TY - JOUR A1 - Kouhestani, Dina A1 - Geis, Maria A1 - Alsouri, Saed A1 - Bumm, Thomas G. P. A1 - Einsele, Hermann A1 - Sauer, Markus A1 - Stuhler, Gernot T1 - Variant signaling topology at the cancer cell–T-cell interface induced by a two-component T-cell engager JF - Cellular & Molecular Immunology N2 - No abstract available. KW - immunotherapy KW - tumour immunology Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-241189 VL - 18 ER - TY - JOUR A1 - Kessie, David K. A1 - Lodes, Nina A1 - Oberwinkler, Heike A1 - Goldman, William E. A1 - Walles, Thorsten A1 - Steinke, Maria A1 - Gross, Roy T1 - Activity of Tracheal Cytotoxin of Bordetella pertussis in a Human Tracheobronchial 3D Tissue Model JF - Frontiers in Cellular and Infection Microbiology N2 - Bordetella pertussis is a highly contagious pathogen which causes whooping cough in humans. A major pathophysiology of infection is the extrusion of ciliated cells and subsequent disruption of the respiratory mucosa. Tracheal cytotoxin (TCT) is the only virulence factor produced by B. pertussis that has been able to recapitulate this pathology in animal models. This pathophysiology is well characterized in a hamster tracheal model, but human data are lacking due to scarcity of donor material. We assessed the impact of TCT and lipopolysaccharide (LPS) on the functional integrity of the human airway mucosa by using in vitro airway mucosa models developed by co-culturing human tracheobronchial epithelial cells and human tracheobronchial fibroblasts on porcine small intestinal submucosa scaffold under airlift conditions. TCT and LPS either alone and in combination induced blebbing and necrosis of the ciliated epithelia. TCT and LPS induced loss of ciliated epithelial cells and hyper-mucus production which interfered with mucociliary clearance. In addition, the toxins had a disruptive effect on the tight junction organization, significantly reduced transepithelial electrical resistance and increased FITC-Dextran permeability after toxin incubation. In summary, the results indicate that TCT collaborates with LPS to induce the disruption of the human airway mucosa as reported for the hamster tracheal model. KW - tracheal cytotoxin KW - airway epithelia KW - tissue model KW - ciliostasis KW - tight junction KW - Bordetella pertussis Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-222736 SN - 2235-2988 VL - 10 ER - TY - THES A1 - Kehrberger, Sandra T1 - Effects of climate warming on the timing of flowering and emergence in a tritrophic relationship: plants - bees - parasitoids T1 - Auswirkungen der Klimaerwärmung auf die zeitliche Regulierung der Blüte und des Schlupfes in einer tritrophischen Beziehung: Pflanzen - Bienen - Parasitoide N2 - The right timing of phenological events is crucial for species fitness. Species should be highly synchronized with mutualists, but desynchronized with antagonists. With climate warming phenological events advance in many species. However, often species do not respond uniformly to warming temperatures. Species-specific responses to climate warming can lead to asynchrony or even temporal mismatch of interacting species. A temporal mismatch between mutualists, which benefit from each other, can have negative consequences for both interaction partners. For host-parasitoid interactions temporal asynchrony can benefit the host species, if it can temporally escape its parasitoid, with negative consequences for the parasitoid species, but benefit the parasitoid species if it increases synchrony with its host, which can negatively affect the host species. Knowledge about the drivers of phenology and the species-specific responses to these drivers are important to predict future effects of climate change on trophic interactions. In this dissertation I investigated how different drivers act on early flowering phenology and how climate warming affects the tritrophic relationship of two spring bees (Osmia cornuta & Osmia bicornis), an early spring plant (Pulsatilla vulgaris), which is one of the major food plants of the spring bees, and three main parasitoids of the spring bees (Cacoxenus indagator, Anthrax anthrax, Monodontomerus). In Chapter II I present a study in which I investigated how different drivers and their change over the season affect the reproductive success of an early spring plant. For that I recorded on eight calcareous grasslands around Würzburg, Germany the intra-seasonal changes in pollinator availability, number of co-flowering plants and weather conditions and studied how they affect flower visitation rates, floral longevity and seed set of the early spring plant P. vulgaris. I show that bee abundances and the number of hours, which allowed pollinator foraging, were low at the beginning of the season, but increased over time. However, flower visitation rates and estimated total number of bee visits were higher on early flowers of P. vulgaris than later flowers. Flower visitation rates were also positively related to seed set. Over time and with increasing competition for pollinators by increasing numbers of co-flowering plants flower visitation rates decreased. My data shows that a major driver for early flowering dates seems to be low interspecific competition for pollinators, but not low pollinator abundances and unfavourable weather conditions. Chapter III presents a study in which I investigated the effects of temperature on solitary bee emergence and on the flowering of their food plant and of co-flowering plants in the field. Therefore I placed bee cocoons of two spring bees (O. cornuta & O. bicornis) on eleven calcareous grasslands which differed in mean site temperature. On seven of these grasslands the early spring plant P. vulgaris occurred. I show that warmer temperatures advanced mean emergence in O. cornuta males. However, O. bicornis males and females of both species did not shift their emergence. Compared to the bees P. vulgaris advanced its flowering phenology more strongly with warmer temperatures. Co-flowering plants did not shift flowering onset. I suggest that with climate warming the first flowers of P. vulgaris face an increased risk of pollinator limitation whereas for bees a shift in floral resources may occur. In Chapter IV I present a study in which I investigated the effects of climate warming on host-parasitoid relationships. I studied how temperature and photoperiod affect emergence phenology in two spring bees (O. cornuta & O. bicornis) and three of their main parasitoids (C. indagator, A. anthrax, Monodontomerus). In a climate chamber experiment with a crossed design I exposed cocoons within nest cavities and cocoons outside of nest cavities to two different temperature regimes (long-term mean of Würzburg, Germany and long-term mean of Würzburg + 4 °C) and three photoperiods (Würzburg vs. Snåsa, Norway vs. constant darkness) and recorded the time of bee and parasitoid emergence. I show that warmer temperatures advanced emergence in all studied species, but bees advanced less strongly than parasitoids. Consequently, the time period between female bee emergence and parasitoid emergence decreased in the warm temperature treatment compared to the cold one. Photoperiod influenced the time of emergence only in cocoons outside of nest cavities (except O. bicornis male emergence). The data also shows that the effect of photoperiod compared to the effect of temperature on emergence phenology was much weaker. I suggest that with climate warming the synchrony of emergence phenologies of bees and their parasitoids will amplify. Therefore, parasitism rates in solitary bees might increase which can negatively affect reproductive success and population size. In this dissertation I show that for early flowering spring plants low interspecific competition for pollinators with co-flowering plants is a major driver of flowering phenology, whereas other drivers, like low pollinator abundances and unfavourable weather conditions are only of minor importance. With climate warming the strength of different drivers, which act on the timing of phenological events, can change, like temperature. I show that warmer temperatures advance early spring plant flowering more strongly than bee emergence and flowering phenology of later co-flowering plants. Furthermore, I show that warmer temperatures advance parasitoid emergence more strongly than bee emergence. Whereas temperature changes can lead to non-uniform temporal shifts, I demonstrate that geographic range shifts and with that altered photoperiods will not change emergence phenology in bees and their parasitoids. In the tritrophic system I investigated in this dissertation climate warming may negatively affect the reproductive success of the early spring plant and the spring bees but not of the parasitoids, which may even benefit from warming temperatures. N2 - Der richtige Zeitpunkt von phänologischen Ereignissen ist maßgeblich für das Überleben und die Fortpflanzung einer Art. Arten sollten eine möglichst hohe Synchronisation mit Mutualisten aufweisen, aber eine möglichst geringe mit Antagonisten. Die Klimaerwärmung führt dazu, dass sich bei vielen Arten phänologische Ereignisse verfrühen. Allerdings reagieren Arten unterschiedlich auf wärmere Temperaturen. Artspezifische Reaktionen auf die Klimaerwärmung können zu Asynchronität oder sogar zu zeitlicher Diskrepanz bei interagierenden Arten führen. Eine zeitliche Diskrepanz zwischen Mutualisten, die voneinander profitieren, kann sich negativ auf beide Interaktionspartner auswirken. Bei Wirt-Parasitoid Beziehungen kann der Wirt von einer zeitlichen Diskrepanz profitieren, wenn er seinem Parasitoid zeitlich entfliehen kann, was wiederum negative Folgen für den Parasitoid haben kann. Jedoch kann der Parasitoid profitieren, wenn er die Synchronisation mit seinem Wirt erhöhen kann, was wiederum den Wirt negativ beeinflussen kann. Das Wissen über die Treiber von phänologischen Ereignissen und die artspezifischen Reaktionen auf diese Treiber sind von Bedeutung um die Auswirkungen des Klimawandels auf trophische Beziehungen vorherzusagen. In meiner Doktorarbeit habe ich untersucht, wie verschiedene Treiber mit einer frühen Blüte zusammenhängen und wie der Klimawandel die tritrophische Beziehung von zwei Frühlingsbienen (Osmia cornuta & Osmia bicornis), einer Frühlingspflanzenart (Pulsatilla vulgaris), die eine der wichtigen Futterpflanzen der Bienen ist, und der drei Hauptparasitoiden der Frühlingsbienen (Cacoxenus indagator, Anthrax anthrax, Monodontomerus) beeinflusst. In Kapitel II präsentiere ich eine Studie, in der ich den Einfluss verschiedener Treiber und ihre saisonale Veränderung auf den Fortpflanzungserfolg einer Frühlingspflanzenart untersucht habe. Dazu habe ich auf acht Kalkmagerrasen bei Würzburg (Deutschland) die innersaisonalen Veränderungen der Bestäuberverfügbarkeit, der Anzahl an gleichzeitig blühenden Pflanzenarten und die Wetterbedingungen aufgezeichnet. Des Weiteren habe ich erforscht wie diese Faktoren die Blütenbesuchsrate, die Blütenlanglebigkeit und den Samenansatz der Frühlingspflanze P. vulgaris beeinflussen. Ich konnte zeigen, dass die Anzahl an Bienen und die Anzahl an Stunden, die ein Furagieren von Bestäubern ermöglicht hätten, am Anfang der Saison niedrig waren und mit der Zeit zunahmen. Jedoch war die Blütenbesuchsrate und die geschätzte Anzahl an Bienenbesuchen höher bei frühen als bei späten P. vulgaris Blüten. Die Blütenbesuchsrate wirkte sich auch positiv auf den Samenansatz aus. Die Blütenbesuchsrate nahm mit der Zeit und mit zunehmender Konkurrenz um Bestäuber durch eine zunehmende Anzahl an gleichzeitig blühenden Pflanzenarten ab. Meine Daten zeigen, dass ein Hauptreiber von frühen Blühzeitpunkten die geringe zwischenartliche Konkurrenz um Bestäuber ist, aber nicht die niedrige Bestäuberanzahl und ungünstige Wetterbedingungen. Kapitel III präsentiert eine Studie, in welcher ich die Auswirkungen der Temperatur auf den Schlupf von Solitärbienen und die Blüte ihrer Futterpflanzen und gleichzeitig blühenden Pflanzen im Freiland untersucht habe. Dafür habe ich Bienenkokons von zwei Frühlingsbienen (O. cornuta & O. bicornis) auf elf Kalkmagerrasen, die sich in der mittleren Flächentemperatur unterschieden, platziert. Auf sieben dieser Kalkmagerrasen kam die Frühlingspflanzenart P. vulgaris vor. Ich konnte zeigen, dass wärmere Temperaturen den mittleren Schlupf von O. cornuta Männchen verfrühen. Die Männchen von O. bicornis und die Weibchen beider Arten haben ihren Schlupfzeitpunkt jedoch nicht verschoben. Im Vergleich zu den Bienen verfrühte P. vulgaris seine Blühphänologie bei warmen Temperaturen stärker. Die gleichzeitig blühenden Pflanzenarten verschoben ihren Blühbeginn nicht. Die Daten zeigen, dass wärmere Temperaturen den Bienenschlupf weniger stark verfrühen als die Blüte ihrer Futterpflanze. Das lässt darauf schließen, dass mit dem Klimawandel die ersten Blüten von P. vulgaris ein erhöhtes Risiko haben nicht bestäubt zu werden, während die Bienen möglicherweise auf andere Blühressourcen ausweichen müssen. Kapitel IV beschreibt eine Studie, in welcher ich die Auswirkungen der Klimaerwärmung auf Wirt-Parasitoid Beziehungen untersucht habe. Dabei habe ich die Auswirkungen von Temperatur und Photoperiode auf die Schlupfphänologie zweier Frühlingsbienen (O. cornuta & O. bicornis) und drei ihrer Hauptparasitoide (C. indagator, A. anthrax, Monodontomerus) erforscht. In einem Klimakammerexperiment mit gekreuztem Design habe ich Kokons in Nesthöhlen und Kokons außerhalb von Nesthöhlen, zwei verschiedenen Temperaturregimen (Langzeitmittel von Würzburg, Deutschland und Langzeitmittel von Würzburg + 4 °C) und drei Photoperioden (Würzburg, Deutschland contra Snåsa, Norwegen contra Dauerdunkel) ausgesetzt und die Zeitpunkte des Bienen- und Parasitoidenschlupfes aufgezeichnet. Ich konnte zeigen, dass warme Temperaturen in allen untersuchten Arten den Schlupfzeitpunkt verfrühten, jedoch bei den Bienen weniger stark als bei den Parasitoiden. Eine Folge daraus ist, dass sich die Zeitspanne zwischen dem Schlupf der Bienenweibchen und dem Schlupf der Parasitoide im warmen Temperaturregime im Vergleich zum kalten verkürzte. Die Photoperiode hatte auf den Zeitpunkt des Schlupfes nur in Kokons außerhalb von Nisthöhlen einen Effekt (außer beim Schlupf von O. bicornis Männchen). Die Daten zeigen auch, dass der Effekt der Photoperiode auf die Schlupfphänologie im Vergleich zu dem Effekt der Temperatur viel schwächer war. Daraus schließe ich, dass sich im Zuge der Klimaerwärmung die Synchronisation der Schlupfphänologien von Bienen und ihren Parasitoiden verstärken wird. Eine Folge davon könnten erhöhte Parasitierungsraten bei Solitärbienen sein, welche den Reproduktionserfolg und die Populationsgröße negativ beeinflussen können. In dieser Doktorarbeit habe ich gezeigt, dass einer der Haupttreiber einer frühen Blüte bei Frühlingspflanzen geringe zwischenartliche Konkurrenz um Bestäuber mit später gleichzeitig blühenden Pflanzenarten ist, während andere Treiber, wie geringe Bestäuberabundanzen und ungünstige Wetterbedingungen nur von geringer Bedeutung sind. Im Zuge des Klimawandels könnte sich die Stärke verschiedener Treiber, die den Zeitpunkt von phänologischen Ereignissen beeinflussen, verändern. Ich konnte außerdem zeigen, dass wärmere Temperaturen die Blüte von frühen Frühlingspflanzen stärker verfrühen, als den Schlupf von Bienen und die Blüte von später gleichzeitig blühenden Pflanzenarten. Des Weiteren zeigte ich, dass wärmere Temperaturen den Schlupf von Parasitoiden stärker verfrühen als den Schlupf der Bienen. Ich konnte zeigen, dass während Temperaturveränderungen zu verschieden starken zeitlichen Verschiebungen führen können, Verschiebungen von geografischen Verbreitungsgebieten und damit geänderten Photoperioden die Schlupfphänologie von Bienen und ihren Parasitoiden wahrscheinlich nicht ändern werden. In dem tritrophischen System, das ich in dieser Doktorarbeit untersucht habe, könnte die Erwärmung des Klimas den Fortpflanzungserfolg der frühen Frühlingspflanze und der Frühlingsbienen negativ beeinflussen, aber wahrscheinlich nicht die der Parasitoide, die vielleicht sogar davon profitieren können. KW - Biene KW - Klimaänderung KW - Interaktion KW - Parasitoid KW - Pflanzen KW - Klimaerwärmung KW - Mutualismus KW - Antagonismus KW - Synchronisation KW - Phänologie Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-213932 ER - TY - JOUR A1 - Kastner, Carolin A1 - Hendricks, Anne A1 - Deinlein, Hanna A1 - Hankir, Mohammed A1 - Germer, Christoph-Thomas A1 - Schmidt, Stefanie A1 - Wiegering, Armin T1 - Organoid Models for Cancer Research — From Bed to Bench Side and Back JF - Cancers N2 - Simple Summary Despite significant strides in multimodal therapy, cancers still rank within the first three causes of death especially in industrial nations. A lack of individualized approaches and accurate preclinical models are amongst the major barriers that limit the development of novel therapeutic options and drugs. Recently, the 3D culture system of organoids was developed which stably retains the genetic and phenotypic characteristics of the original tissue, healthy as well as diseased. In this review, we summarize current data and evidence on the relevance and reliability of such organoid culture systems in cancer research, focusing on their role in drug investigations (in a personalized manner). Abstract Organoids are a new 3D ex vivo culture system that have been applied in various fields of biomedical research. First isolated from the murine small intestine, they have since been established from a wide range of organs and tissues, both in healthy and diseased states. Organoids genetically, functionally and phenotypically retain the characteristics of their tissue of origin even after multiple passages, making them a valuable tool in studying various physiologic and pathophysiologic processes. The finding that organoids can also be established from tumor tissue or can be engineered to recapitulate tumor tissue has dramatically increased their use in cancer research. In this review, we discuss the potential of organoids to close the gap between preclinical in vitro and in vivo models as well as clinical trials in cancer research focusing on drug investigation and development. KW - cancer KW - tumor disease KW - organoid KW - patient-derived organoid (PDOs) KW - patient-derived tumor organoid (PDTO) Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-246307 SN - 2072-6694 VL - 13 IS - 19 ER - TY - JOUR A1 - Karimi, Sohail M. A1 - Freund, Matthias A1 - Wager, Brittney M. A1 - Knoblauch, Michael A1 - Fromm, Jörg A1 - M. Mueller, Heike A1 - Ache, Peter A1 - Krischke, Markus A1 - Mueller, Martin J. A1 - Müller, Tobias A1 - Dittrich, Marcus A1 - Geilfus, Christoph-Martin A1 - Alfaran, Ahmed H. A1 - Hedrich, Rainer A1 - Deeken, Rosalia T1 - Under salt stress guard cells rewire ion transport and abscisic acid signaling JF - New Phytologist N2 - Soil salinity is an increasingly global problem which hampers plant growth and crop yield. Plant productivity depends on optimal water-use efficiency and photosynthetic capacity balanced by stomatal conductance. Whether and how stomatal behavior contributes to salt sensitivity or tolerance is currently unknown. This work identifies guard cell-specific signaling networks exerted by a salt-sensitive and salt-tolerant plant under ionic and osmotic stress conditions accompanied by increasing NaCl loads. We challenged soil-grown Arabidopsis thaliana and Thellungiella salsuginea plants with short- and long-term salinity stress and monitored genome-wide gene expression and signals of guard cells that determine their function. Arabidopsis plants suffered from both salt regimes and showed reduced stomatal conductance while Thellungiella displayed no obvious stress symptoms. The salt-dependent gene expression changes of guard cells supported the ability of the halophyte to maintain high potassium to sodium ratios and to attenuate the abscisic acid (ABA) signaling pathway which the glycophyte kept activated despite fading ABA concentrations. Our study shows that salinity stress and even the different tolerances are manifested on a single cell level. Halophytic guard cells are less sensitive than glycophytic guard cells, providing opportunities to manipulate stomatal behavior and improve plant productivity. KW - soil KW - stomata KW - abscisic acid (ABA) KW - glycophyte Arabidopsis KW - guard cell KW - halophyte Thellungiella/Eutrema KW - ion transport KW - salt stress Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-259635 VL - 231 IS - 3 ER - TY - THES A1 - Jessen, Christina T1 - NRF2 links antioxidant and immune-relevant features in melanoma T1 - NRF2 verknüpft antioxidative und immunrelevante Eigenschaften im Melanom N2 - The transcription factor NRF2 is considered as the master regulator of cytoprotective and ROS-detoxifying gene expression. Due to their vulnerability to accumulating reactive oxygen species, melanomas are dependent on an efficient oxidative stress response, but to what extent melanomas rely on NRF2 is only scarcely investigated so far. In tumor entities harboring activating mutations of NRF2, such as lung adenocarcinoma, NRF2 activation is closely connected to therapy resistance. In melanoma, activating mutations are rare and triggers and effectors of NRF2 are less well characterized. This work revealed that NRF2 is activated by oncogenic signaling, cytokines and pro-oxidant triggers, released cell-autonomously or by the tumor microenvironment. Moreover, silencing of NRF2 significantly reduced melanoma cell proliferation and repressed well-known NRF2 target genes, indicating basal transcriptional activity of NRF2 in melanoma. Transcriptomic analysis showed a large set of deregulated gene sets, besides the well-known antioxidant effectors. NRF2 suppressed the activity of MITF, a marker for the melanocyte lineage, and induced expression of epidermal growth factor receptor (EGFR), thereby stabilizing the dedifferentiated melanoma phenotype and limiting pigmentation markers and melanoma-associated antigens. In general, the dedifferentiated melanoma phenotype is associated with a reduced tumor immunogenicity. Furthermore, stress-inducible cyclooxygenase 2 (COX2) expression, a crucial immune-modulating gene, was regulated by NRF2 in an ATF4-dependent manner. Only in presence of both transcription factors was COX2 robustly induced by H2O2 or TNFα. COX2 catalyzes the first step of the prostaglandin E2 (PGE2) synthesis, which was described to be associated with tumor immune evasion and reduction of the innate immune response. In accordance with these potentially immune-suppressive features, immunocompetent mice injected with NRF2 knockout melanoma cells had a strikingly longer tumor-free survival compared to NRF2-proficient cells. In line with the in vitro data, NRF2-deficient tumors showed suppression of COX2 and induction of MITF. Furthermore, transcriptomic analyses of available tumors revealed a strong induction of genes belonging to the innate immune response, such as RSAD2 and IFIH1. The expression of these genes strongly correlated with immune evasion parameters in human melanoma datasets and NRF2 activation or PGE2 supplementation limited the innate immune response in vitro. In summary, the stress dependent NRF2 activation stabilizes the dedifferentiated melanoma phenotype and facilitates the synthesis of PGE2. As a result, NRF2 reduces gene expression of the innate immune response and promotes the generation of an immune-cold tumor microenvironment. Therefore, NRF2 not only elevated the ROS resilience, but also strongly contributed to tumor growth, maintenance, and immune control in cutaneous melanoma. N2 - Der Transkriptionsfaktor NRF2 gilt als Masterregulator der antioxidativen Zellantwort. Im Melanom ist die Rolle von NRF2 bisher nur wenig untersucht worden, obwohl das Melanom anfällig für oxidativen Stress ist und somit eine besondere Abhängigkeit von antioxidativen Prozessen besteht. In Tumorentitäten mit NRF2 aktivierende Mutationen, wie z.B. dem Lungenadenokarzinom, ist die NRF2 Aktivierung mit einer Therapieresistenz verbunden. Allerdings sind diese aktivierenden Mutationen im Melanom selten und Mechanismen, die zu einer NRF2 Aktivierung führen, sind kaum bekannt. Die vorliegende Arbeit zeigt, dass NRF2 hier vor allem durch onkogene Signalwege, Zytokine und pro-oxidative Trigger aktiviert wird. Zudem verringerte die NRF2 Inhibierung die Zellproliferation und reduzierte die Expression von bekannten NRF2 Zielgenen. Dies weist darauf hin, dass die basale Transkriptionsaktivität von NRF2 im Melanom wichtig ist. Neben den bekannten Zielgenen waren außerdem eine Vielzahl von ROS-unabhängigen Gen-Sets dereguliert. Zum einen reduzierte NRF2 die Aktivität von MITF, dem melanozytären Lineage Marker und induzierte die Expression des epidermalen Wachstumsfaktorrezeptors, EGFR. Dadurch stabilisiert NRF2 den undifferenzierten Melanom-Phänotyp, welcher allgemein mit einer verminderten Expression von Pigmentierungsmarkern und Melanom-assoziierten Antigenen verbunden ist. Zum anderen regulierte NRF2 die Expression von Cyclooxygenase 2 (COX2), in Abhängigkeit von dem Transkriptionsfaktor ATF4. COX2 wurde basal und nach H2O2 oder TNFα Stimulation nur in Anwesenheit beider Transkriptionsfaktoren exprimiert. COX2 katalysiert die Prostaglandin E2 (PGE2) Synthese und es wurde beschrieben, dass hohe Konzentrationen an PGE2, sowohl die Immunevasion von Tumoren erleichtert als auch die angeborenen Immunantwort reduziert. In Übereinstimmung mit diesen potenziell immun-evasiven Eigenschaften zeigten immunkompetente Mäuse, denen NRF2-knockout Melanomzellen injiziert wurden, im Vergleich zu Kontrollzellen, ein deutlich längeres tumorfreies Überleben. Die NRF2-abhängige COX2 Erhöhung und MITF Hemmung, wurde zudem in den Maustumoren bestätigt. Darüber hinaus zeigten die NRF2-defizienten Tumore eine starke Induktion von Genen des angeborenen Immunsystems, wie z.B. RSAD2 und IFIH1. Die Expression dieser Gene korrelierte mit Immunevasionsparametern in Datensätzen des humanen Melanoms und eine NRF2 Aktivierung oder PGE2 Zugabe unterdrückte die Genexpression der angeborene Immunantwort bereits in vitro. Somit stabilisiert stress-induziertes NRF2 den undifferenzierten Melanom-Phänotyp und fördert die immunmodulierende PGE2 Produktion. Infolgedessen reduziert NRF2 die angeborene Immunantwort und unterstützt die Entstehung einer immun-suppressiven Tumormikroumgebung, welche das Tumorwachstum erleichtert. Die endogene NRF2 Aktivierung im Melanom fördert somit nicht nur die ROS-Resilienz, sondern auch die Tumoraufrechterhaltung und das Tumorwachstum im immunkompetenten Organismus. KW - Melanom KW - Oxidativer Stress KW - Genexpression KW - Krebsforschung KW - NRF2 KW - Antioxidantien KW - melanoma dedifferentiation Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-233495 ER - TY - JOUR A1 - Jansch, Charline A1 - Ziegler, Georg C. A1 - Forero, Andrea A1 - Gredy, Sina A1 - Wäldchen, Sina A1 - Vitale, Maria Rosaria A1 - Svirin, Evgeniy A1 - Zöller, Johanna E. M. A1 - Waider, Jonas A1 - Günther, Katharina A1 - Edenhofer, Frank A1 - Sauer, Markus A1 - Wischmeyer, Erhard A1 - Lesch, Klaus-Peter T1 - Serotonin-specific neurons differentiated from human iPSCs form distinct subtypes with synaptic protein assembly JF - Journal of Neural Transmission N2 - Human induced pluripotent stem cells (hiPSCs) have revolutionized the generation of experimental disease models, but the development of protocols for the differentiation of functionally active neuronal subtypes with defined specification is still in its infancy. While dysfunction of the brain serotonin (5-HT) system has been implicated in the etiology of various neuropsychiatric disorders, investigation of functional human 5-HT specific neurons in vitro has been restricted by technical limitations. We describe an efficient generation of functionally active neurons from hiPSCs displaying 5-HT specification by modification of a previously reported protocol. Furthermore, 5-HT specific neurons were characterized using high-end fluorescence imaging including super-resolution microscopy in combination with electrophysiological techniques. Differentiated hiPSCs synthesize 5-HT, express specific markers, such as tryptophan hydroxylase 2 and 5-HT transporter, and exhibit an electrophysiological signature characteristic of serotonergic neurons, with spontaneous rhythmic activities, broad action potentials and large afterhyperpolarization potentials. 5-HT specific neurons form synapses reflected by the expression of pre- and postsynaptic proteins, such as Bassoon and Homer. The distribution pattern of Bassoon, a marker of the active zone along the soma and extensions of neurons, indicates functionality via volume transmission. Among the high percentage of 5-HT specific neurons (~ 42%), a subpopulation of CDH13 + cells presumably designates dorsal raphe neurons. hiPSC-derived 5-HT specific neuronal cell cultures reflect the heterogeneous nature of dorsal and median raphe nuclei and may facilitate examining the association of serotonergic neuron subpopulations with neuropsychiatric disorders. KW - neuropsychiatric disorders KW - human induced pluripotent stem cell (hiPSC) KW - serotonin-specific neurons KW - median and dorsal raphe KW - synapse formation KW - Cadherin-13 (CDH13) Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-268519 SN - 1435-1463 VL - 128 IS - 2 ER - TY - JOUR A1 - Höhne, Christin A1 - Prokopov, Dmitry A1 - Kuhl, Heiner A1 - Du, Kang A1 - Klopp, Christophe A1 - Wuertz, Sven A1 - Trifonov, Vladimir A1 - Stöck, Matthias T1 - The immune system of sturgeons and paddlefish (Acipenseriformes): a review with new data from a chromosome‐scale sturgeon genome JF - Reviews in Aquaculture N2 - Sturgeon immunity is relevant for basic evolutionary and applied research, including caviar‐ and meat‐producing aquaculture, protection of wild sturgeons and their re‐introduction through conservation aquaculture. Starting from a comprehensive overview of immune organs, we discuss pathways of innate and adaptive immune systems in a vertebrate phylogenetic and genomic context. The thymus as a key organ of adaptive immunity in sturgeons requires future molecular studies. Likewise, data on immune functions of sturgeon‐specific pericardial and meningeal tissues are largely missing. Integrating immunological and endocrine functions, the sturgeon head kidney resembles that of teleosts. Recently identified pattern recognition receptors in sturgeon require research on downstream regulation. We review first acipenseriform data on Toll‐like receptors (TLRs), type I transmembrane glycoproteins expressed in membranes and endosomes, initiating inflammation and host defence by molecular pattern‐induced activation. Retinoic acid‐inducible gene‐I‐like (RIG‐like) receptors of sturgeons present RNA and key sensors of virus infections in most cell types. Sturgeons and teleosts share major components of the adaptive immune system, including B cells, immunoglobulins, major histocompatibility complex and the adaptive cellular response by T cells. The ontogeny of the sturgeon innate and onset of adaptive immune genes in different organs remain understudied. In a genomics perspective, our new data on 100 key immune genes exemplify a multitude of evolutionary trajectories after the sturgeon‐specific genome duplication, where some single‐copy genes contrast with many duplications, allowing tissue specialization, sub‐functionalization or both. Our preliminary conclusion should be tested by future evolutionary bioinformatics, involving all >1000 immunity genes. This knowledge update about the acipenseriform immune system identifies several important research gaps and presents a basis for future applications. KW - evolution KW - genomics KW - immune genes KW - immune organs KW - immune system KW - sturgeon Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-239865 VL - 13 IS - 3 SP - 1709 EP - 1729 ER - TY - JOUR A1 - Hurd, Paul J. A1 - Grübel, Kornelia A1 - Wojciechowski, Marek A1 - Maleszka, Ryszard A1 - Rössler, Wolfgang T1 - Novel structure in the nuclei of honey bee brain neurons revealed by immunostaining JF - Scientific Reports N2 - In the course of a screen designed to produce antibodies (ABs) with affinity to proteins in the honey bee brain we found an interesting AB that detects a highly specific epitope predominantly in the nuclei of Kenyon cells (KCs). The observed staining pattern is unique, and its unfamiliarity indicates a novel previously unseen nuclear structure that does not colocalize with the cytoskeletal protein f-actin. A single rod-like assembly, 3.7-4.1 mu m long, is present in each nucleus of KCs in adult brains of worker bees and drones with the strongest immuno-labelling found in foraging bees. In brains of young queens, the labelling is more sporadic, and the rod-like structure appears to be shorter (similar to 2.1 mu m). No immunostaining is detectable in worker larvae. In pupal stage 5 during a peak of brain development only some occasional staining was identified. Although the cellular function of this unexpected structure has not been determined, the unusual distinctiveness of the revealed pattern suggests an unknown and potentially important protein assembly. One possibility is that this nuclear assembly is part of the KCs plasticity underlying the brain maturation in adult honey bees. Because no labelling with this AB is detectable in brains of the fly Drosophila melanogaster and the ant Camponotus floridanus, we tentatively named this antibody AmBNSab (Apis mellifera Brain Neurons Specific antibody). Here we report our results to make them accessible to a broader community and invite further research to unravel the biological role of this curious nuclear structure in the honey bee central brain. KW - mushroom body calyx KW - synaptic complexes KW - bodies KW - insect KW - plasticity KW - insights KW - genome KW - model KW - proteins KW - methylation KW - biological techniques KW - cell biology KW - developmental biology KW - molecular biology KW - neuroscience Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-260059 VL - 11 ER - TY - JOUR A1 - Hojsgaard, Diego A1 - Schartl, Manfred T1 - Skipping sex: A nonrecombinant genomic assemblage of complementary reproductive modules JF - BioEssays N2 - The unusual occurrence and developmental diversity of asexual eukaryotes remain a puzzle. De novo formation of a functioning asexual genome requires a unique assembly of sets of genes or gene states to disrupt cellular mechanisms of meiosis and gametogenesis, and to affect discrete components of sexuality and produce clonal or hemiclonal offspring. We highlight two usually overlooked but essential conditions to understand the molecular nature of clonal organisms, that is, a nonrecombinant genomic assemblage retaining modifiers of the sexual program, and a complementation between altered reproductive components. These subtle conditions are the basis for physiologically viable and genetically balanced transitions between generations. Genomic and developmental evidence from asexual animals and plants indicates the lack of complementation of molecular changes in the sexual reproductive program is likely the main cause of asexuals' rarity, and can provide an explanatory frame for the developmental diversity and lability of developmental patterns in some asexuals as well as for the discordant time to extinction estimations. KW - amphimixis KW - apomixis KW - automixis KW - gynogenesis KW - hybridogenesis KW - parthenogenesis Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-225818 VL - 43 IS - 1 ER - TY - JOUR A1 - Heydarian, Motaharehsadat A1 - Schweinlin, Matthias A1 - Schwarz, Thomas A1 - Rawal, Ravisha A1 - Walles, Heike A1 - Metzger, Marco A1 - Rudel, Thomas A1 - Kozjak-Pavlovic, Vera T1 - Triple co-culture and perfusion bioreactor for studying the interaction between Neisseria gonorrhoeae and neutrophils: A novel 3D tissue model for bacterial infection and immunity JF - Journal of Tissue Engineering N2 - Gonorrhea, a sexually transmitted disease caused by the bacteria Neisseria gonorrhoeae, is characterized by a large number of neutrophils recruited to the site of infection. Therefore, proper modeling of the N. gonorrhoeae interaction with neutrophils is very important for investigating and understanding the mechanisms that gonococci use to evade the immune response. We have used a combination of a unique human 3D tissue model together with a dynamic culture system to study neutrophil transmigration to the site of N. gonorrhoeae infection. The triple co-culture model consisted of epithelial cells (T84 human colorectal carcinoma cells), human primary dermal fibroblasts, and human umbilical vein endothelial cells on a biological scaffold (SIS). After the infection of the tissue model with N. gonorrhoeae, we introduced primary human neutrophils to the endothelial side of the model using a perfusion-based bioreactor system. By this approach, we were able to demonstrate the activation and transmigration of neutrophils across the 3D tissue model and their recruitment to the site of infection. In summary, the triple co-culture model supplemented by neutrophils represents a promising tool for investigating N. gonorrhoeae and other bacterial infections and interactions with the innate immunity cells under conditions closely resembling the native tissue environment. KW - Triple co-culture KW - biomimetic 3D tissue model KW - Neisseria gonorrhoeae KW - perfusion-based bioreactor system KW - neutrophil transmigration Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-259032 VL - 12 ER - TY - JOUR A1 - Hepbasli, Denis A1 - Gredy, Sina A1 - Ullrich, Melanie A1 - Reigl, Amelie A1 - Abeßer, Marco A1 - Raabe, Thomas A1 - Schuh, Kai T1 - Genotype- and Age-Dependent Differences in Ultrasound Vocalizations of SPRED2 Mutant Mice Revealed by Machine Deep Learning JF - Brain Sciences N2 - Vocalization is an important part of social communication, not only for humans but also for mice. Here, we show in a mouse model that functional deficiency of Sprouty-related EVH1 domain-containing 2 (SPRED2), a protein ubiquitously expressed in the brain, causes differences in social ultrasound vocalizations (USVs), using an uncomplicated and reliable experimental setting of a short meeting of two individuals. SPRED2 mutant mice show an OCD-like behaviour, accompanied by an increased release of stress hormones from the hypothalamic–pituitary–adrenal axis, both factors probably influencing USV usage. To determine genotype-related differences in USV usage, we analyzed call rate, subtype profile, and acoustic parameters (i.e., duration, bandwidth, and mean peak frequency) in young and old SPRED2-KO mice. We recorded USVs of interacting male and female mice, and analyzed the calls with the deep-learning DeepSqueak software, which was trained to recognize and categorize the emitted USVs. Our findings provide the first classification of SPRED2-KO vs. wild-type mouse USVs using neural networks and reveal significant differences in their development and use of calls. Our results show, first, that simple experimental settings in combination with deep learning are successful at identifying genotype-dependent USV usage and, second, that SPRED2 deficiency negatively affects the vocalization usage and social communication of mice. KW - SPRED KW - SPRED2 KW - mice KW - neural networks KW - ultrasound vocalizations KW - DeepSqueak Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-248525 SN - 2076-3425 VL - 11 IS - 10 ER - TY - JOUR A1 - Hensgen, Ronja A1 - England, Laura A1 - Homberg, Uwe A1 - Pfeiffer, Keram T1 - Neuroarchitecture of the central complex in the brain of the honeybee: Neuronal cell types JF - Journal of Comparative Neurology N2 - The central complex (CX) in the insect brain is a higher order integration center that controls a number of behaviors, most prominently goal directed locomotion. The CX comprises the protocerebral bridge (PB), the upper division of the central body (CBU), the lower division of the central body (CBL), and the paired noduli (NO). Although spatial orientation has been extensively studied in honeybees at the behavioral level, most electrophysiological and anatomical analyses have been carried out in other insect species, leaving the morphology and physiology of neurons that constitute the CX in the honeybee mostly enigmatic. The goal of this study was to morphologically identify neuronal cell types of the CX in the honeybee Apis mellifera. By performing iontophoretic dye injections into the CX, we traced 16 subtypes of neuron that connect a subdivision of the CX with other regions in the bee's central brain, and eight subtypes that mainly interconnect different subdivisions of the CX. They establish extensive connections between the CX and the lateral complex, the superior protocerebrum and the posterior protocerebrum. Characterized neuron classes and subtypes are morphologically similar to those described in other insects, suggesting considerable conservation in the neural network relevant for orientation. KW - RRID: AB_2337244 KW - RRID: AB_2315425 KW - central complex KW - insect brain KW - neuroanatomy KW - sky compass KW - Apis mellifera Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-215566 VL - 529 ER - TY - INPR A1 - Hennig, Thomas A1 - Prusty, Archana B. A1 - Kaufer, Benedikt A1 - Whisnant, Adam W. A1 - Lodha, Manivel A1 - Enders, Antje A1 - Thomas, Julius A1 - Kasimir, Francesca A1 - Grothey, Arnhild A1 - Herb, Stefanie A1 - Jürges, Christopher A1 - Meister, Gunter A1 - Erhard, Florian A1 - Dölken, Lars A1 - Prusty, Bhupesh K. T1 - Selective inhibition of microRNA processing by a herpesvirus-encoded microRNA triggers virus reactivation from latency N2 - Herpesviruses have mastered host cell modulation and immune evasion to augment productive infection, life-long latency and reactivation thereof 1,2. A long appreciated, yet elusively defined relationship exists between the lytic-latent switch and viral non-coding RNAs 3,4. Here, we identify miRNA-mediated inhibition of miRNA processing as a novel cellular mechanism that human herpesvirus 6A (HHV-6A) exploits to disrupt mitochondrial architecture, evade intrinsic host defense and drive the latent-lytic switch. We demonstrate that virus-encoded miR-aU14 selectively inhibits the processing of multiple miR-30 family members by direct interaction with the respective pri-miRNA hairpin loops. Subsequent loss of miR-30 and activation of miR-30/p53/Drp1 axis triggers a profound disruption of mitochondrial architecture, which impairs induction of type I interferons and is necessary for both productive infection and virus reactivation. Ectopic expression of miR-aU14 was sufficient to trigger virus reactivation from latency thereby identifying it as a readily drugable master regulator of the herpesvirus latent-lytic switch. Our results show that miRNA-mediated inhibition of miRNA processing represents a generalized cellular mechanism that can be exploited to selectively target individual members of miRNA families. We anticipate that targeting miR-aU14 provides exciting therapeutic options for preventing herpesvirus reactivations in HHV-6-associated disorders like myalgic encephalitis/chronic fatigue syndrome (ME/CFS) and Long-COVID. KW - Herpesvirus KW - HHV-6 KW - miRNA processing KW - miR-30 KW - mitochondria KW - fusion and fission KW - type I interferon KW - latency KW - virus reactivation Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-267858 UR - https://doi.org/10.21203/rs.3.rs-820696/v1 ET - submitted version ER - TY - JOUR A1 - Hempelmann, Alexander A1 - Hartleb, Laura A1 - van Straaten, Monique A1 - Hashemi, Hamidreza A1 - Zeelen, Johan P. A1 - Bongers, Kevin A1 - Papavasiliou, F. Nina A1 - Engstler, Markus A1 - Stebbins, C. Erec A1 - Jones, Nicola G. T1 - Nanobody-mediated macromolecular crowding induces membrane fission and remodeling in the African trypanosome JF - Cell Reports N2 - The dense variant surface glycoprotein (VSG) coat of African trypanosomes represents the primary host-pathogen interface. Antigenic variation prevents clearing of the pathogen by employing a large repertoire of antigenically distinct VSG genes, thus neutralizing the host’s antibody response. To explore the epitope space of VSGs, we generate anti-VSG nanobodies and combine high-resolution structural analysis of VSG-nanobody complexes with binding assays on living cells, revealing that these camelid antibodies bind deeply inside the coat. One nanobody causes rapid loss of cellular motility, possibly due to blockage of VSG mobility on the coat, whose rapid endocytosis and exocytosis are mechanistically linked to Trypanosoma brucei propulsion and whose density is required for survival. Electron microscopy studies demonstrate that this loss of motility is accompanied by rapid formation and shedding of nanovesicles and nanotubes, suggesting that increased protein crowding on the dense membrane can be a driving force for membrane fission in living cells. KW - African trypanosome KW - host-pathogen interaction KW - variant surface glycoproteins KW - immune epitope mapping KW - structural biology KW - nanovesicle formation KW - nanotube formation KW - protein crowding KW - membrane fission Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-270285 VL - 37 IS - 5 ER - TY - JOUR A1 - Helmprobst, Frederik A1 - Kneitz, Susanne A1 - Klotz, Barbara A1 - Naville, Magali A1 - Dechaud, Corentin A1 - Volff, Jean-Nicolas A1 - Schartl, Manfred T1 - Differential expression of transposable elements in the medaka melanoma model JF - PLoS One N2 - Malignant melanoma incidence is rising worldwide. Its treatment in an advanced state is difficult, and the prognosis of this severe disease is still very poor. One major source of these difficulties is the high rate of metastasis and increased genomic instability leading to a high mutation rate and the development of resistance against therapeutic approaches. Here we investigate as one source of genomic instability the contribution of activation of transposable elements (TEs) within the tumor. We used the well-established medaka melanoma model and RNA-sequencing to investigate the differential expression of TEs in wildtype and transgenic fish carrying melanoma. We constructed a medaka-specific TE sequence library and identified TE sequences that were specifically upregulated in tumors. Validation by qRT- PCR confirmed a specific upregulation of a LINE and an LTR element in malignant melanomas of transgenic fish. KW - melanoma KW - genomics KW - transposable elements KW - cancer genomics KW - malignant tumors KW - gene prediction KW - human genomics KW - retrotransposons Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-260615 VL - 16 IS - 10 ER - TY - JOUR A1 - Helfrich-Förster, C. A1 - Monecke, S. A1 - Spiousas, I. A1 - Hovestadt, T. A1 - Mitesser, O. A1 - Wehr, T. A. T1 - Women temporarily synchronize their menstrual cycles with the luminance and gravimetric cycles of the Moon JF - Science Advances N2 - Many species synchronize reproductive behavior with a particular phase of the lunar cycle to increase reproductive success. In humans, a lunar influence on reproductive behavior remains controversial, although the human menstrual cycle has a period close to that of the lunar cycle. Here, we analyzed long-term menstrual recordings of individual women with distinct methods for biological rhythm analysis. We show that women’s menstrual cycles with a period longer than 27 days were intermittently synchronous with the Moon’s luminance and/or gravimetric cycles. With age and upon exposure to artificial nocturnal light, menstrual cycles shortened and lost this synchrony. We hypothesize that in ancient times, human reproductive behavior was synchronous with the Moon but that our modern lifestyles have changed reproductive physiology and behavior. KW - moon KW - menstrual cycles Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-231479 VL - 7 IS - 5 ER - TY - JOUR A1 - Heidrich, Lea A1 - Pinkert, Stefan A1 - Brandl, Roland A1 - Bässler, Claus A1 - Hacker, Hermann A1 - Roth, Nicolas A1 - Busse, Annika A1 - Müller, Jörg A1 - Friess, Nicolas T1 - Noctuid and geometrid moth assemblages show divergent elevational gradients in body size and color lightness JF - Ecography N2 - Previous macroecological studies have suggested that larger and darker insects are favored in cold environments and that the importance of body size and color for the absorption of solar radiation is not limited to diurnal insects. However, whether these effects hold true for local communities and are consistent across taxonomic groups and sampling years remains unexplored. This study examined the variations in body size and color lightness of the two major families of nocturnal moths, Geometridae and Noctuidae, along an elevational gradient of 700 m in Southern Germany. An assemblage-based analysis was performed using community-weighted means and a fourth-corner analysis to test for variations in color and body size among communities as a function of elevation. This was followed by a species-level analysis to test whether species occurrence and abundance along an elevation gradient were related to these traits, after controlling for host plant availability. In both 2007 and 2016, noctuid moth assemblages became larger and darker with increasing elevation, whereas geometrids showed an opposite trend in terms of color lightness and no clear trend in body size. In single species models, the abundance of geometrids, but not of noctuids, was driven by habitat availability. In turn, the abundance of dark-colored noctuids, but not geometrids increased with elevation. While body size and color lightness affect insect physiology and the ability to cope with harsh conditions, divergent trait–environment relationships between both families underline that findings of coarse-scale studies are not necessarily transferable to finer scales. Local abundance and occurrence of noctuids are shaped by morphological traits, whereas that of geometrids are rather shaped by local habitat availability, which can modify their trait–environment-relationship. We discuss potential explanations such as taxon-specific flight characteristics and the effect of microclimatic conditions. KW - insects KW - color lightness KW - body size KW - elevation KW - habitat availability KW - flight characteristics Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-256694 VL - 44 IS - 8 ER - TY - THES A1 - Heidrich, Lea T1 - The effect of environmental heterogeneity on communities T1 - Der Einfluss von Heterogenität in Umweltbedingungen auf Artgemeinschaften N2 - How diversity of life is generated, maintained, and distributed across space and time is the central question of community ecology. Communities are shaped by three assembly processes: (I) dispersal, (II) environ-mental, and (III) interaction filtering. Heterogeneity in environmental conditions can alter these filtering processes, as it increases the available niche space, spatially partitions the resources, but also reduces the effective area available for individual species. Ultimately, heterogeneity thus shapes diversity. However, it is still unclear under which conditions heterogeneity has positive effects on diversity and under which condi-tions it has negative or no effects at all. In my thesis, I investigate how environmental heterogeneity affects the assembly and diversity of diverse species groups and whether these effects are mediated by species traits. In Chapter II, I first examine how much functional traits might inform about environmental filtering pro-cesses. Specifically, I examine to which extent body size and colour lightness, both of which are thought to reflect the species thermal preference, shape the distribution and abundance of two moth families along elevation. The results show, that assemblages of noctuid moths are more strongly driven by abiotic filters (elevation) and thus form distinct patterns in colour lightness and body size, while geometrid moths are driven by biotic filters (habitat availability), and show no decline in body size nor colour lightness along elevation. Thus, one and the same functional trait can have quite different effects on community assembly even between closely related taxonomic groups. In Chapter III, I elucidate how traits shift the relative importance of dispersal and environmental filtering in determining beta diversity between forests. Environmental filtering via forest heterogeneity had on aver-age higher independent effects than dispersal filtering within and among regions, suggesting that forest heterogeneity determines species turnover even at country-wide extents. However, the relative importance of dispersal filtering increased with decreasing dispersal ability of the species group. From the aspects of forest heterogeneity covered, variations in herb or tree species composition had overall stronger influence on the turnover of species than forest physiognomy. Again, this ratio was influenced by species traits, namely trophic position, and body size, which highlights the importance of ecological properties of a taxo-nomic group in community assembly. In Chapter IV, I assess whether such ecological properties ultimately determine the level of heterogeneity which maximizes species richness. Here, I considered several facets of heterogeneity in forests. Though the single facets of heterogeneity affected diverse species groups both in positive and negative ways, we could not identify any generalizable mechanism based on dispersal nor the trophic position of the species group which would dissolve these complex relationships. In Chapter V, I examine the effect of environmental heterogeneity of the diversity of traits itself to evalu-ate, whether the effects of environmental heterogeneity on species richness are truly based on increases in the number of niches. The results revealed that positive effects of heterogeneity on species richness are not necessarily based on an increased number of niches alone, but proposedly also on a spatially partition of resources or sheltering effects. While ecological diversity increased overall, there were also negative trends which indicate filtering effects via heterogeneity. In Chapter VI, I present novel methods in measuring plot-wise heterogeneity of forests across continental scales via Satellites. The study compares the performance of Sentinel-1 and LiDar-derived measurements in depicting forest structures and heterogeneity and to their predictive power in modelling diversity. Senti-nel-1 could match the performance of Lidar and shows high potential to assess free yet detailed infor-mation about forest structures in temporal resolutions for modelling the diversity of species. Overall, my thesis supports the notion that heterogeneity in environmental conditions is an important driv-er of beta-diversity, species richness, and ecological diversity. However, I could not identify any general-izable mechanism which direction and form this effect will have. N2 - Eine zentrale Frage in der Ökologie ist es, wie die Diversität von Artgemeinschaften generiert, aufrecht-erhalten, und über Zeit und Raum verteilt wird. Die Zusammensetzung von Artgemeinschaften wird durch drei Prozesse bestimmt, die einzelne Arten herausfiltern: (I) Ausbreitung, sowie (II) Umweltbedin-gungen und (III) Interaktionen mit anderen Arten. Heterogenität in Umweltbedingungen verändert das Zusammenspiel dieser Filterprozesse, da es die Anzahl verfügbarer Nischen erhöht und Ressourcen räum-lich aufteilt, aber auch den für die jeweilige Art verfügbaren Raum reduziert, was schlussendlich die Diver-sität der Artgemeinschaft beeinflusst. Es ist jedoch immer noch unklar, wann Heterogenität die Diversität positiv und wann negativ oder sogar überhaupt nicht beeinflusst. In dieser Dissertation werde ich der Fra-ge nachgehen, wie Heterogenität die Artzusammensetzung und Diversität verschiedenster Artengruppen beeinflusst und ob deren Reaktion auf Heterogenität durch Artmerkmale beeinflusst wird. In Kapitel II untersuche ich zunächst inwieweit funktionale Merkmale den Einfluss von Umweltbedingun-gen auf Arten widerspiegeln. Dazu untersuchte ich den Einfluss von Körpergröße und Helligkeit auf die Verbreitung und Abundanz zweier Nachtfalterfamilien entlang eines Höhengradienten. Es zeigte sich, dass Noctuidae stärker von abiotischen Filterprozessen, d.h. Höhe, betroffen waren und klare Zu- bzw. Ab-nahmen in Körpergröße und Helligkeit entlang der Höhe aufwiesen, während Geometridae eher von bioti-schen Filterprozessen, d.h. der Verfügbarkeit ihres Habitats, beeinflusst wurden und keine Merkmalsmus-ter entlang der Höhe aufwiesen. Entsprechend kann ein- und dasselbe Merkmal selbst innerhalb nah-verwandter Artgruppen unterschiedliche Effekte auf die Zusammensetzung von Arten haben. In Kapitel III erläutere ich, wie funktionelle Merkmale die relative Wichtigkeit von Ausbreitungs- und Umweltfiltern für beta-Diversität verschieben können. Sowohl innerhalb als auch zwischen den untersuch-ten Regionen beeinflusste Heterogenität in Wäldern die beta-Diversität stärker als die räumliche Distanz. Letztere wurde allerdings immer bedeutender, je schlechter die Ausbreitungsfähigkeit der jeweiligen Arten-gruppe war. Wenn die Heterogenität in Wäldern nach floristischen und strukturellen Aspekten aufgeteilt wird, so hatte erstere alles in allem einen stärkeren Einfluss auf Unterschiede zwischen Artgemeinschaften. Bei Artengruppen höheren trophischen Levels und größeren Körperbaus hatten die strukturellen Aspekte jedoch einen stärkeren Einfluss. Diese Ergebnisse verdeutlichen, dass die Artzusammensetzung von be-stimmte Merkmale beeinflusst werden kann. In Kapitel IV untersuche ich ob solche Merkmale das Level an Heterogenität festlegen, an welchen Arten-reichtum am höchsten ist. Dazu betrachtete ich mehrere Aspekte von Heterogenität in Wäldern. Obwohl Heterogenität in diesen Aspekten sowohl positive als auch negative Einfluss auf den Artenreichtum der verschiedensten Artengruppen hatte, konnten wir diese nicht anhand der Ausbreitungsfähigkeit oder des trophischen Levels der Artengruppen ableiten. In Kapitel V untersuche ich schließlich den Effekt von Heterogenität auf die Vielfalt von funktionalen Merkmalen. Dieser Ansatz soll helfen zu evaluieren, ob eventuelle Anstiege in der Artenzahl mit Hetero-genität einem Zuwachs in der Anzahl der ökologischen Nischen zurückzuführen sind. Die Ergebnisse legen nahe, dass ein Anstieg von Artenreichtum nicht dadurch beeinflusst wird, sondern auch durch ande-re Mechanismen wie die räumliche Aufteilung von Ressourcen oder durch die Schaffung von Zufluchts-räumen. Obwohl Heterogenität die ökologische Diversität überwiegend positiv beeinflusste, gab es auch einige negative Reaktionen die darauf hindeuten, dass Heterogenität auch bestimmte Merkmale aus einer Artgemeinschaft herausfiltern kann. In Kapitel VI präsentiere ich neue, Satelliten-gestützte Methoden in der Erfassung von Waldstrukturen. In dieser Studie werden die Eignung von LiDar (Lasergestützte Waldvermessungen aus der Luft) und Senti-nel-1 (Satellitenscan durch Radiowellen) verglichen, Waldstrukturen und deren Heterogenität zu messen sowie verschiedene Diversitäts-indices zu modellieren. Hierbei schnitt Sentinel-1 ähnlich gut ab wie LiDar. Somit zeigt Sentinel-1 großes Potential zukünftige Biodiversitätsaufnahmen zu unterstützen, auch aufgrund der kostenfreie Verfügbarkeit von Daten, deren globalen Abdeckung und hohen zeitlichen Auflösung. Insgesamt unterstützen die Ergebnisse meiner Arbeit die große Bedeutung von Heterogenität, insbesonde-re von Waldstrukturen, für beta-Diversität, Artenreichtum und funktionaler Diversität. Allerdings konnte keine generelle Regel identifiziert werden, nach der sich vorhersagen lassen würde welche genaue Richtung dieser Effekt haben wird. KW - Heterogenität KW - Wald KW - Artenvielfalt KW - Waldstruktur Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-221781 ER - TY - THES A1 - Heiby, Julia T1 - Insight into molecular mechanisms of folding and self-association of spider silk protein domains T1 - Einblicke in molekulare Mechanismen der Faltung und Selbstassoziation von Spinnenseidenproteindomänen N2 - Spider silk is a biomaterial of extraordinary toughness paired with elasticity. The assembly of silk proteins, so-called spidroins (from “spider” and “fibroin”), generates the silk threads we typically see in our garden or the corners of our houses. Although spider webs from different species vary considerably in geometry and size, many sections of spidroin sequences are conserved. Highly conserved regions, found in all spidroins, relate to the terminal domains of the protein, i.e., the N-terminal (NTD) and C-terminal domains (CTD). Both have an essential function in the silk fibre association and polymerisation. The NTD is a 14 kDa five-helix bundle, which self-associates via a pH-driven mechanism. This process is critical for starting the polymerisation of the fibre. However, detailed insights into how conserved this mechanism is in different species and the quantitative thermodynamic comparison between homologous NTDs was missing. For this reason, four homologous NTDs of the major ampullate gland (MaSp) from spider species Euprosthenops australis, Nephila clavipes, Latrodectus hesperus, and Latrodectus geometricus were investigated. I analysed and quantified equilibrium thermodynamics, kinetics of folding, and self-association. Methods involved dynamic light scattering (MALS), stopped-flow fluorescence and circular dichroism spectroscopy in combination with thermal and chemical denaturation experiments. The results showed conserved, cooperative two-state folding on a sub-millisecond time scale. All homologous NTDs showed a similarly fast association in the order of 10^9 M^−1 s^−1, while the resulting equilibrium dissociation constants were in the low nanomolar range. Electrostatic forces were found to be of great importance for protein association. Monomeric protein stability increased with salt concentration while enhancing its folding speed. However, due to Debye-Hückel effects, we found intermolecular electrostatics to be shielded, which reduced the NTDs association capacity significantly at high ionic strength. Altogether, the energetics and kinetics of the NTD dimerisation was conserved for all analysed homologs. Comparable to the NTD, the spider silks CTD is also a α-helix bundle, which covalently links two spidroins. The orientation of the domains predetermines the future fibre geometry. Here again, the detailed quantitative characterisation of the folding and dimerisation was missing. Therefore, the CTD from the E. australis was analysed in-depth. The protein folded via a three-state mechanism and was placed in the family of knotted proteins. By analysing the amino acid composition of the NTD of the MaSp1 of the Euprosthenops australis, we found an unusually high content of methionine residues (Met). To elucidate why this protein exhibits so many Met residues, I mutated all core Mets simultaneously to leucine (Leu). Results revealed a dramatically stabilised NTD, which now folded 50 times faster. After solving the tertiary structure of the mutant by NMR (nuclear magnetic resonance) spectroscopy, the structure of the monomeric mutant was found to be identical with the wild-type protein. However, when probing the dimerisation of the NTD, I could show that the association capacity was substantially impaired for the mutant. Our findings lead to the conclusion that Met provides the NTD with enhanced conformational dynamics and thus mobilises the protein, which results in tightly associated dimers. In additional experiments, I first re-introduced new Met residues into the Met-depleted protein at sequence positions containing native Leu. Hence, the mutated NTD protein was provided with the same number of Leu, which were previously removed by mutation. However, the protein did not regain wild-type characteristics. The functionality was not restored, but its stability was decreased as expected. To probe our hypothesis gained from the MaSp NTD, I transferred the experiment to another protein, namely the Hsp90 chaperone. Therefore, I incorporated methionine residues in the protein, which resulted in a slight improvement of its function. Finally, trial experiments were performed aiming at the synthesis of shortened spidroin constructs containing less repetitive middle-segments than the wild-type protein. The objective was to study the findings of the terminal domains in the context of an intact spidroin. The synthesis of these engineered spidroins was challenging. Nevertheless, preliminary results encourage the assumption that the characteristics observed in the isolated domains hold true in the context of a full-length spidroin. N2 - Spinnenseide ist ein Biomaterial mit außergewöhnlicher Widerstandsfähigkeit welche gepaart ist mit Elastizität. Das Zusammenfügen von Seidenproteinen aus so ge-nannten Spidroinen (ein Kunstwort aus „Spinne“ und „Fibroin“) erzeugt die Seiden-fäden, die wir typischerweise in unseren Gärten oder in den Ecken unserer Häuser finden. Obwohl Spinnennetze von verschiedenen Spinnenarten in Geometrie und Größe stark variieren, sind große Teile der Spidroin-Sequenzen konserviert. Stark konservierte Bereiche, die in allen Spidroinen vorkommen, sind die endständigen Bereiche des Proteins, die N-terminale (NTD) und C-terminale Domäne (CTD) ge-nannt werden. Beide haben wichtige Funktionen in der Assoziation der Proteine im Spinnkanal und deren Polymerisation zur Ausbildung des Seidenfadens. Die NTD ist ein kleines 14 kDa Protein, bestehend aus einem Bündel aus fünf Helices, dessen Selbstorganisation pH-abhängig ist. Dieser Prozess leitet die Poly-merisation der Faser ein. Allerdings fehlten bis heute Informationen darüber, ob dieser Mechanismus bei homologen Domänen aus verschiedenen Spinnenarten konser¬viert ist, da kaum quantitative biophysikalische Daten vorhanden sind. Aus diesem Grund wurden vier homologe NTDs der Spinnenarten Euprosthenops australis, Nephila clavipes, Latrodectus hesperus und Latrodectus geometricus vergleichend untersucht und deren Gleichgewichts-Thermodynamik, die Kinetik der Faltung und die Selbstassoziation quantitativ analysiert. Dazu wurden Methoden wie dynamische Mehrwinkel-Lichtstreuung (MALS), Stopped-Flow Fluoreszenz-spektroskopie und Zirkulardichroismus in Kombination mit thermischen und chemischen Denaturierungs¬experimenten angewandt. Die Ergebnisse lieferten die Erkenntnis einer kooperativen Zwei-Zustands-Faltung, die auf einer Zeitskala von weniger als einer Millisekunde stattfand. Alle homologen NTDs zeigten eine schnelle Assoziationsratenkonstante in der Größenordnung von 10^9 M^-1 s^-1, während die Gleichgewichts-Dissoziationskonstante für alle Homologe im nied¬rigen nano-molaren Bereich lag. Die Proteinassoziation wurde durch elektrostatische Kräfte gesteuert, wobei hohe Salzkonzentrationen die Stabilität des monomeren Proteins und dessen Faltungsgeschwindigkeit erhöhten. Die Assoziation zweier Domänen wurde jedoch durch Abschirmung intermolekularer elektrostatischer Kräfte, dem Debye-Hückel-Gesetz zufolge, reduziert. Die Energetik und Kinetik der NTD-Dimerisierung aller untersuchten Homologen erwies sich konserviert. Ebenso wie die NTD, ist auch die CTD der Spinnenseide ein α-helikales Bündel, welche jedoch zwei Spidroine kovalent miteinander verbindet. Die Orientierung der verknüpften Domäne bestimmt bereits die zukünftige Faserstruktur. Ähnlich wie bei der NTD, waren Faltung und Dimerisierung der CTD bisher nicht im Detail be-schrieben. Durch eine detaillierte Analyse der CTD der E. australis konnte gezeigt werden, dass das Protein sich in einem dreistufigen Mechanismus faltet und außerdem der Familie der geknoteten Proteine angehört. Bei genauerer Betrachtung der Aminosäurezusammensetzung der E. australis NTD konnte ein ungewöhnlich hoher Anteil der Aminosäure Methionin (Met) festge¬stellt werden. Um diesen überraschenden Sachverhalt zu verstehen, habe ich alle im Kern liegenden Met zu Leucin (Leu) mutiert. Die Ergebnisse zeigten eine extrem stabilisierte NTD, welche sich nun 50-fach schneller faltete. Die Protein¬struktur der Mutante wurde in Lösung mittels NMR Spektroskopie ermittelt. Das Ergebnis lieferte deckungsgleiche Strukturen von Mutante und Wildtyp im monomeren Zustand. Allerdings zeigten NTD Dimerisierungs-Versuche, dass die Assoziations-fähigkeit der Mutante erheblich beeinträchtigt war. Untersuchungen der nativen Dynamik mittels NMR und Fluoreszenzkorrelationsspektroskopie zeigten, dass Met diese entscheidend verstärkt, was zu einem eng assoziierten Dimer führte. Im Versuch die Dynamik wieder künstlich herzustellen, habe ich neue Met in die Mutante eingeführt, auf Sequenzpositionen welche natürlicherweise Leu aufweisen. Somit wurde die ursprüngliche Anzahl an Met in der NTD wiederher¬gestellt, jedoch an anderen Positionen. Obwohl das Protein wie erwartet an Stabilität verlor, konnte dessen Funktionalität nicht wiederhergestellt werden. Um unsere Erkenntnisse auf andere Proteine zu übertragen, wurden Met Reste künstlich in ein Hsp90 Protein eingeführt. Es konnte eine leicht verbesserte Funktionalität des Proteins beobachtet werden. Schließlich wurde versucht, die für die CTD und NTD gewonnen Erkenntnisse auf intakte, jedoch verkürzte Spidroine zu übertragen. Dazu wurden Spidroine mit weniger repetitiven Mittelsegmenten mittels rekombinanten Methoden hergestellt. Die Synthese dieser Spidroine erwies sich als Herausforderung. Allerdings zeigten die vorläufigen Ergebnisse, dass eine Verallgemeinerung der Erkenntnisse der isolierten Domänen auf das Volllängen-Spidroin möglich ist. KW - Spinnenseide KW - Fluoreszenzspektroskopie KW - Terminale Domaine KW - Spider Silk KW - Fluorescence spectroscopy KW - Terminal domains Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-193455 ER -