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Abstract: Intensification of land-use in agricultural landscapes is responsible for a decline of biodiversity which provide important ecosystem services like pest-control. Changes in landscape composition may also induce behavioural changes of predators in response to variation in the biotic or abiotic environment. By controlling for environmentally confounding factors, we here demonstrate that the orb web spider Araneus diadematus alters its web building behaviour in response to changes in the composition of agricultural landscapes. Thereby, the species increases its foraging efficiency (i.e. investments in silk and web asymmetry) with an increase of agricultural land-use at intermediate spatial scales. This intensification is also related to a decrease in the abundance of larger prey. A negative effect of landscape properties at similar spatial scales on spider fitness was recorded when controlling for relative investments in capture thread length. This study consequently documents the web building flexibility in response to changes in landscape composition, possibly due to changes in prey availability.
Eclosion in flies and other insects is a circadian-gated behaviour under control of a central and a peripheral clock. It is not influenced by the motivational state of an animal, and thus presents an ideal paradigm to study the relation and signalling pathways between central and peripheral clocks, and downstream peptidergic regulatory systems. Little is known, however, about eclosion rhythmicity under natural conditions, and research into this direction is hampered by the physically closed design of current eclosion monitoring systems.
We describe a novel open eclosion monitoring system (WEclMon) that allows the puparia to come into direct contact with light, temperature and humidity. We demonstrate that the system can be used both in the laboratory and outdoors, and shows a performance similar to commercial closed funnel-type monitors. Data analysis is semi-automated based on a macro toolset for the open imaging software Fiji. Due to its open design, the WEclMon is also well suited for optogenetic experiments. A small screen to identify putative neuroendocrine signals mediating time from the central clock to initiate eclosion showed that optogenetic activation of ETH-, EH and myosuppressin neurons can induce precocious eclosion. Genetic ablation of myosuppressin-expressing neurons did, however, not affect eclosion rhythmicity.
Wegener'sche Granulomatose
(2002)
Die Wegener'sche Granulomatose (WG) ist eine Autoimmunerkrankung, die sich typischerweise als chronische Entzündung des oberen Respirationstraktes, Vaskulitis und Glomerulonephritis manifestiert. WG gehört zur Gruppe der sog. “pauci-immunen” Vaskulitiden, die mit Anti-Neutrophilen-Antikörpern (ANCA, anti neutrophil cytoplasmic antibody) assoziiert sind. Mit Hilfe der indirekten Immunfluoreszenz lassen sich ANCA im Serum der meisten WG-Patienten nachweisen. Die mit WG assoziierten sog. “klassischen” ANCA (c-ANCA) erkennen spezifisch Konformationsepitope der Serinprotease Proteinase 3 (PR3), die in den azurophilen Granula neutrophiler Granulozyten gespeichert wird. Die enge Korrelation PR3-spezifischer Antikörperspiegel mit dem Krankheitsverlauf läßt vermuten, daß sie bei der Pathogenese eine zentrale Rolle spielen könnten. Diese Hypothese wird von Daten aus in vitro Experimenten gestützt: werden Zytokin-stimulierte neutrophile Granulozyten mit Patientenserum oder isolierten c-ANCA inkubiert, erfolgt eine Aktivierung der Neutrophilen, die sich durch Degranulation und Freisetzung von Sauerstoffradikalen äußert. c-ANCA können so indirekt - aber vermutlich auch direkt - zur Endothelschädigung beitragen. Jedoch konnte bisher kein direkter Beweis des pathogenen Potentials von c-ANCA am Tiermodell erbracht werden. Um die Wirkung von c-ANCA an einem Mausmodell zu testen, war zunächst ein murines Maus-PR3- (mPR3) spezifisches Antiserum notwendig. Da humane c-ANCA nicht mit mPR3 kreuzreagieren, wurde für die Immunisierung von PR3/Neutrophilen-Elastase (NE)-defizienten Mäusen ein mPR3-Zymogen rekombinant in E. coli als Einschlußkörpermaterial (IB, inclusion bodies) hergestellt. Nach Renaturierung des IB-Materials in vitro wurde mit der Dipeptidylaminopeptidase Cathepsin C das N-terminale Propeptid abgespalten. Das gewonnene Enzym besaß die für PR3 und NE spezifische katalytische Aktivität, die durch den physiologischen Inhibitor humaner PR3, a1-Antitrypsin, inhibiert werden konnte. Es ist daher anzunehmen, daß das gewonnene rekombinante Material die korrekte Konformation durch Renaturierung in vitro erhalten hatte. Um nun die pathologische Wirkung von Anti-rmPR3-Antikörpern zu testen, wurden PR3/NE-defiziente Mäuse mit dem rekombinanten Zymogen (pro-rmPR3) oder der N-terminal prozessierten Form (rmPR3) immunisiert. Die Spezifität der gewonnenen Antiseren wurde durch Festphasenimmunoassay, Western Blotting und indirekte Immunfluoreszenzfärbung überprüft. Weiterhin konnte fluoreszenzzytometrisch die Bindung von Anti-mPR3-IgG an die Plasmamembran Zytokin-stimulierter Granulozyten nachgewiesen werden. Die hergestellten Antiseren erfüllten somit die für c-ANCA-positive Seren von WG-Patienten typischen Eigenschaften hinsichtlich der Antigenspezifität. Wenn c-ANCA alleine hinreichend für die Induktion der für WG charakteristischen Symptome sind, sollte der Antiserumtransfer auf Wildtyp-Mäuse WG-ähnliche Symptome in den Rezipienten hervorrufen. Nach wiederholter intravenöser Injektion von Serum pro-rmPR3-immunisierter Mäuse ließ sich ein signifikanter Antikörperspiegel bei Verdünnungen von 1:2000 über den gesamten Behandlungszeitraum von 10 Wochen in den Rezipienten nachweisen. Der anschließende histologische Befund von Niere und Lunge ergab jedoch keine pathologischen Veränderungen. Dieses Ergebnis legt nahe, daß c-ANCA alleine keine Krankheitssymptome hervorrufen. In dem gegenwärtigen Modell für c-ANCA-vermittelte Vaskulitis entfaltet sich die pathogene Wirkung von c-ANCA vor allem dann, wenn neutrophile Granulozyten zusätzlich durch proinflammatorische Zytokine wie Tumornekrosefaktor alpha (TNF alpha) stimuliert werden. Erst die Stimulation der Granulozyten ermöglicht die Bindung von c-ANCA an die Plasmamembran und deren anschließende Aktivierung. Deshalb wurde dieses Modell, das vorwiegend aus Ergebnissen von Experimenten in vitro abgeleitet ist, auf ein lokales Entzündungsmodell der Maus übertragen: Durch wiederholte Injektion von TNF alpha in die Haut wurde eine leichte Entzündungsreaktion ausgelöst. Diese Entzündungsreaktion ließ sich schließlich durch intravenöse Verabreichung von pro-rmPR3- oder rmPR3-Antiserum verstärken. Dieser Befund ist ein wichtiger Beweis für die verbreitete Ansicht, daß c-ANCA nicht nur ein Epihänomen der WG darstellen, sondern selbst ein pathogenes Potential besitzen. Im zweiten Teil der vorliegenden Arbeit wurde die Beteiligung der beiden Serinproteasen NE und PR3 an der Entstehung inflammatorischer Prozesse untersucht. Im Hinblick auf die bei der Pathogenese der WG beteiligten Mechanismen könnten PR3 und NE eine wichtige Rolle spielen. PR3 und NE können Proteine der extrazellulären Matrix abbauen, Apoptose in Endothelzellen induzieren und sind an der Regulation entzündlicher Prozesse über verschiedene Wirkmechanismen beteiligt. Um quantitative Unterschiede bei Entzündungsreaktionen zwischen NE/PR3-defizienten Mäusen und kongenen Wildtyp-Tieren zu untersuchen, wurde als Modell einer Typ III Hypersensitivitätsreaktion eine lokale passive Arthus-Reaktion induziert. Wildtyp-Mäuse entwickelten dabei eine deutlich stärkere lokale Entzündung als NE/PR3-defiziente Mäuse. Weitere Studien sind nötig um die Frage zu klären, ob eine der beiden Serinproteasen alleine oder in Kooperation mit der anderen diesen Phänotyp hervorruft. Für einen direkten synergistischen Effekt sprechen indes die Ergebnisse eines in vitro Experiments mit pro-rmPR3 und humaner NE: Bei Inkubation von pro-rmPR3 mit hNE wurde eine Spaltung des Proenzyms beobachtet, die mit einer Verstärkung der enzymatischen Bruttoaktivität einherging. Die physiologische Relevanz dieser Beobachtung muß allerdings noch geklärt werden. Die Ergebnisse der vorliegenden Arbeit stehen im Einklang mit den neuesten Erkenntnissen über die Rolle der PR3 bei der Wegener’schen Granulomatose: PR3 dürfte sowohl aufgrund pleiotroper Effekte auf entzündliche Reaktionen als auch wegen seiner lytischen Eigenschaften zur Gewebeschädigung beitragen. Darüberhinaus konnte eine pathogene Wirkung von mPR3-spezifischen Antikörpern in der Maus nachgewiesen werden.
Monarch butterflies rely on external cues for orientation during their annual long-distance migration from Northern US and Canada to Central Mexico. These external cues can be celestial cues, such as the sun or polarized light, which are processed in a brain region termed the central complex (CX). Previous research typically focused on how individual simulated celestial cues are encoded in the butterfly's CX. However, in nature, the butterflies perceive several celestial cues at the same time and need to integrate them to effectively use the compound of all cues for orientation. In addition, a recent behavioral study revealed that monarch butterflies can rely on terrestrial cues, such as the panoramic skyline, for orientation and use them in combination with the sun to maintain a directed flight course. How the CX encodes a combination of celestial and terrestrial cues and how they are weighted in the butterfly's CX is still unknown. Here, we examined how input neurons of the CX, termed TL neurons, combine celestial and terrestrial information. While recording intracellularly from the neurons, we presented a sun stimulus and polarized light to the butterflies as well as a simulated sun and a panoramic scene simultaneously. Our results show that celestial cues are integrated linearly in these cells, while the combination of the sun and a panoramic skyline did not always follow a linear integration of action potential rates. Interestingly, while the sun and polarized light were invariantly weighted between individual neurons, the sun stimulus and panoramic skyline were dynamically weighted when both stimuli were simultaneously presented. Taken together, this dynamic weighting between celestial and terrestrial cues may allow the butterflies to flexibly set their cue preference during navigation.
The extinction of species is a non‐random process, and understanding why some species are more likely to go extinct than others is critical for conservation efforts. Functional trait‐based approaches offer a promising tool to achieve this goal. In forests, deadwood‐dependent (saproxylic) beetles comprise a major part of threatened species, but analyses of their extinction risk have been hindered by the availability of suitable morphological traits.
To better understand the mechanisms underlying extinction in insects, we investigated the relationships between morphological features and the extinction risk of saproxylic beetles. Specifically, we hypothesised that species darker in colour, with a larger and rounder body, a lower mobility, lower sensory perception and more robust mandibles are at higher risk.
We first developed a protocol for morphological trait measurements and present a database of 37 traits for 1,157 European saproxylic beetle species. Based on 13 selected, independent traits characterising aspects of colour, body shape, locomotion, sensory perception and foraging, we used a proportional‐odds multiple linear mixed‐effects model to model the German Red List categories of 744 species as an ordinal index of extinction risk.
Six out of 13 traits correlated significantly with extinction risk. Larger species as well as species with a broad and round body had a higher extinction risk than small, slim and flattened species. Species with short wings had a higher extinction risk than those with long wings. On the contrary, extinction risk increased with decreasing wing load and with higher mandibular aspect ratio (shorter and more robust mandibles).
Our study provides new insights into how morphological traits, beyond the widely used body size, determine the extinction risk of saproxylic beetles. Moreover, our approach shows that the morphological characteristics of beetles can be comprehensively represented by a selection of 13 traits. We recommend them as a starting point for functional analyses in the rapidly growing field of ecological and conservation studies of deadwood.
This thesis explores the influence of social and environmental cues on the nest building behavior of leaf-cutting ants. Especially, the investigations are aimed at evaluating the mechanisms of nest building and how the nest environment can spatially guide building responses that lead to an adaptive nest architecture. The emergence of nest chambers in the nest of the leaf-cutting ant Acromyrmex lundi were evaluated. Rather than excavating nest chambers in advance, at places where workers encounter suitable environmental conditions for brood and fungus rearing, these items have to be present at a site. When presented in the laboratory with a choice between two otherwise identical digging sites, offering suitable environmental conditions, but one containing brood, the workers displayed a higher excavation activity at the site where they encountered the putative content of a chamber. The shape of the excavated cavity was also more round and chamber-like. It is concluded that leaf-cutting ants respond to social cues during nest building. Excavation is a costly process and colonies have to spend a part of their energy stores on nest building, so that regulatory responses for the control of nest excavation are expected to occur. Worker density at the beginning of the digging process influenced digging activity while the presence of in-nest stores did not. Stored brood and fungus did however influence the architecture of the excavated nest, leading to the excavation of larger chambers and smaller tunnels. While self-organized mechanisms appear to be involved in the nest building process, the social cues of the ants’ environment during building clearly influence the nest architecture and lead to an adjustment of the nest size to the current space needs of the colony. Workers secondarily regulated nest size by the opportunistic refilling of unused space with excavated soil pellets. As the ants should provide suitable conditions for brood and fungus rearing, they should show a behavioral response to CO2 concentrations, as the gas is known to hinder fungus respiration. Workers of A. lundi did indeed avoid high CO2-levels for fungus rearing but actually preferred CO2-values in the range encountered close to the soil surface, where this species excavates their nests. However, different CO2-levels did not affect their excavation behavior. While fungus chambers make up part of a leaf-cutting ant nest, most leaf-cutting ants of the genus Atta also spent part of the colony’s energy on excavating large, voluminous chambers for waste disposal, rather than scattering the material aboveground. It is expected that leaf-cutting ants also show environmental preferences for waste management. In experiments Atta laevigata workers preferred deposition in a warm and dry environment and showed no preference for specific CO2-levels. The continued accumulation of waste particles in a waste chamber seems to be based on the use of volatiles. These originate from the waste itself, and seem to be used as an orientation cue by workers relocating the material. The ensuing large accumulation of waste at one site should result in the emergence of more voluminous chambers for waste disposal.
Which home for coelacanth?
(1993)
The incidence of malignant melanoma continues to increase each year with poor prognosis for survival in many relapse cases. To reverse this trend, whole body response measures are needed to discover collaborative paths to primary and secondary malignancy. Several species of fish provide excellent melanoma models because fish and human melanocytes both appear in the epidermis, and fish and human pigment cell tumors share conserved gene expression signatures. For the first time, we have examined the whole body transcriptome response to invasive melanoma as a prelude to using transcriptome profiling to screen for drugs in a medaka (Oryzias latipes) model. We generated RNA-seq data from whole body RNA isolates for controls and melanoma fish. After testing for differential expression, 396 genes had significantly different expression (adjusted p-value <0.02) in the whole body transcriptome between melanoma and control fish; 379 of these genes were matched to human orthologs with 233 having annotated human gene symbols and 14 matched genes that contain putative deleterious variants in human melanoma at varying levels of recurrence. A detailed canonical pathway evaluation for significant enrichment showed the top scoring pathway to be antigen presentation but also included the expected melanocyte development and pigmentation signaling pathway. Results revealed a profound down-regulation of genes involved in the immune response, especially the innate immune system. We hypothesize that the developing melanoma actively suppresses the immune system responses of the body in reacting to the invasive malignancy, and that this mal-adaptive response contributes to disease progression, a result that suggests our whole-body transcriptomic approach merits further use. In these findings, we also observed novel genes not yet identified in human melanoma expression studies and uncovered known and new candidate drug targets for further testing in this malignant melanoma medaka model.
Whole Genome Duplications Shaped the Receptor Tyrosine Kinase Repertoire of Jawed Vertebrates
(2016)
The receptor tyrosine kinase (RTK) gene family, involved primarily in cell growth and differentiation, comprises proteins with a common enzymatic tyrosine kinase intracellular domain adjacent to a transmembrane region. The amino-terminal portion of RTKs is extracellular and made of different domains, the combination of which characterizes each of the 20 RTK subfamilies among mammals. We analyzed a total of 7,376 RTK sequences among 143 vertebrate species to provide here the first comprehensive census of the jawed vertebrate repertoire. We ascertained the 58 genes previously described in the human and mouse genomes and established their phylogenetic relationships. We also identified five additional RTKs amounting to a total of 63 genes in jawed vertebrates. We found that the vertebrate RTK gene family has been shaped by the two successive rounds of whole genome duplications (WGD) called 1R and 2R (1R/2R) that occurred at the base of the vertebrates. In addition, the Vegfr and Ephrin receptor subfamilies were expanded by single gene duplications. In teleost fish, 23 additional RTK genes have been retained after another expansion through the fish-specific third round (3R) of WGD. Several lineage-specific gene losses were observed. For instance, birds have lost three RTKs, and different genes are missing in several fish sublineages. The RTK gene family presents an unusual high gene retention rate from the vertebrate WGDs (58.75% after 1R/2R, 64.4% after 3R), resulting in an expansion that might be correlated with the evolution of complexity of vertebrate cellular communication and intracellular signaling.
Why is our universe so fine-tuned? In this preprint we discuss that this is not a strange accident but that fine-tuned universes can be considered to be exceedingly large if one counts the number of observable different states (i.e. one aspect of the more general preprint http://www.opus-bayern.de/uni-wuerzburg/volltexte/2009/3353/). Looking at parameter variation for the same set of physical laws simple and complex processes (including life) and worlds in a multiverse are compared in simple examples. Next the anthropocentric principle is extended as many conditions which are generally interpreted anthropocentric only ensure a large space of different system states. In particular, the observed over-tuning beyond the level for our existence is explainable by these system considerations. More formally, the state space for different systems becomes measurable and comparable looking at their output behaviour. We show that highly interacting processes are more complex then Chaitin complexity, the latter denotes processes not compressible by shorter descriptions (Kolomogorov complexity). The complexity considerations help to better study and compare different processes (programs, living cells, environments and worlds) including dynamic behaviour and can be used for model selection in theoretical physics. Moreover, the large size (in terms of different states) of a world allowing complex processes including life can in a model calculation be determined applying discrete histories from quantum spin-loop theory. Nevertheless there remains a lot to be done - hopefully the preprint stimulates further efforts in this area.