Universitätspublikationen
Refine
Year of publication
- 2021 (199) (remove)
Document Type
- Article (143)
- Doctoral Thesis (47)
- Contribution to a Periodical (5)
- Preprint (3)
- Book (1)
Has Fulltext
- yes (199)
Is part of the Bibliography
- no (199) (remove)
Keywords
- aging (5)
- Podospora anserina (4)
- SARS-CoV-2 (3)
- Thermophile (3)
- Wood–Ljungdahl pathway (3)
- microglia (3)
- Acinetobacter (2)
- Bioaccumulation (2)
- Biodiversity (2)
- Biomarkers (2)
Institute
- Biowissenschaften (199) (remove)
Background: Through the rapid development in DNA sequencing methods and tools, microbiome studies on a various number of species were performed during the last decade. This advance makes it possible to analyze hundreds of samples from different species at the same time in order to obtain a general overview of the microbiota. However, there is still uncertainty on the variability of the microbiota of different animal orders and on whether certain bacteria within a species are subject to greater fluctuations than others. This is largely due to the fact that the analysis in most extensive comparative studies is based on only a few samples per species or per study site. In our study, we aim to close this knowledge gap by analyzing multiple individual samples per species including two carnivore suborders Canoidea and Feloidea as well as the orders of herbivore Perissodactyla and Artiodactyla held in different zoos. To assess microbial diversity, 621 fecal samples from 31 species were characterized by sequencing the V3–V4 region of the 16S rRNA gene using Illumina MiSeq.
Results: We found significant differences in the consistency of microbiota composition and in fecal microbial diversity between carnivore and herbivore species. Whereas the microbiota of Carnivora is highly variable and inconsistent within and between species, Perissodactyla and Ruminantia show fewer differences across species boundaries. Furthermore, low-abundance bacterial families show higher fluctuations in the fecal microbiota than high-abundance ones.
Conclusions: Our data suggest that microbial diversity is significantly higher in herbivores than in carnivores, whereas the microbiota in carnivores, unlike in herbivores, varies widely even within species. This high variability has methodological implications and underlines the need to analyze a minimum amount of about 10 samples per species. In our study, we found considerable differences in the occurrence of different bacterial families when looking at just three and six samples. However, from a sample number of 10 onwards, these within-species fluctuations balanced out in most cases and led to constant and more reliable results.
Sympathetic influences on articular cartilage regeneration capacity and osteoarthritis manifestation
(2021)
The pathogenesis of osteoarthritis (OA) involves articular cartilage, synovial tissue and subchondral bone and is therefore a disease of the whole joint. OA is characterized by progressive degradation of cartilage, synovial inflammation, osteophyte formation and subchondral bone sclerosis. Cartilage-surrounding tissues are innervated by tyrosine hydroxylase (TH)-positive sympathetic nerve fibers with the most important sympathetic neurotransmitter norepinephrine (NE) detected in the synovial fluid of OA patients. Furthermore, adrenergic receptors are expressed in different knee joint tissues. Most in vitro studies indicate a potential role of the β2-adrenergic receptor, which has been not investigated during OA pathogenesis in vivo. The role of the sympathetic nervous system (SNS) in OA progression has not yet been studied. Therefore, the objective of this study was to analyze how the SNS and NE influence the MSC dependent cartilage regeneration in vitro and the OA pathogenesis and manifestation in vivo.
In the first part of this study, the effect of NE on the chondrogenesis of sASC, which are known to play an important role in cartilage regeneration was analyzed in vitro. In the second part of this study, the role of the SNS was studied in vivo in mice that were sympathectomized chemically followed by surgically induced OA. The specific focus was on the β2-adrenergic receptor effects on OA pathogenesis, which were analyzed in β2-adrenergic receptor-deficient mice.
The in vitro experiments have shown that NE reduced the chondrogenic potential of sASCs by decreasing the expression of type II collagen and sGAG. NE mediated these effects mainly by the α2-AR signalling. Furthermore, NE treatment led to activation of the ERK1/2 signal pathway. These findings suggested that the sympathetic neurotransmitter NE might suppress the chondrogenic capacity of MSC and their dependent cartilage regeneration and may also play a role in OA progression and manifestation.
The in vivo study has shown that sympathectomy reduced synovial TH-positive nerve fibers in the synovium and the NE concentration in the spleen significantly. In WT mice, DMM leads to increased NE concentrations in the spleen compared to sham mice indicating an increased SNS activity after mechanical stress or inflammation due to DMM. Sympathectomy leads to less pronounced cartilage degeneration (OARSI score) after DMM compared to DMM in WT mice. Furthermore, the release of the type II collagen degradation fragment CTX-II was abolished in Syx DMM mice compared to WT DMM mice, suggesting that less SNS activity due to sympathectomy reduced the cartilage degeneration during OA pathogenesis. Similarly, sympathectomy decreased the synovitis score significantly after DMM compared to DMM in
WT mice. Synovitis in WT mice was accompanied by increased MMP-13 expression in the synovium after DMM, compared to Syx mice. Cartilage degeneration seemed to be driven mainly by the increased synovial inflammation accompanied by an increased MMP13 expression in synoviocytes and not in chondrocytes. The pathological changes in synovium and cartilage might also be linked to each other, as indicated by the moderate correlation between the synovial inflammation (synovitis score) and cartilage degeneration (OARSI score). Subchondral bone volume as well the thickness of the subchondral bone plate (SCBP) and calcified cartilage (CC) were increased in Syx mice compared to WT after DMM. The data on DMM induction in β2-AR deficient mice revealed that the β2-AR signaling is involved in cartilage degeneration and the aggravated subchondral bone changes as these mice had less pronounced cartilage degeneration compared to WT mice. While the cartilage degeneration was similar, the subchondral bone changes were more pronounced in β2-AR deficient mice compared to the Syx mice.
Overall, the SNS had differential effects in cartilage, synovium and subchondral bone. A reduced SNS activity by sympathectomy attenuated cartilage degeneration and synovitis but aggravated the OA specific subchondral bone changes. These findings provide new insights into the development of novel therapeutic strategies for OA by targeting the SNS in a tissue- specific manner.
Owing to their morphological complexity and dense network connections, neurons modify their proteomes locally, using mRNAs and ribosomes present in the neuropil (tissue enriched for dendrites and axons). Although ribosome biogenesis largely takes place in the nucleus and perinuclear region, neuronal ribosomal protein (RP) mRNAs have been frequently detected remotely, in dendrites and axons. Here, using imaging and ribosome profiling, we directly detected the RP mRNAs and their translation in the neuropil. Combining brief metabolic labeling with mass spectrometry, we found that a group of RPs rapidly associated with translating ribosomes in the cytoplasm and that this incorporation was independent of canonical ribosome biogenesis. Moreover, the incorporation probability of some RPs was regulated by location (neurites vs. cell bodies) and changes in the cellular environment (following oxidative stress). Our results suggest new mechanisms for the local activation, repair and/or specialization of the translational machinery within neuronal processes, potentially allowing neuronal synapses a rapid means to regulate local protein synthesis.
Owing to their morphological complexity and dense network connections, neurons modify their proteomes locally, using mRNAs and ribosomes present in the neuropil (tissue enriched for dendrites and axons). Although ribosome biogenesis largely takes place in the nucleus and perinuclear region, neuronal ribosomal protein (RP) mRNAs have been frequently detected remotely, in dendrites and axons. Here, using imaging and ribosome profiling, we directly detected the RP mRNAs and their translation in the neuropil. Combining brief metabolic labeling with mass spectrometry, we found that a group of RPs quickly associated with translating ribosomes in the cytoplasm and that this incorporation is independent of canonical ribosome biogenesis. Moreover, the incorporation probability of some RPs was regulated by location (neurites vs. cell bodies) and changes in the cellular environment (in response to oxidative stress). Our results suggest new mechanisms for the local activation, repair and/or specialization of the translational machinery within neuronal processes, potentially allowing remote neuronal synapses a rapid solution to the relatively slow and energy-demanding requirement of nuclear ribosome biogenesis.
Argonaute 2 (AGO2) is an indispensable component of the RNA-induced silencing complex, operating at the translational or posttranscriptional level. It is compartmentalized into structures such as GW- and P-bodies, stress granules and adherens junctions as well as the midbody. Here we show using immunofluorescence, image and bioinformatic analysis and cytogenetics that AGO2 also resides in membrane protrusions such as open- and close-ended tubes. The latter are cytokinetic bridges where AGO2 colocalizes at the midbody arms with cytoskeletal components such as α-Τubulin and Aurora B, and various kinases. AGO2, phosphorylated on serine 387, is located together with Dicer at the midbody ring in a manner dependent on p38 MAPK activity. We further show that AGO2 is stress sensitive and important to ensure the proper chromosome segregation and cytokinetic fidelity. We suggest that AGO2 is part of a regulatory mechanism triggered by cytokinetic stress to generate the appropriate micro-environment for local transcript homeostasis.
Endogenous clocks enable organisms to adapt cellular processes, physiology, and behavior to daily variation in environmental conditions. Metabolic processes in cyanobacteria to humans are under the influence of the circadian clock, and dysregulation of the circadian clock causes metabolic disorders. In mouse and Drosophila, the circadian clock influences translation of factors involved in ribosome biogenesis and synchronizes protein synthesis. Notably, nutrition signals are mediated by the insulin receptor/target of rapamycin (InR/TOR) pathways to regulate cellular metabolism and growth. However, the role of the circadian clock in Drosophila brain development and the potential impact of clock impairment on neural circuit formation and function is less understood. Here we demonstrate that changes in light stimuli or disruption of the molecular circadian clock cause a defect in neural stem cell growth and proliferation. Moreover, we show that disturbed cell growth and proliferation are accompanied by reduced nucleolar size indicative of impaired ribosomal biogenesis. Further, we define that light and clock independently affect the InR/TOR growth regulatory pathway due to the effect on regulators of protein biosynthesis. Altogether, these data suggest that alterations in InR/TOR signaling induced by changes in light conditions or disruption of the molecular clock have an impact on growth and proliferation properties of neural stem cells in the developing Drosophila brain.
Invasive alien species are a well-known and pervasive threat to global biodiversity and human well-being. Despite substantial impacts of invasive alien species, quantitative syntheses of monetary costs incurred from invasions in national economies are often missing. As a consequence, adequate resource allocation for management responses to invasions has been inhibited, because cost-benefit analysis of management actions cannot be derived. To determine the economic cost of invasions in Germany, a Central European country with the 4th largest GDP in the world, we analysed published data collected from the first global assessment of economic costs of invasive alien species. Overall, economic costs were estimated at US$ 9.8 billion between 1960 and 2020, including US$ 8.9 billion in potential costs. The potential costs were mostly linked to extrapolated costs of the American bullfrog Lithobates catesbeianus, the black cherry Prunus serotina and two mammals: the muskrat Ondatra zibethicus and the American mink Neovison vison. Observed costs were driven by a broad range of taxa and mostly associated with control-related spending and resource damages or losses. We identified a considerable increase in costs relative to previous estimates and through time. Importantly, of the 2,249 alien and 181 invasive species reported in Germany, only 28 species had recorded economic costs. Therefore, total quantifications of invasive species costs here should be seen as very conservative. Our findings highlight a distinct lack of information in the openly-accessible literature and governmental sources on invasion costs at the national level, masking the highly-probable existence of much greater costs of invasions in Germany. In addition, given that invasion rates are increasing, economic costs are expected to further increase. The evaluation and reporting of economic costs need to be improved in order to deliver a basis for effective mitigation and management of invasions on national and international economies.
The ingestion of microplastics (MPs) is well documented for various animals and spherical MPs (beads) in many studies. However, the retention time and egestion of MPs have been examined less, especially for irregular MPs (fragments) which are predominantly found in the environment. Furthermore, the accumulation of such particles in the gastrointestinal tract is likely to determine whether adverse effects are induced. To address this, we investigated if the ingestion and egestion of beads are different to those of fragments in the freshwater shrimp Neocaridina palmata. Therefore, organisms were exposed to 20–20,000 particles L−1 of either polyethylene (PE) beads (41 μm and 87 μm) or polyvinyl chloride (PVC) fragments (<63 μm). Moreover, shrimps were exposed to 20,000 particles L−1 of either 41 μm PE and 11 μm polystyrene (PS) beads or the PVC fragments for 24 h, followed by a post-exposure period of 4 h to analyze the excretion of particles. To simulate natural conditions, an additional fragment ingestion study was performed in the presence of food. After each treatment, the shrimps were analyzed for retained or excreted particles. Our results demonstrate that the ingestion of beads and fragments were concentration-dependent. Shrimps egested 59% of beads and 18% of fragments within 4 h. Particle shape did not significantly affect MP ingestion or egestion, but size was a relevant factor. Medium- and small-sized beads were frequently ingested. Furthermore, fragment uptake decreased slightly when co-exposed to food, but was not significantly different to the treatments without food. Finally, the investigations highlight that the assessment of ingestion and egestion rates can help to clarify whether MPs remain in specific organisms and, thereby, become a potential health threat.
Viele Gruppen der Lebewesen, insbesondere Insekten breiten sich durch steigende Temperaturen zunehmend in Gebieten aus, in denen sie ursprünglich nicht vorkommen(Novikov und Vaulin 2014; Bebber 2015). Hierbei ist die steigende Temperatur in
verschiedenen Gebieten der Hauptfaktor für Expansionen dieser Arten in Richtung des nördlichen Polarkreises. Einige dieser Arten sind sehr tolerant für verschiedene Variablen und können damit ihr Verbreitungsgebiet deutlich nach Norden hin ausdehnen. Aufgrund steigender Temperaturen werden jedoch andere Arten in ihrem Verbreitungsgebiet eingeschränkt oder ihre Verbreitung verschiebt sich in nördliche Richtung (Ogden und Lindsay 2016; Lawler et al. 2009). Auch für die Verbreitung von Krankheiten spielen Temperaturen, Ausbreitungen oder Verbreitungsverschiebungen eine wichtige Rolle (Mordecai et al. 2019).
So können, durch die Etablierung der passenden Vektoren, bisher nur in wärmeren Gebieten auftretende Krankheiten zukünftig auch in unseren Breitengraden eingeschleppt und
verbreitet werden. Bremsen, invasive Stechmücken aber auch einheimische Mücken tragen alle ein Potential,verschiedenste Krankheitserreger zu verbreiten, auch wenn die Eignung als
Vektor für jede Art unterschiedlich groß ausfällt und manche Arten daher kaum beobachtet und untersucht werden. Mit dem Augenmerk auf sich ändernde Verbreitungsgebiete hinsichtlich zukünftigen klimatischen Veränderungen und sich wandelnden anthropogenen Einflüssen sollten jedoch auch Arten mit bisher geringem Vektorpotential mit in Beobachtungsprogramme aufgenommen werden.
Wir untersuchten in Projekt I auf kontinentaler Skala die Verbreitung von sechs verschiedenen Bremsenarten und konnten sowohl Rückschlüsse auf eine mangelhafte Beobachtung der
Arten ziehen als auch Artpräferenzen hinsichtlich der Landschaftsnutzung, Auswirkungen des Klimas auf die Verbreitung der Art und bisher unbekannte Toleranzen hinsichtlich tiefen Temperaturen und äußerst verkürzten Wärmeperioden aufdecken. Eine Größenordnung niedriger wurde in Projekt II, basierend auf aktuellen und Vergangenen Klimadaten, die zukünftige und aktuelle Verbreitung einer invasiven, sich zukünftig ausbreitenden Stechmückenart innerhalb Deutschlands modelliert. Durch bisherig im Untersuchungsgebiet nur begrenztes Auftreten konnten noch keine Rückschlüsse auf die unterschiedlichen Präferenzen für das Habitat gezogen werden, es können jedoch für zukünftige Berechnungen Habitatpräferenzen aus anderen Gebieten hinzugezogen werden um die Art und ihre fortschreitende Ausbreitung genauer zu beobachten. Auf der kleinsten untersuchten Ebene konnten in Projekt III innerhalb eines Mikrohabitates verschiedenste Rückschlüsse auf limitierende oder förderliche abiotische Faktoren, die teilweise bisherig nicht oder nur geringfügig beobachtet wurden, gezogen werden. Ebenfalls konnten Auswirkungen der umgebenden Landschaft auf die Abundanzen der Tiere beobachtet werden. Mithilfe von verschiedenen Modellen und in Abhängigkeit von Klimakarten, Landbedeckungsdaten und Landnutzung sowie Eigenschaften und Toleranzen der untersuchten Arten lassen sich in verschiedenen Größenordnungen geeignete Habitate von einheimischen sowie invasiven Arten identifizieren und zukünftige Verbreitungen effizient vorhersagen.
Insgesamt können, basierend auf all diesen Daten, dadurch für alle untersuchten Faktoren Modelle auf andere Gebiete übertragen werden um somit potentielle Verbreitungen dort
vorherzusagen. Auf unseren Daten basierend können so zum Beispiel Modellierungen für die potentielle Ausbreitung der untersuchten Tabaniden innerhalb anderer Kontinente berechnet werden und Monitoringprogramme können die Ergebnisse unserer Studie als Startpunkt aufgreifen, um durch Beprobung an modellierten Standorten die Korrektheit unserer Modelle zu überprüfen und sowohl Landschaftstypen als auch Artzusammensetzung aufzunehmen um das Modell zu bestätigen oder zu verbessern. Die Modellierung der invasiven Art Aedes albopictus bietet die Möglichkeit, diese Art in Zukunft innerhalb der möglichen Ausbreitungskorridore genauer zu beobachten um ihre fortschreitende Verbreitung zu
verifizieren oder eventuelle Änderungen des klimatischen Verlaufes mit einzubinden und das Modell anzupassen. Die Untersuchung des Mikrohabitats von Culex pipiens pipiens und Culex torrentium bietet, auch hinsichtlich anderer Arten in diesem Habitat, eine potente Methode, Vorhersagen für Artvorkommen innerhalb anderer Unterirdischen Objekte zu berechnen. Hier können, bei ausreichend großer Datenlage, eine Vielzahl von Faktoren in die Auswertung mit einfließen.
Die durchgeführten Studien bestätigen die Notwendigkeit für verbesserte Monitoringkonzepte für alle vektorkompetenten Tiergruppen hinsichtlich der sich ändernden klimatischen Bedingungen, des globalen Handels und die sich wandelnde Nutzung der Landschaften durch den Menschen und darin begründete Veränderungen der Artenzusammensetzung eines Habitates, zeigen Möglichkeiten, diese Konzepte mit bisher
ungenutzten Daten aufzubauen und zu verbessern und können gleichzeitig zu deren Verbesserung herangezogen werden.