5p and miR-17-5p. Conclusions: We have developed a bioinformatics proteome profiling approach that successfully identifies biologically relevant miR regulators from a proteomics dataset of the ATG-7-deficient milieu in lung fibroblasts, and thus may be used to elucidate key molecular players in complex fibrotic pathological processes. The approach is not limited to a specific cell-type and disease, thus highlighting its high relevance in proteome and non-coding RNA research.
Carrion plays an essential role in shaping the structure and functioning of ecosystems and has far‐reaching implications for biodiversity conservation. The change in availability and type of carcasses throughout ecosystems can involve negative effects for scavenging communities. To address this issue, there have been recent conservation management measures of carrion provision in natural systems. However, the optimal conditions under which exposing carcasses to optimize conservation outcomes are still limited. Here, we used camera traps throughout elevational and vegetational gradients to monitor the consumption of 48 deer carcasses over a study period of six years by evaluating 270,279 photographs resulting out of 15,373 trap nights. We detected 17 species visiting carcass deployments, including five endangered species. Our results show that large carcasses, the winter season, and a heterogeneous surrounding habitat enhanced the frequency of carcass visits and the species richness of scavenger assemblages. Contrary to our expectations, carcass species, condition (fresh/frozen), and provision schedule (continuous vs single exposure) did not influence scavenging frequency or diversity. The carcass visitation frequency increased with carcass mass and lower temperatures. The effect of large carcasses was especially pronounced for mesopredators and the Eurasian lynx (Lynx lynx). Lynx were not too influenced in its carrion acquisition by the season, but exclusively preferred remote habitats containing higher forest cover. Birds of prey, mesopredators, and top predators were also positively influenced by the visiting rate of ravens (Corvus corax), whereas no biotic or abiotic preferences were found for wild boars (Sus scrofa). This study provides evidence that any ungulate species of carrion, either in a fresh or in previously frozen condition, attracts a high diversity of scavengers especially during winter, thereby supporting earlier work that carcass provisions may support scavenger communities and endangered species.
Desert ants of the genus Cataglyphis possess remarkable visual navigation capabilities. Although Cataglyphis species lack a trail pheromone system, Cataglyphis fortis employs olfactory cues for detecting nest and food sites. To investigate potential adaptations in primary olfactory centers of the brain of C. fortis, we analyzed olfactory glomeruli (odor processing units) in their antennal lobes and compared them to glomeruli in different Cataglyphis species. Using confocal imaging and 3D reconstruction, we analyzed the number, size and spatial arrangement of olfactory glomeruli in C. fortis, C.albicans, C.bicolor, C.rubra, and C.noda. Workers of all Cataglyphis species have smaller numbers of glomeruli (198–249) compared to those previously found in olfactory-guided ants. Analyses in 2 species of Formica – a genus closely related to Cataglyphis – revealed substantially higher numbers of olfactory glomeruli (c. 370), which is likely to reflect the importance of olfaction in these wood ant species. Comparisons between Cataglyphis species revealed 2 special features in C. fortis. First, with c. 198 C. fortis has the lowest number of glomeruli compared to all other species. Second, a conspicuously enlarged glomerulus is located close to the antennal nerve entrance. Males of C. fortis possess a significantly smaller number of glomeruli (c. 150) compared to female workers and queens. A prominent male-specific macroglomerulus likely to be involved in sex pheromone communication occupies a position different from that of the enlarged glomerulus in females. The behavioral significance of the enlarged glomerulus in female workers remains elusive. The fact that C. fortis inhabits microhabitats (salt pans) that are avoided by all other Cataglyphis species suggests that extreme ecological conditions may not only have resulted in adaptations of visual capabilities, but also in specializations of the olfactory system.
Desert ants of the genus Cataglyphis have become model systems for the study of insect navigation. An age-related polyethism subdivides their colonies into interior workers and short-lived light-exposed foragers. While foraging in featureless and cluttered terrain over distances up to several hundred meters, the ants are able to precisely return back to their often inconspicuous nest entrance. They accomplish this enormous navigational performance by using a path integration system - including a polarization compass and an odometer - as their main navigational means in addition to landmark-dependent orientation and olfactory cues. C. fortis, being the focus of the present thesis, is endemic to the salt flats of western North Africa, which are completely avoided by other Cataglyphis species. The fact that Cataglyphis ants undergo a behavioral transition associated with drastically changing sensory demands makes these ants particularly interesting for studying synaptic plasticity in visual and olfactory brain centers. This thesis focuses on plastic changes in the mushroom bodies (MBs) - sensory integration centers supposed to be involved in learning and memory presumably including landmark learning - and in synaptic complexes belonging to the lateral accessory lobe (LAL) known to be a relay station in the polarization processing pathway. To investigate structural synaptic plasticity in the MBs of C. fortis, synaptic complexes (microglomeruli, MG) in the visual (collar) and olfactory (lip) input regions of the MB calyx were immunolabeled and their pre- and postsynaptic profiles were quantified. The results show that a volume increase of the MB calyx during behavioral transition is associated with a decrease of MG number - an effect called pruning - in the collar and, less pronounced, in the lip that goes along with dendritic expansion in MB intrinsic Kenyon cells. Light-exposure of dark-reared ants of different age classes revealed similar effects and dark-reared ants age-matched to foragers had MG numbers comparable to those of interior workers. The results indicate that the enormous structural synaptic plasticity of the MB calyx collar is primarily driven by visual experience rather than by an internal program. Ants aged artificially for up to one year expressed a similar plasticity indicating that the system remains flexible over the entire life-span. To investigate whether light-induced synaptic reorganization is reversible, experienced foragers were transferred back to darkness with the result that their MBs exhibit only some reverse-type characteristics, in particular differences in presynaptic synapsin expression. To investigate the structure of large synaptic complexes in the LAL of C. fortis and to detect potential structural changes, pre- and postsynaptic profiles in interior workers and foragers were immunolabeled and quantified by using confocal imaging and 3D-reconstruction. The results show that these complexes consist of postsynaptic processes located in a central region that is surrounded by a cup-like presynaptic profile. Tracer injections identified input and output tracts of the LAL: projection neurons from the anterior optic tubercle build connections with neurons projecting to the central complex. The behavioral transition is associated with an increase by ~13% of synaptic complexes suggesting that the polarization pathway may undergo some sort of calibration process. The structural features of these synaptic contacts indicate that they may serve a fast and reliable signal transmission in the polarization vision pathway. Behavioral analyses of C. fortis in the field revealed that the ants perform exploration runs including pirouette-like turns very close to the nest entrance for a period of up to two days, before they actually start their foraging activity. During these orientation runs the ants gather visual experience and might associate the nest entrance with specific landmarks or get entrained to other visual information like the polarization pattern, and, concomitantly adapt their neuronal circuitries to the upcoming challenges. Moreover, the pirouettes may serve to stimulate and calibrate the neuronal networks involved in the polarization compass pathway. Video recordings and analyses demonstrate that light experience enhanced the ants’ locomotor activity after three days of exposure. The fact that both the light-induced behavioral and neuronal changes in visual brain centers occur in the same time frame suggests that there may be a link between structural synaptic plasticity and the behavioral transition from interior tasks to outdoor foraging. Desert ants of the genus Cataglyphis possess remarkable visual navigation capabilities, but also employ olfactory cues for detecting nest and food sites. Using confocal imaging and 3D-reconstruction, potential adaptations in primary olfactory brain centers were analyzed by comparing the number, size and spatial arrangement of olfactory glomeruli in the antennal lobe of C. fortis, C. albicans, C. bicolor, C. rubra, and C. noda. Workers of all Cataglyphis species have smaller numbers of glomeruli compared to those of more olfactory-guided Formica species - a genus closely related to Cataglyphis - and to those previously found in other olfactory-guided ant species. C. fortis has the lowest number of glomeruli compared to all other species, but possesses a conspicuously enlarged glomerulus that is located close to the antennal nerve entrance. Males of C. fortis have a significantly smaller number of glomeruli compared to female workers and queens and a prominent male-specific macroglomerulus likely to be involved in sex pheromone communication. The behavioral significance of the enlarged glomerulus in female workers remains elusive. The fact that C. fortis inhabits microhabitats that are avoided by all other Cataglyphis species suggests that extreme ecological conditions may not only have resulted in adaptations of visual capabilities, but also in specializations of the olfactory system. The present thesis demonstrates that Cataglyphis is an excellent candidate for studying the neuronal mechanisms underlying navigational features and for studying neuronal plasticity associated with the ant’s lifelong flexibility of individual behavioral repertoires.
Animals must slow or halt locomotion to integrate sensory inputs or to change direction. In Caenorhabditis elegans, the GABAergic and peptidergic neuron RIS mediates developmentally timed quiescence. Here, we show RIS functions additionally as a locomotion stop neuron. RIS optogenetic stimulation caused acute and persistent inhibition of locomotion and pharyngeal pumping, phenotypes requiring FLP-11 neuropeptides and GABA. RIS photoactivation allows the animal to maintain its body posture by sustaining muscle tone, yet inactivating motor neuron oscillatory activity. During locomotion, RIS axonal Ca2+ signals revealed functional compartmentalization: Activity in the nerve ring process correlated with locomotion stop, while activity in a branch correlated with induced reversals. GABA was required to induce, and FLP-11 neuropeptides were required to sustain locomotion stop. RIS attenuates neuronal activity and inhibits movement, possibly enabling sensory integration and decision making, and exemplifies dual use of one cell across development in a compact nervous system.
The opportunistic human pathogen Staphylococcus aureus causes serious infectious diseases that range from superficial skin and soft tissue infections to necrotizing pneumonia and sepsis. While classically regarded as an extracellular pathogen, S. aureus is able to invade and survive within human cells. Host cell exit is associated with cell death, tissue destruction, and the spread of infection. The exact molecular mechanism employed by S. aureus to escape the host cell is still unclear. In this study, we performed a genome-wide small hairpin RNA (shRNA) screen and identified the calcium signaling pathway as being involved in intracellular infection. S. aureus induced a massive cytosolic Ca\(^{2+}\) increase in epithelial host cells after invasion and intracellular replication of the pathogen. This was paralleled by a decrease in endoplasmic reticulum Ca\(^{2+}\) concentration. Additionally, calcium ions from the extracellular space contributed to the cytosolic Ca2+ increase. As a consequence, we observed that the cytoplasmic Ca\(^{2+}\) rise led to an increase in mitochondrial Ca\(^{2+}\) concentration, the activation of calpains and caspases, and eventually to cell lysis of S. aureus-infected cells. Our study therefore suggests that intracellular S. aureus disturbs the host cell Ca\(^{2+}\) homeostasis and induces cytoplasmic Ca\(^{2+}\) overload, which results in both apoptotic and necrotic cell death in parallel or succession.
IMPORTANCE Despite being regarded as an extracellular bacterium, the pathogen Staphylococcus aureus can invade and survive within human cells. The intracellular niche is considered a hideout from the host immune system and antibiotic treatment and allows bacterial proliferation. Subsequently, the intracellular bacterium induces host cell death, which may facilitate the spread of infection and tissue destruction. So far, host cell factors exploited by intracellular S. aureus to promote cell death are only poorly characterized. We performed a genome-wide screen and found the calcium signaling pathway to play a role in S. aureus invasion and cytotoxicity. The intracellular bacterium induces a cytoplasmic and mitochondrial Ca\(^{2+}\) overload, which results in host cell death. Thus, this study first showed how an intracellular bacterium perturbs the host cell Ca\(^{2+}\) homeostasis."
Staphylococcus aureus is a major human pathogen, which can invade and survive in non-professional and professional phagocytes. Uptake by host cells is thought to contribute to pathogenicity and persistence of the bacterium. Upon internalization by epithelial cells, cytotoxic S. aureus strains can escape from the phagosome, replicate in the cytosol and induce host cell death. Here, we identified a staphylococcal cysteine protease to induce cell death after translocation of intracellular S. aureus into the host cell cytoplasm. We demonstrated that loss of staphopain A function leads to delayed onset of host cell death and prolonged intracellular replication of S. aureus in epithelial cells. Overexpression of staphopain A in a non-cytotoxic strain facilitated intracellular killing of the host cell even in the absence of detectable intracellular replication. Moreover, staphopain A contributed to efficient colonization of the lung in a mouse pneumonia model. In phagocytic cells, where intracellular S. aureus is exclusively localized in the phagosome, staphopain A did not contribute to cytotoxicity. Our study suggests that staphopain A is utilized by S. aureus to exit the epithelial host cell and thus contributes to tissue destruction and dissemination of infection.
Author summary Staphylococcus aureus is an antibiotic-resistant pathogen that emerges in hospital and community settings and can cause a variety of diseases ranging from skin abscesses to lung inflammation and blood poisoning. The bacterium can asymptomatically colonize the upper respiratory tract and skin of humans and take advantage of opportune conditions, like immunodeficiency or breached barriers, to cause infection. Although S. aureus was not regarded as intracellular bacterium, it can be internalized by human cells and subsequently exit the host cells by induction of cell death, which is considered to cause tissue destruction and spread of infection. The bacterial virulence factors and underlying molecular mechanisms involved in the intracellular lifestyle of S. aureus remain largely unknown. We identified a bacterial cysteine protease to contribute to host cell death of epithelial cells mediated by intracellular S. aureus. Staphopain A induced killing of the host cell after translocation of the pathogen into the cell cytosol, while bacterial proliferation was not required. Further, the protease enhanced survival of the pathogen during lung infection. These findings reveal a novel, intracellular role for the bacterial protease staphopain A.
Staphylococcus aureus is a Gram-positive commensal bacterium, that asymptomatically colonizes human skin and mucosal surfaces. Upon opportune conditions, such as immunodeficiency or breached barriers of the host, it can cause a plethora of infections ranging from local, superficial infections to life-threatening diseases. Despite being regarded as an extracellular pathogen, S. aureus can invade and survive within non-phagocytic and phagocytic cells. Eventually, the pathogen escapes from the host cell resulting in killing of the host cell, which is associated with tissue destruction and spread of infection. However, the exact molecular mechanisms underlying S. aureus-induced host cell death remain to be elucidated.
In the present work, a genome-wide haploid genetic screen was performed to identify host cell genes crucial for S. aureus intracellular cytotoxicity. A mutant library of the haploid cell line HAP1 was infected with the pathogen and cells surviving the infection were selected. Twelve genes were identified, which were significantly enriched when compared to an infection with a non-cytotoxic S. aureus strain.
Additionally, characteristics of regulated cell death pathways and the role of Ca2+ signaling in S. aureus-infected cells were investigated. Live cell imaging of Ca2+ reporter cell lines was used to analyze single cells. S. aureus-induced host cell death exhibited morphological features of apoptosis and activation of caspases was detected. Cellular H2O2 levels were elevated during S. aureus intracellular infection. Further, intracellular S. aureus provoked cytosolic Ca2+ overload in epithelial cells. This resulted from Ca2+ release from endoplasmic reticulum and Ca2+ influx via the plasma membrane and led to mitochondrial Ca2+ overload. The final step of S. aureus-induced cell death was plasma membrane permeabilization, a typical feature of necrotic cell death.
In order to identify bacterial virulence factors implicated in S. aureus-induced host cell killing, the cytotoxicity of selected mutants was investigated. Intracellular S. aureus employs the bacterial cysteine protease staphopain A to activate an apoptosis-like cell death characterized by cell contraction and membrane bleb formation. Phagosomal escape represents a prerequisite staphopain A-induced cell death, whereas bacterial intracellular replication is dispensable. Moreover, staphopain A contributed to efficient colonization of the lung in a murine pneumonia model.
In conclusion, this work identified at least two independent cell death pathways activated by intracellular S. aureus. While initially staphopain A mediates S. aureus-induced host cell killing, cytosolic Ca2+-overload follows later and leads to the final demise of the host cell.
Unicellular parasites have developed sophisticated swimming mechanisms to survive in a wide range of environments. Cell motility of African trypanosomes, parasites responsible for fatal illness in humans and animals, is crucial both in the insect vector and the mammalian host. Using millisecond-scale imaging in a microfluidics platform along with a custom made optical trap, we are able to confine single cells to study trypanosome motility. From the trapping characteristics of the cells, we determine the propulsion force generated by cells with a single flagellum as well as of dividing trypanosomes with two fully developed flagella. Estimates of the dissipative energy and the power generation of single cells obtained from the motility patterns of the trypanosomes within the optical trap indicate that specific motility characteristics, in addition to locomotion, may be required for antibody clearance. Introducing a steerable second optical trap we could further measure the force, which is generated at the flagellar tip. Differences in the cellular structure of the trypanosomes are correlated with the trapping and motility characteristics and in consequence with their propulsion force, dissipative energy and power generation.
Mimicking female insects to attract male pollinators is an important strategy in sexually deceptive orchids of the genus Ophrys, and some species possess flowers with conspicuous labellum patterns. The function of the variation of the patterns remains unresolved, with suggestions that these enhance pollinator communication. We investigated the possible function of the labellum pattern in Ophrys heldreichii, an orchid species in which the conspicuous and complex labellum pattern contrasts with a dark background. The orchid is pollinated exclusively by males of the solitary bee, Eucera berlandi. Comparisons of labellum patterns revealed that patterns within inflorescences are more similar than those of other conspecific plants. Field observations showed that the males approach at a great speed and directly land on flowers, but after an unsuccessful copulation attempt, bees hover close and visually scan the labellum pattern for up to a minute. Learning experiments conducted with honeybees as an accessible model of bee vision demonstrated that labellum patterns of different plants can be reliably learnt; in contrast, patterns of flowers from the same inflorescence could not be discriminated. These results support the hypothesis that variable labellum patterns in O. heldreichii are involved in flower-pollinator communication which would likely help these plants to avoid geitonogamy.
Small bacterial regulatory RNAs (sRNAs) have been implicated in the regulation of numerous metabolic pathways. In most of these studies, sRNA-dependent regulation of mRNAs or proteins of enzymes in metabolic pathways has been predicted to affect the metabolism of these bacteria. However, only in a very few cases has the role in metabolism been demonstrated. Here, we performed a combined transcriptome and metabolome analysis to define the regulon of the sibling sRNAs NgncR_162 and NgncR_163 (NgncR_162/163) and their impact on the metabolism of Neisseria gonorrhoeae. These sRNAs have been reported to control genes of the citric acid and methylcitric acid cycles by posttranscriptional negative regulation. By transcriptome analysis, we now expand the NgncR_162/163 regulon by several new members and provide evidence that the sibling sRNAs act as both negative and positive regulators of target gene expression. Newly identified NgncR_162/163 targets are mostly involved in transport processes, especially in the uptake of glycine, phenylalanine, and branched-chain amino acids. NgncR_162/163 also play key roles in the control of serine-glycine metabolism and, hence, probably affect biosyntheses of nucleotides, vitamins, and other amino acids via the supply of one-carbon (C\(_1\)) units. Indeed, these roles were confirmed by metabolomics and metabolic flux analysis, which revealed a bipartite metabolic network with glucose degradation for the supply of anabolic pathways and the usage of amino acids via the citric acid cycle for energy metabolism. Thus, by combined deep RNA sequencing (RNA-seq) and metabolomics, we significantly extended the regulon of NgncR_162/163 and demonstrated the role of NgncR_162/163 in the regulation of central metabolic pathways of the gonococcus.
Bee pollination increases yield quantity and quality of cash crops in Burkina Faso, West Africa
(2017)
Mutualistic biotic interactions as among flowering plants and their animal pollinators are a key component of biodiversity. Pollination, especially by insects, is a key element in ecosystem functioning, and hence constitutes an ecosystem service of global importance. Not only sexual reproduction of plants is ensured, but also yields are stabilized and genetic variability of crops is maintained, counteracting inbreeding depression and facilitating system resilience. While experiencing rapid environmental change, there is an increased demand for food and income security, especially in sub-Saharan communities, which are highly dependent on small scale agriculture. By combining exclusion experiments, pollinator surveys and field manipulations, this study for the first time quantifies the contribution of bee pollinators to smallholders’ production of the major cash crops, cotton and sesame, in Burkina Faso. Pollination by honeybees and wild bees significantly increased yield quantity and quality on average up to 62%, while exclusion of pollinators caused an average yield gap of 37% in cotton and 59% in sesame. Self-pollination revealed inbreeding depression effects on fruit set and low germination rates in the F1-generation. Our results highlight potential negative consequences of any pollinator decline, provoking risks to agriculture and compromising crop yields in sub-Saharan West Africa.
West African savannas are severely threatened with intensified land use and increasing degradation. Bees are important for terrestrial biodiversity as they provide native plant species with pollination services. However, little information is available regarding their mutualistic interactions with woody plant species. In the first network study from sub-Saharan West Africa, we investigated the effects of land-use intensity and climatic seasonality on plant–bee communities and their interaction networks. In total, we recorded 5686 interactions between 53 flowering woody plant species and 100 bee species. Bee-species richness and the number of interactions were higher in the low compared to medium and high land-use intensity sites. Bee- and plant-species richness and the number of interactions were higher in the dry compared to the rainy season. Plant–bee visitation networks were not strongly affected by land-use intensity; however, climatic seasonality had a strong effect on network architecture. Null-model corrected connectance and nestedness were higher in the dry compared to the rainy season. In addition, network specialization and null-model corrected modularity were lower in the dry compared to the rainy season. Our results suggest that in our study region, seasonal effects on mutualistic network architecture are more pronounced compared to land-use change effects. Nonetheless, the decrease in bee-species richness and the number of plant–bee interactions with an increase in land-use intensity highlights the importance of savanna conservation for maintaining bee diversity and the concomitant provision of ecosystem services.
Background
Artificial rearing of honey bee larvae is an established method which enables to fully standardize the rearing environment and to manipulate the supplied diet to the brood. However, there are no studies which compare learning performance or neuroanatomic differences of artificially-reared (in-lab) bees in comparison with their in-hive reared counterparts.
Methods
Here we tested how different quantities of food during larval development affect body size, brain morphology and learning ability of adult honey bees. We used in-lab rearing to be able to manipulate the total quantity of food consumed during larval development. After hatching, a subset of the bees was taken for which we made 3D reconstructions of the brains using confocal laser-scanning microscopy. Learning ability and memory formation of the remaining bees was tested in a differential olfactory conditioning experiment. Finally, we evaluated how bees reared with different quantities of artificial diet compared to in-hive reared bees.
Results
Thorax and head size of in-lab reared honey bees, when fed the standard diet of 160 µl or less, were slightly smaller than hive bees. The brain structure analyses showed that artificially reared bees had smaller mushroom body (MB) lateral calyces than their in-hive counterparts, independently of the quantity of food they received. However, they showed the same total brain size and the same associative learning ability as in-hive reared bees. In terms of mid-term memory, but not early long-term memory, they performed even better than the in-hive control.
Discussion
We have demonstrated that bees that are reared artificially (according to the Aupinel protocol) and kept in lab-conditions perform the same or even better than their in-hive sisters in an olfactory conditioning experiment even though their lateral calyces were consistently smaller at emergence. The applied combination of experimental manipulation during the larval phase plus subsequent behavioral and neuro-anatomic analyses is a powerful tool for basic and applied honey bee research.
Das NKG2D (Natural Killer Group 2 Member D)-Protein, ist ein aktivierender Rezeptor, der es NK- und CD8+ T-Zellen ermöglicht, infizierte oder transformierte körpereigene Zellen zu erkennen und zu eliminieren. Eine Fehlregulation dieses Rezeptors auf Immunzellen scheint jedoch auch zur Ausbildung von Autoimmunerkrankungen wie Typ I Diabetes, Zöliakie und RA zu führen. Im Rahmen dieser Arbeit wurde ein humaner Antikörper gegen hNKG2D für einen möglichen therapeutischen Einsatz bei Autoimmunerkrankungen generiert. Basierend auf den Sequenzen von schwerer (VH) und leichter Kette (VL) der murinen monoklonalen Antikörper 6H7 und 6E5A7, welche hNKG2D spezifisch binden und die Interaktion zwischen Ligand und Rezeptor blockieren, wurden scFv-Phagenbibliotheken hergestellt. Diese wurden anschließend zur Selektion im Phagen-Display eingesetzt. Der Humanisierungsprozess erfolgte hierbei mit Hilfe des Guided Selection-Verfahrens. Dazu wurde in einem ersten Phagen-Display-Durchgang die VH-Domäne des parentalen scFv mit einem humanen VL-Repertoire kombiniert. Die beiden daraus resultierenden humanen VL-Ketten wurden im darauf folgenden Schritt mit einem Repertoire an humanen VH-Domänen verknüpft. Da hierbei kein humaner rekombinanter scFv mit hNKG2D-Bindungsaktivität identifiziert werden konnte, musste eine schrittweise Humanisierung der Framework-Regionen (FR) der VH unter Beibehaltung der murinen CDR-Bereiche erfolgen. Diese führte zur Generierung des humanen scFv E1VLV71KVH, welcher neben den murinen CDR-Regionen lediglich noch drei Aminosäuren murinen Ursprungs im FR-Bereich besaß. Dessen biologische Aktivität wurde nach Konvertierung in das IgG1/lambda-Format in verschiedenen in vitro-Systemen analysiert. Anhand der Ergebnisse aus diesen Versuchen konnte ein deutlicher Verlust der Affinität und inhibitorischen Aktivität nach der Humanisierung festgestellt werden. Die dadurch erforderliche Affinitätsmaturierung des E1VLV71KVH Antikörpers mittels sequentieller Randomisierung des CDR3-Bereichs von E1VL und V71KVH resultierte in fünf unterschiedlichen, hoch-affinen Anti-hNKG2D scFv. Zwei dieser generierten Konstrukte, B1VLB6VH und E4VLG10VH, wurden nach ihrer Herstellung als vollständige IgG1/lambda-Antikörper in vitro hinsichtlich ihrer Aktivierungs- und Neutralisierungsaktivität, sowie ihrer Stabilität und Internalisierung durch NK-Zellen untersucht. Beide Antikörper wiesen nach der Affinitätsmaturierung mit einem IC50 von ca. 3,4x 10-2 µg/ml ein wesentlich höheres Inhibitionspotential als der murine Ursprungsantikörper (ca. 3,3 µg/ml) auf und zeigten gegenüber Hitzeeinwirkung und Serumproteasen eine hohe Stabilität. Mit Hilfe fluoreszenzmikroskopischer Untersuchungen konnten Internalisierungsvorgänge der Antikörper in die NK-Zelle beobachtet werden. Für ein besseres Verständnis NKG2D-abhängiger Regulationsvorgänge und die Identifizierung NKG2D-spezifischer Zielgene wurde das Genexpressionsprofil von humanen NK-Zellen nach Interaktion mit dem NKG2D-Liganden ULBP-1Fc mittels Microarray untersucht. Infolge einer anschließenden Validierung der Ergebnisse auf RNA- und Proteinebene konnten mittels RT-qPCR, FACS, ELISA und CBA NKG2D-spezifische Biomarker wie CRTAM, TNFalpha, IFNgamma und GM-CSF etabliert werden. Ergänzend zu 51Cr-Freisetzungs-Experimenten in zwei unterschiedlichen in vitro Zellkultursystemen ermöglichten diese Biomarker eine umfassende Charakterisierung neutralisierender und aktivierender Eigenschaften der beiden Antikörper B1VLB6VH und E4VLG10VH. Anhand dieser Experimente konnte festgestellt werden, dass die humanen Anti-hNKG2D Antikörper eine ambivalente Funktionalität aufweisen. In Lösung sind sie in der Lage, NKG2D-induzierte CRTAM-Expression, Zellyse und Zytokinfreisetzung zu inhibieren. Nach Kreuzvernetzung des NKG2D-Rezeptors über an Platten immobilisierte Anti-hNKG2D Antikörper hingegen lassen sich aktivierende Eigenschaften wie Zellyse und Zytokinsekretion durch NK Zellen beobachten. Aufgrund ihrer ambivalenten Aktivität scheint ein therapeutischer Einsatz der beiden Antikörper bei humanen Autoimmunerkrankungen zum jetzigen Zeitpunkt noch nicht möglich. In der vorliegenden Arbeit wurden somit die Voraussetzungen geschaffen, um einen humanen, hoch affinen hNKG2D neutralisierenden Antikörper in einem letzten Schritt in ein besser geeignetes Antikörper-Format (scFv, Fab oder F(ab)2) zu konvertieren.
Study of Omp85 Family Proteins YaeT and YtfM and Multidrug Export Machineries in Escherichia coli
(2006)
In this study the Omp85 family proteins YaeT and YtfM of Escherichia coli were investigated by using biochemical and electrophysiological methods as well as bioinformatical and structural analysis. In addition, knock-out strains were constructed to further study the relevance of these proteins in vivo. The prediction that Omp85 proteins are composed of two domains, a periplasmic amino-terminal POTRA (polypeptide translocation associated) domain and a carboxy-terminal domain anchoring these proteins in the outer membrane, was confirmed by the construction of mutants. It could be shown that the carboxy-terminal part of the proteins is able to insert into the outer bacterial membrane, even if the POTRA domain is removed. Furthermore, pore-forming activity in the black-lipid bilayer was observed for both full-length proteins as well as their carboxy-terminal membrane located parts. The channels formed by both proteins in the black lipid bilayer showed variable single channel conductance states rather than a defined value for conductance. In 1M KCl, e.g. YaeT forms pores with a channel conductance of 100 to 600 pS containing a most abundant value at 400 pS. This variability is at least reasonable for YaeT due to a prerequisite flexibility of its channel for OMP insertion. YaeT was identified to form a cation selective, YtfM an anion selective channel, which is less pH dependent than YaeT. Another feature of the YaeT channel is that its selectivity and conductance is influenced by charged detergent molecules indicating an accumulation of these molecules in hydrophobic pockets inside the compact channel. YaeT revealed heat-modifiable mobility in SDS-PAGE which is characteristic for β-barrel OMPs, whereas YtfM did not show this behaviour. This result could be explained by sequence alignment and structural comparison of YaeT and YtfM via CD and FTIR spectra displaying much higher β-strand content for the carboxy-terminal part of YaeT compared to YtfM. Since the carboxy-terminal parts were shown to have pore forming ability and are inserted in the OM in vivo, the substitution of the essential protein YaeT by its carboxy-terminal mutant was attempted in a yaeT knock-out strain. The carboxy-terminal half of YaeT was not sufficient to compensate depletion of the full-length protein indicating an important role of the amino-terminus for cell viability. In contrary, YtfM is shown to be a non-essential protein and lack of YtfM had no effects on the composition and integrity of the OM. However, chromosomal deletion of ytfM remarkably reduced the growth rate of cells. This study provides the first detailed investigation of the structure of YaeT and describes its electrophysiological behaviour, which could be a basis for further studies of YaeT and its substrate proteins. Furthermore, YtfM was characterised and its in vivo function was investigated revealing YtfM as the second Omp85 family protein of importance in E. coli. In a second part of this study assembly and function of multidrug efflux pumps were investigated. Drug efflux pumps are tripartite export machineries in the cell envelope of Gram-negative bacteria conferring multidrug resistance and therefore causing severe problems for medical treatment of diseases. Protein structures of all three efflux pump components are solved, but the exact interaction sites are still unknown. Assembly of a hybrid exporter system composed of the Pseudomonas aeruginosa channel tunnel OprM, the E. coli adaptor protein AcrA and its associated transporter AcrB could be shown by chemical cross-linking, even though this efflux pump is not functional. Exchange of the hairpin domain of AcrA by the corresponding hairpin from the adaptor protein MexA of P. aeruginosa restored functionality tested by antibiotic sensitivity assays. This shows the importance of the MexA hairpin domain for functional interaction with the OprM channel tunnel. Interestingly, the hybrid protein was also able to assemble with TolC as outer membrane component to form a functional efflux pump indicating a higher flexibility of TolC compared to OprM concerning interaction partners. Based on these results, an interaction model of the hairpin domain and the channel tunnel on molecular level for AcrA and TolC as well as MexA and OprM, respectively, is presented. This model provides a basis for directed mutagenesis to reveal the exact contact sites of the hairpin of the adapter protein and the outer membrane component
Brutpflege, Lebensgeschichte und Taxonomie südostasiatischer Membraciden (Insecta: Homoptera)
(2000)
Diese Arbeit untersucht die systematische Verbreitung der Brutpflege bei südostasiatischen Buckelzirpen (Homoptera: Membracidae) sowie verhaltensökologische Aspekte dieses Verhaltens bei Pyrgauchenia tristaniopsis. Ergänzend dazu wurden Aspekte der Taxonomie, Lebensgeschichte, Reproduktionsbiologie und Morphometrie dieser Art untersucht, deren Kenntnis für die Interpretation des Brutpflegeverhaltens erforderlich waren. Die Ergebnisse (1) widersprechen der starken Version der Semelparitie-Hypothese (ein Fortpflanzungsereignis pro Fortpflanzungsperiode als Voraussetzung für Brutpflege bei Insekten), und sie zeigen, dass (2) Brutpflege bei altweltlichen Centrotinae - entgegen früherer Vermutungen - keine Ausnahme ist. Außerdem konnten erstmals einige grundlegende Aspekte der Biologie eines südostasiatischen Vertreters der Familie Membracidae geklärt werden. Aufsammlungen in der bodennahen Vegetation wurden in 16 Untersuchungsgebieten in West-Malaysia und Sabah (Borneo) von 1996-1998 durchgeführt. Weibliche Brutfürsorge in Form von Gelegebewachung wurde bei 11 Arten aus folgenden Gattungen gefunden: Pyrgauchenia, Pyrgonota, Hybandoides, Gigantorhabdus (Hypsaucheniini), Centrochares (Centrocharesini), Ebhul (Ebhuloidesini). Larven dieser Arten lebten in Aggregationen zusammen. Drei Arten werden neu beschrieben (Pyrgauchenia biuni, P. pendleburyi, P. tristaniopsis). Zwei nominelle Arten (P. angulata Funkhouser und P. brunnea Funkhouser) sind Junior-Synonyme von P. colorata Distant. Die Arbeiten zu Pyrgauchenia tristaniopsis fanden im unteren Montanregenwald des Kinabalu Nationalparks (Borneo) statt. Diese Art wurde nur dort gefunden (zwischen 1350 m und 1650 m ü. NN), und sie war polyphag (alle Entwicklungsstadien auf 11 Pflanzenarten aus 8 Familien). Es gab fünf Larvenstadien, deren Entwicklungszeit zusammen 63-83 Tage betrug (Embryonalentwicklung: 22 Tage). Larven lebten aggregierend und wurden von Ameisen besucht (insgesamt 4 Morphospecies). Es gab Hinweise, dass frisch gehäutete Imagines noch etwa 10 Tage in der Aggregation verblieben. Spätestens 5 bzw. 10 Tage nach der Imaginalhäutung waren Weibchen bzw. Männchen zu einer Erstkopulation bereit. Bei der Paarung kletterte das Männchen nach der Kontaktaufnahme auf das Weibchen und blieb dort im Median 138 Sekunden sitzen (Präkopula), worauf eine im Median 116-minütige Kopulation folgen konnte. Während der Präkopula sandte das Männchen Vibrationssignale aus. Die Art war promiskuitiv, und manche Weibchen paarten sich während der Gelegebewachung. Das Geschlechterverhältnis war zum Zeitpunkt der Imaginalhäutung ausgeglichen. Die Eimortalität aufgrund einer Kohortenanalyse betrug 35 Prozent. Prädatoren der Larven und Imagines waren besonders Springspinnen (Salticidae). Die Eier wurden von Brachygrammatella sp. (Trichogrammatidae) parasitiert. Eier wurden als Gelege ins Gewebe von Wirtspflanzenzweigen gelegt (Unterseite). Die Anzahl Eier pro Gelege (etwa 57) nahm mit der Bewachungsdauer des Weibchens zu. Bevorzugungen von Gelegepositionen ober- oder unterhalb bereits vorhandener Gelege waren nicht festzustellen. Im Median wurden 3-4 (1998er, 1997er Zensus) Gelege zusammen auf einem Zweig gefunden. Bei einem Wiederfangversuch legte mindestens die Hälfte aller Weibchen während ihres Lebens mindestens zwei Gelege. Zwischen Verlassen des ersten Geleges (auf dem ein Weibchen gefunden wurde) und der Oviposition ihres Folgegeleges vergingen im Median 5 Tage. Folgegelege wurden meist auf derselben Wirtspflanze wie das erste Gelege abgelegt. Der Fettkörper vergrößerte sich wieder nach der Oviposition, aber noch während der Bewachung des aktuellen Geleges. Weibchen saßen 26-28 Tage lang (nach Beginn der Oviposition) auf ihrem Gelege, d.h. bis zum 5.-8. Tag nach Schlupfbeginn der Larven (die Larven schlüpften sukzessiv, erst 9 Tage nach Schlupfbeginn waren die meisten LI geschlüpft). Weibchen kehrten nach experimenteller Vertreibung vom Gelege auf dieses zurück. In Wahlversuchen wurde aber das eigene Gelege gegenüber einem fremden nicht präferiert. Weibchen wichen bei Störungen stets zur Seite aus und begannen ihre Suche immer mit Seitwärtsbewegungen. Experimentell herbeigeführter Kontakt mit dem Eiparasitoid Brachygrammatella sp. genügte, um die Beinabwehr bewachender Weibchen zu erhöhen. Die Häufigkeit von Beinbewegungen war nicht nur vom Vorhandensein eines Geleges, sondern auch von der Tageszeit abhängig. Gelegebewachung förderte das Überleben der Eier: Die Eimortalität stieg mit experimenteller Verkürzung der weiblichen Bewachungsdauer an (unabhängig von der Gelegegröße). Gelegebewachung verzögerte die Ablage von Folgegelegen, wie durch experimentelles Verkürzen der Bewachungsdauer aktuell bewachter Gelege gezeigt wurde. Abgebrochene pronotale Dorsaldornen minderten nicht die Paarungswahrscheinlichkeit: Die Häufigkeit kopulierender Männchen und Weibchen mit abgebrochenem Dorn wich nicht von ihrer jeweiligen Häufigkeit in der Population ab. Bei 52 Prozent aller Gelege bewachenden Weibchen war der Dorsaldorn abgebrochen. Weibchen waren länger und schwerer als Männchen, und einige pronotale Merkmale (z.B. der Caudaldorn) waren ebenfalls bei den Weibchen länger. Dorsaldorn und Distallobus waren dagegen bei Männchen länger, und zwar bei gleicher Körpergröße. Geschwister ähnelten sich besonders hinsichtlich Gewicht sowie Körper- und Dorsaldornlänge, was durch große Heritabilität, gleiche Umweltbedingungen und Inzucht erklärt werden könnte.
The embryonic vertebrate heart tube develops an atrioventricular canal that divides the atrial and ventricular chambers, forms atrioventricular conduction tissue and organizes valve development. Here we assess the transcriptional mechanism underlying this localized differentiation process. We show that atrioventricular canal-specific enhancers are GATA-binding site-dependent and act as switches that repress gene activity in the chambers. We find that atrioventricular canal-specific gene loci are enriched in H3K27ac, a marker of active enhancers, in atrioventricular canal tissue and depleted in H3K27ac in chamber tissue. In the atrioventricular canal, Gata4 activates the enhancers in synergy with Bmp2/Smad signalling, leading to H3K27 acetylation. In contrast, in chambers, Gata4 cooperates with pan-cardiac Hdac1 and Hdac2 and chamber-specific Hey1 and Hey2, leading to H3K27 deacetylation and repression. We conclude that atrioventricular canal-specific enhancers are platforms integrating cardiac transcription factors, broadly active histone modification enzymes and localized co-factors to drive atrioventricular canal-specific gene activity.
Within the last decades, land use intensification reduced the heterogeneity of habitats and landscapes. The resulting pauperization led to habitats and landscapes that are spatially or temporally limited in food and nesting resources for solitary bees and wasps. Hence, biodiversity and ecosystem processes are seriously threatened. The impacts of changing resource conditions for valuable pollinators and (pest) predators remain poorly studied as well as their top-down regulation by natural enemies. Further, the reproductive success of solitary bees as response to changed resource distribution within foraging ranges is rarely examined. We considered trap-nesting bees, wasps and their antagonists as suitable model organisms to fill these gaps of knowledge, since trap nests provide insight into otherwise hidden trophic interactions, like parasitism and predation, as well as ecological processes, like pollination and reproduction. Moreover, trap-nesting species are established as essential biodiversity indicator taxa. Thus, we first asked in Chapter II how the reproduction of cavity-nesting bees and wasps in grasslands depends on local management Moreover, we tested land use effects on the effectiveness of two groups of antagonists in regulating bee and wasp populations by excluding ground-dwelling antagonists. We characterized nest closure type to determine their protective function against antagonist attacks. In a highly replicated, large-scaled study, we provided 95 grassland sites in three geographic regions in Germany with 760 trap-nests. The full factorial design comprised mown and unmown plots as well as plots with and without access of ground-dwelling predators to the trap nests. The colonization of bees and wasps was unaffected by ground-dwelling antagonists. However, excluding ground-dwellers enhanced the attack rate of flying antagonists. Experimental mowing marginally affected the colonization of wasps but not attack rates. Nevertheless, both treatments – mowing and predator exclusion – significantly interacted. The exclusion of ground-dwellers on mown plots resulted in higher attack rates of flying antagonists, whereas on unmown plots this effect of ground-dweller-exclusion on the attack rate of flying antagonists was not visible. Further, attack rates were determined by nest closure material, local abundance of different nest closure types as well as closure-associated antagonist species. In Chapter III, we studied the relative impact of local land use intensity, landscape composition and configuration on the species richness and abundance of bees, wasps and their antagonists. We analysed abundances and species numbers of hosts and their antagonists as well as parasitism rate and conducted a comprehensive landscape mapping. The digitized landscape data were the basis for further calculations of landscape metrics, like landscape composition and configuration within eight spatial scales ranging from 250 to 2,000 m radii. We used a compound, additive index of local land use intensity. Host abundance was only marginally negatively affected by local land use intensity. However, landscape composition at small spatial scales enhanced the species richness and abundance of hosts, while species richness and abundance of antagonists was positively related to landscape configuration at larger spatial scales. In the last study, presented in Chapter IV, we observed nesting bees on a selection of 18 grassland sites in two of the three research regions. We estimated the importance of resource distribution for pollen-nectar trips and consequences for the reproductive success of the solitary Red Mason Bee (Osmia bicornis). Local land use intensity, local flower cover as well as landscape composition and configuration were considered as critical factors of influence. We equipped each grassland site with eight trap nests and 50 female bees. Different nest building activities, like foraging trips for pollen and nectar, were measured. After the nesting season, we calculated measures of reproductive success. Foraging trips for pollen and nectar were significantly shorter in spatially complex landscapes but were neither affected by local metrics nor landscape composition. We found no evidence that the duration of pollen-nectar trips determines the reproductive success. Thus, to maintain trophic interactions and biodiversity, local land use as well as landscape diversity and spatial complexity should be accounted for to create spatial and temporal stability of food and nesting resources within small spatial scales. Concrete steps to support pollinator populations include hedges, sown field margins or other linear elements. These measures that enhance the connectivity of landscapes can also support flying antagonists.
These days, treatment of melanoma patients relies on targeted therapy with BRAF/MEK inhibitors and on immunotherapy. About half of all patients initially respond to existing therapies. Nevertheless, the identification of alternative therapies for melanoma patients with intrinsic or acquired resistance is of great importance. In melanoma, antioxidants play an essential role in the maintenance of the redox homeostasis. Therefore, disruption of the redox homeostasis is regarded as highly therapeutically relevant and is the focus of the present work.
An adequate supply of cysteine is essential for the production of the most important intracellular antioxidants, such as glutathione. In the present work, it was investigated whether the depletion of cysteine and glutathione is therapeutically useful. Depletion of glutathione in melanoma cells could be achieved by blocking cysteine supply, glutathione synthesis, and NADPH regeneration. As expected, this led to an increased level of reactive oxygen species (ROS). Surprisingly, however, these changes did not impair the proliferation and survival of the melanoma cells. In contrast, glutathione depletion led to cellular reprogramming which was characterized by the induction of mesenchymal genes and the repression of differentiation markers (phenotypic switch). This was accompanied by an increased migration and invasion potential which was favored by the induction of the transcription factor FOSL1. To study in vivo reprogramming, Gclc, the first and rate-limiting enzyme in glutathione synthesis, was knocked out by CRISPR/Cas9 in murine melanoma cells. The cells were devoid of glutathione, but were fully viable and showed a phenotypic switch, the latter only in MITF-expressing B16F1 cells and not in MITF-deficient D4M3A.781 cells. Following subcutaneous injection into immunocompetent C57BL/6 mice, Gclc knockout B16F1 cells grew more aggressively and resulted in an earlier tumor onset than B16F1 control cells.
In summary, this work demonstrates that inhibition of cysteine supply and thus, glutathione synthesis leads to cellular reprogramming in melanoma. In this context, melanoma cells show metastatic capabilities, promoting a more aggressive form of the disease.
Summary (English)
I. Human induced global change threatens biodiversity and trophic interactions. Fragmentation is considered as one of the major threats to biodiversity and can cause reduced species richness, population declines, loss of genetic diversity and disruption of trophic interactions such as predation and parasitism. However forest fragmentation effects can be eclectic due to species specific traits. Specialist species with narrower niches or at higher trophic levels may be in danger of extinction whereas generalist species with less specific habitat requirements may even profit from fragmentation. In the tropics, known as “the” terrestrial biodiversity hotspots, even biodiversity inventories are often lacking, especially in forest canopies. Ongoing deforestation and resulting fragmentation in tropical regions are expected to heavily affect ecosystem functions by changes in biodiversity, community compositions and disruption of trophic interactions. It is even less unknown in what extent different global change drivers for example climate change and fragmentation interact. It is unlikely that deforestation will end, so that small secondary forest fragments will be important habitat elements that must be investigated to optimize their potential contribution to biodiversity conservation.
This dissertation aimed to disentangle the effects of forest fragmentation on trap-nesting bee and wasp communities in small secondary forest fragments addressing the following main questions:
1) Are there interactive effects between microclimate and fragmentation on the abundance of bees and wasps, their mortality - and parasitism rates (Chapter II)?
2) How does fragmentation affect bee biodiversity from canopy to the understory with considerations of single species patterns (Chapter III)?
3) How is fragmentation affecting diversity and community composition of different trophic levels between understory and canopy with emphasis on the host-antagonist relation? (Chapter IV).
II. A variety of global change drivers affect biodiversity and trophic interactions. The combined effects of habitat fragmentation and climate change are poorly understood and with ongoing deforestation and agricultural intensification secondary rainforest fragments might contribute to biodiversity conservation and mitigation of climate warming. This chapter investigated the interactive effects of habitat fragmentation and microclimate on the abundance and biotic interactions of trap-nesting bees and wasps in secondary forest fragments in the Northeastern lowlands of Costa Rica.
Habitat area did not affect hymenopteran abundance, parasitism and mortality rates, but tree location- from the forest border to the forest center- influenced all variables. Interactive effects were found such as in the higher mortality rates at interior locations in larger fragments. Mean temperature at edge and interior locations led to significant effects on all tested variables and interactive effects between temperature and tree locations were found. Abundances at interior locations were significantly higher with increasing temperatures. Mortality rates at interior location increased at lower mean temperatures, whereas higher temperatures at edges marginally increased mortality rates. Our results indicate, that edge effects, mediated by altered microclimatic conditions, significantly change biotic interactions of trap-nesting hymenopterans in small secondary fragments.
III. This chapter focusses on the vertical distribution of bees, their parasitism and mortality rates as well as single species patterns in relation to fragment size and edge effects in secondary rainforest remnants.
No size effects on bee abundance, bee diversity and on parasitism- and mortality rates were found. Bees were least abundant at the intermediate height and were most abundant in the understory; whereas the highest diversity was found in the canopy. Tree location had no effect on bee abundance, but on bee diversity since most species were found in the forest interior. The cuckoo bees Aglaomelissa duckei and Coelioxys sp. 1 only partly followed the patterns of their hosts, two Centris species.
Edge effects greatly influenced the bee community, so that the amount of edge habitat in secondary forest fragments will influence the conservation value for bees.
IV. In this section the effects of habitat fragmentation on biodiversity, on community structure of hosts and natural enemies as well as the relation of hosts and antagonists were investigated from the understory to the canopy. The results stress the importance to monitor biodiversity, community composition and trophic interactions from the understory to the canopy. The higher trophic level of the antagonists was found to be more sensitive to fragment size compared to their hosts. Again edge effects were found to be the dominant driver since both host and antagonist richness, as well as community compositions were strongly affected. Ongoing fragmentation and increased amount of edge habitat could favor few abundant disturbance-adapted species over the rare and more diverse forest-adapted species. A positive-density dependent parasitism rate was demonstrated, as well as an increase of the parasitism rate not only with antagonist abundance but also diversity.
Small secondary forest fragments surely can contribute to the conservation of biodiversity and trophic interactions, but increase of edge habitat will have negative consequences on above-ground nesting Hymenoptera, so that important interactions such as pollination, predation and parasitism could be disrupted. Therefore small forest fragments could contribute to biodiversity conservation but will not be able to compensate for the loss of large areas of primary forests.
V. This dissertation contributes to the understanding of habitat area - and edge effects as well as the interaction of those with microclimatic conditions in small secondary rainforest fragments. As study system trap nests inhabited by solitary above-ground nesting bees, wasps and their natural enemies were chosen because they allow to study trophic interactions along their whole vertical distribution from the understory to the canopy. The effect of fragment size was rather weak, however, larger sizes affected the diversity of natural enemies positively, proofing the hypothesis that higher trophic levels react more sensitive to habitat loss. Edge effects heavily affected the abundance, diversity and community composition of hosts and their natural enemies as well as parasitism and mortality rates. Increased edge conditions resulting from ongoing fragmentation and deforestation will therefore negatively affect bees, wasps and their trophic interactions with natural enemies. Those changes affect important processes such as pollination, predation and parasitism, which could result in changes of ecosystem functioning. This study showed the importance to include all strata in biodiversity monitoring since height did matter for the trap-nesting communities. Diversity was shown to be higher in the canopy and community composition did change significantly. To conclude we could show that secondary forest fragments can sustain a trap-nesting bee and wasp community, but the amount of interior habitat is highly important for the conservation of forest-adapted species. Probably the conservation of large primary forest in combination with a high habitat connectivity, for example with small secondary forest fragments, will help to sustain biodiversity and ecosystem functioning better than the mere presence of small forest fragments.
Recently, several classifiers that combine primary tumor data, like gene expression data, and secondary data sources, such as protein-protein interaction networks, have been proposed for predicting outcome in breast cancer. In these approaches, new composite features are typically constructed by aggregating the expression levels of several genes. The secondary data sources are employed to guide this aggregation. Although many studies claim that these approaches improve classification performance over single genes classifiers, the gain in performance is difficult to assess. This stems mainly from the fact that different breast cancer data sets and validation procedures are employed to assess the performance. Here we address these issues by employing a large cohort of six breast cancer data sets as benchmark set and by performing an unbiased evaluation of the classification accuracies of the different approaches. Contrary to previous claims, we find that composite feature classifiers do not outperform simple single genes classifiers. We investigate the effect of (1) the number of selected features; (2) the specific gene set from which features are selected; (3) the size of the training set and (4) the heterogeneity of the data set on the performance of composite feature and single genes classifiers. Strikingly, we find that randomization of secondary data sources, which destroys all biological information in these sources, does not result in a deterioration in performance of composite feature classifiers. Finally, we show that when a proper correction for gene set size is performed, the stability of single genes sets is similar to the stability of composite feature sets. Based on these results there is currently no reason to prefer prognostic classifiers based on composite features over single genes classifiers for predicting outcome in breast cancer.
Kathepsin B und L sind lysosomale Cysteinproteasen, die mit einer Reihe von pathologischen Prozessen, wie z. B. Cancerogenese, Tumorangiogenese und Neurodegeneration in Verbindung gebracht werden. Dennoch sind bis jetzt nur wenige Proteinsubstrate beschrieben. Ausserdem sind die Mechanismen der Regulation von Zellproliferation, -invasion und -apoptose durch Kathepsin B und L weitgehend unverstanden. Ein kombinierter Mangel beider Kathepsine führt zu einer frühzeitigen Neurodegeneration in Mäusen, die an neuronale Lipofuszinosen beim Menschen erinnert. In der vorliegenden Studie wurden Unterschiede in der Proteinzusammensetzung von wildtypischen und doppelt-defizienten Gehirnlysosomen quantifiziert. Eine Kombination von subzellulärer Fraktionierung und LC-MS/MS unter Verwendung einer isobarischen Markierung (iTraqTM) erlaubte uns die gleichzeitige Untersuchung von zerebralen Lysosomen aus Wildtyp und Kathepsin B-/-L-/- Mäusen. Ingesamt waren 19 Proteine signifikant erhöht in Kathepsin B-/-L-/- Lysosomen. Die meisten erhöhten Proteine wurden der neuronalen Biosynthese, regenerierenden bzw. endozytotischen oder lysosomalen Kompartimenten zugeordnet. Der Anstieg von Calcyon, dem Delta/Notch- verwandten epidermalen Wachstumsfaktor-Rezeptor (DNER), Neurochondrin, Phospholipase D3, Rab14, Cathepsin D und Apolipoprotein E lässt eine potentielle Rolle von Kathepsin B und L im Axonwachstum und der Synapsenbildung während der postnatalen Entwicklung des Zentralnervensystems vermuten.
Dendritic cells (DCs) are antigen presenting cells which serve as a passage between the innate and the acquired immunity. Aspergillosis is a major lethal condition in immunocompromised patients caused by the adaptable saprophytic fungus Aspergillus fumigatus. The healthy human immune system is capable to ward off A. fumigatus infections however immune-deficient patients are highly vulnerable to invasive aspergillosis. A. fumigatus can persist during infection due to its ability to survive the immune response of human DCs. Therefore, the study of the metabolism specific to the context of infection may allow us to gain insight into the adaptation strategies of both the pathogen and the immune cells. We established a metabolic model of A. fumigatus central metabolism during infection of DCs and calculated the metabolic pathway (elementary modes; EMs). Transcriptome data were used to identify pathways activated when A. fumigatus is challenged with DCs. In particular, amino acid metabolic pathways, alternative carbon metabolic pathways and stress regulating enzymes were found to be active. Metabolic flux modeling identified further active enzymes such as alcohol dehydrogenase, inositol oxygenase and GTP cyclohydrolase participating in different stress responses in A. fumigatus. These were further validated by qRT-PCR from RNA extracted under these different conditions. For DCs, we outlined the activation of metabolic pathways in response to the confrontation with A. fumigatus. We found the fatty acid metabolism plays a crucial role, along with other metabolic changes. The gene expression data and their analysis illuminate additional regulatory pathways activated in the DCs apart from interleukin regulation. In particular, Toll-like receptor signaling, NOD-like receptor signaling and RIG-I-like receptor signaling were active pathways. Moreover, we identified subnetworks and several novel key regulators such as UBC, EGFR, and CUL3 of DCs to be activated in response to A. fumigatus. In conclusion, we analyze the metabolic and regulatory responses of A. fumigatus and DCs when confronted with each other.
The diffraction limit of light confines fluorescence imaging of subcellular structures in fungi. Different super-resolution methods are available for the analysis of fungi that we briefly discuss. We exploit the filamentous fungus Fusarium fujikuroi expressing a YFP-labeled membrane protein showing the benefit of correlative light- and electron microscopy (CLEM), that combines structured illumination microscopy (SIM) and scanning election microscopy (SEM).
Primary (giant) nuclei of the green algae Acetabularia mediterranea and A. major were studied by light and electron microscopy using in situ fixed material as well as manually isolated nuclear components. In addition, cytochemical reactions of nuclear structures and biochemical determinations of nuclear and cytoplasmic RNA and of genome DNA content were performed. The data obtained and the structures observed are interpreted as demonstralions of transcriptional activities of different gene classes. The most prominent class is the nucleolar cistrons of precursors of ribosomal RNA which occur highly repeated in clusters in the form of regularly alternating intercepts on deoxyribonucleoprotein axes of transcribed rDNA, the fibril-covered matrix units, and the fibril-free "spacer" segments. A description and a classification of the various structural complexes which seem to represent transcriptional activities is given. Quantitative evaluations of these arrangements are presented. The morphology and the dimensions of such structures are compared with the RNA molecular weight determinations and with the corresponding data reported from various animal cell systems. It is suggested that the formation of the giant nucleus is correlated with, and probably due to, an enormous amplification of transcriptionally active rDNA and packing of the extrachromosomal copies into the large nucleolar aggregate bodies.
The arrangement of genes of precursor molecules for ribosomal RNA (pre-rRNA) in primary nuclei from two green algae species, Acetabularia mediterranea and A. major, has been analyzed in an electron microscope study. The pattern of transcriptional units in individual strands of nucleolar chromatin was investigated using spread and positively stained preparations. The rDNA pattern is not uniform but differs in different strands. The predominant type of nucleolar chromatin exhibits a high degree of homogeneity in the sequence of matrix units (intercepts covered with fibrilst hat contain the pre-rRNA) and fibril-free spacer intercepts. Substantial differences, however, are observed between the patterns in different strands. In addition, there is evidence in some strands for intraaxial heterogeneity of both spacer and matrix units. The following major types can be distinguished: type la, ca. 2 micrometer long matrix units, extremely short spacer intercepts in A. mediterranea (ca. 1 micrometer long ones in A. major), completely homogeneous distribution; type Ib, as type la but with intercalated, isolated, significantly shorter and/or longer matrix units; type lIa, matrix unit sizes as in type la, but much longer spacer intercepts, high degree of homogeneity; type Ill, largely heterogeneous arrangements of matrix and spacer units of varying sizes. The matrix unit data are compared with the sizes of pre-rRNA as determined by polyacrylamide gelelectrophoresis under denaturing and non-denaturing conditions. The findings are discussed in relation to recent observations in amphibia and insects and with respect to current concepts of the species-specificity of rDNA arrangements.
1. The potential for competition is highest among species in close association. Despite net benefits for both parties, mutualisms can involve costs, including food competition. This might be true for the two neotropical ants Camponotus femoratus and Crematogaster levior, which share the same nest in a presumably mutualistic association (parabiosis).
2. While each nest involves one Crematogaster and one Camponotus partner, both taxa were recently found to comprise two cryptic species that show no partner preferences and seem ecologically similar. Since these cryptic species often occur in close sympatry, they might need to partition their niches to avoid competitive exclusion.
3. Here, we investigated first, is there interference competition between parabiotic Camponotus and Crematogaster, and do they prefer different food sources under competition? And second, is there trophic niche partitioning between the cryptic species of either genus?
4. Using cafeteria experiments, neutral lipid fatty acid and stable isotope analyses, we found evidence for interference competition, but also trophic niche partitioning between Camponotus and Crematogaster. Both preferred protein‐ and carbohydrate‐rich baits, but at protein‐rich baits Ca. femoratus displaced Cr. levior over time, suggesting a potential discovery‐dominance trade‐off between parabiotic partners. Only limited evidence was found for trophic differentiation between the cryptic species of each genus.
5. Although we cannot exclude differentiation in other niche dimensions, we argue that neutral dynamics might mediate the coexistence of cryptic species. This model system is highly suitable for further studies of the maintenance of species diversity and the role of mutualisms in promoting species coexistence.
This study describes a simple technique that improves a recently developed 3D sub-diffraction imaging method based on three-photon absorption of commercially available quantum dots. The method combines imaging of biological samples via tri-exciton generation in quantum dots with deconvolution and spectral multiplexing, resulting in a novel approach for multi-color imaging of even thick biological samples at a 1.4 to 1.9-fold better spatial resolution. This approach is realized on a conventional confocal microscope equipped with standard continuous-wave lasers. We demonstrate the potential of multi-color tri-exciton imaging of quantum dots combined with deconvolution on viral vesicles in lentivirally transduced cells as well as intermediate filaments in three-dimensional clusters of mouse-derived neural stem cells (neurospheres) and dense microtubuli arrays in myotubes formed by stacks of differentiated C2C12 myoblasts.
Patterns of resource use by animals can clarify how ecological communities have assembled in the past, how they currently function and how they are likely to respond to future perturbations. Bumble bees (Hymentoptera: Bombus spp.) and their floral hosts provide a diverse yet tractable system in which to explore resource selection in the context of plant–pollinator networks. Under conditions of resource limitation, the ability of bumble bees species to coexist should depend on dietary niche overlap. In this study, we report patterns and dynamics of floral morphotype preferences in a mountain bumble bee community based on ~13 000 observations of bumble bee floral visits recorded along a 1400 m elevation gradient. We found that bumble bees are highly selective generalists, rarely visiting floral morphotypes at the rates predicted by their relative abundances. Preferences also differed markedly across bumble bee species, and these differences were well-explained by variation in bumble bee tongue length, generating patterns of preference similarity that should be expected to predict competition under conditions of resource limitation. Within species, though, morphotype preferences varied by elevation and season, possibly representing adaptive flexibility in response to the high elevational and seasonal turnover of mountain floral communities. Patterns of resource partitioning among bumble bee communities may determine which species can coexist under the altered distributions of bumble bees and their floral hosts caused by climate and land use change.
Environmental gradients generate and maintain biodiversity on Earth. Mountain slopes are among the most pronounced terrestrial environmental gradients, and the elevational structure of species and their interactions can provide unique insight into the processes that govern community assembly and function in mountain ecosystems. We recorded bumble bee–flower interactions over 3 years along a 1400‐m elevational gradient in the German Alps. Using nonlinear modeling techniques, we analyzed elevational patterns at the levels of abundance, species richness, species β‐diversity, and interaction β‐diversity. Though floral richness exhibited a midelevation peak, bumble bee richness increased with elevation before leveling off at the highest sites, demonstrating the exceptional adaptation of these bees to cold temperatures and short growing seasons. In terms of abundance, though, bumble bees exhibited divergent species‐level responses to elevation, with a clear separation between species preferring low versus high elevations. Overall interaction β‐diversity was mainly caused by strong turnover in the floral community, which exhibited a well‐defined threshold of β‐diversity rate at the tree line ecotone. Interaction β‐diversity increased sharply at the upper extreme of the elevation gradient (1800–2000 m), an interval over which we also saw steep decline in floral richness and abundance. Turnover of bumble bees along the elevation gradient was modest, with the highest rate of β‐diversity occurring over the interval from low‐ to mid‐elevation sites. The contrast between the relative robustness bumble bee communities and sensitivity of plant communities to the elevational gradient in our study suggests that the strongest effects of climate change on mountain bumble bees may be indirect effects mediated by the responses of their floral hosts, though bumble bee species that specialize in high‐elevation habitats may also experience significant direct effects of warming.
The term ‘urban beekeeping’ connotes a host of meanings—sociopolitical, commercial, ecological and personal—beyond the mere description of where bees and beekeepers happen to coincide. Yet, these meanings are seldom articulated explicitly or brought into critical engagement with the relevant fields of urban ecology and political ecology.
Beginning with a brief account of the history of urban beekeeping in the United States, we draw upon urban ecological theory to construct a conceptual model of urban beekeeping that distinguishes beekeeping in, of and for the city. In our model, beekeeping in the city describes the mere importation of the traditionally rural practice of beekeeping into urban spaces for the private reasons of the individual beekeeper, whereas beekeeping of the city describes beekeeping that is consciously tailored to the urban context, often accompanied by (semi)professionalization of beekeepers and the formation of local expert communities (i.e. beekeeping associations). Beekeeping for the city describes a shift in mindset in which beekeeping is directed to civic ends beyond the boundaries of the beekeeping community per se.
Using this framework, we identify and discuss specific socioecological assets and liabilities of urban beekeeping, and how these relate to beekeeping in, of and for the city. We then formulate actionable guidelines for maturing the practice of urban beekeeping into a beneficent and self‐critical form of urban ecological citizenship; these include fostering self‐regulation within the beekeeping community, harnessing beekeeping as a ‘gateway’ experience for a broader rapprochement between urban residents and nature, and recognizing the political‐ecological context of beekeeping with respect to matters of socioecological justice.