TY - JOUR A1 - Nürnberger, Fabian A1 - Steffan-Dewenter, Ingolf A1 - Härtel, Stephan T1 - Combined effects of waggle dance communication and landscape heterogeneity on nectar and pollen uptake in honey bee colonies JF - PeerJ N2 - The instructive component of waggle dance communication has been shown to increase resource uptake of Apis mellifera colonies in highly heterogeneous resource environments, but an assessment of its relevance in temperate landscapes with different levels of resource heterogeneity is currently lacking. We hypothesized that the advertisement of resource locations via dance communication would be most relevant in highly heterogeneous landscapes with large spatial variation of floral resources. To test our hypothesis, we placed 24 Apis mellifera colonies with either disrupted or unimpaired instructive component of dance communication in eight Central European agricultural landscapes that differed in heterogeneity and resource availability. We monitored colony weight change and pollen harvest as measure of foraging success. Dance disruption did not significantly alter colony weight change, but decreased pollen harvest compared to the communicating colonies by 40%. There was no general effect of resource availability on nectar or pollen foraging success, but the effect of landscape heterogeneity on nectar uptake was stronger when resource availability was high. In contrast to our hypothesis, the effects of disrupted bee communication on nectar and pollen foraging success were not stronger in landscapes with heterogeneous compared to homogenous resource environments. Our results indicate that in temperate regions intra-colonial communication of resource locations benefits pollen foraging more than nectar foraging, irrespective of landscape heterogeneity. We conclude that the so far largely unexplored role of dance communication in pollen foraging requires further consideration as pollen is a crucial resource for colony development and health. KW - Apis mellifera KW - orientation KW - recruitment KW - landscape ecology KW - foraging behaviour KW - floral resource distribution Y1 - 2017 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-170813 VL - 5 IS - e3441 ER - TY - THES A1 - Reimer, Anastasija T1 - Search for novel antimicrobials against \(Neisseria\) \(gonorrhoeae\) and \(Chlamydia\) \(trachomatis\) T1 - Suche nach neuen Antimikrobiotika gegen \(Neisseria\) \(gonorrhoeae\) und \(Chlamydia\) \(trachomatis\) N2 - The obligate human pathogen Neisseria gonorrhoeae is responsible for the widespread sexually transmitted disease gonorrhoea, which in rare cases also leads to the development of disseminated gonococcal infection (DGI). DGI is mediated by PorBIA-expressing bacteria that invade host cells under low phosphate condition by interaction with the scavenger receptor-1 (SREC-I) expressed on the surface of endothelial cells. The interaction of PorBIA and SREC-I was analysed using different in vitro approaches, including surface plasmon resonance experiments that revealed a direct phosphate-independent high affinity interaction of SREC-I to PorBIA. However, the same binding affinity was also found for the other allele PorBIB, which indicates unspecific binding and suggests that the applied methods were unsuitable for this interaction analysis. Since N. gonorrhoeae was recently classified as a “super-bug” due to a rising number of antibiotic-resistant strains, this study aimed to discover inhibitors against the PorBIA-mediated invasion of N. gonorrhoeae. Additionally, inhibitors were searched against the human pathogen Chlamydia trachomatis, which causes sexually transmitted infections as well as infections of the upper inner eyelid. 68 compounds, including plant-derived small molecules, extracts or pure compounds of marine sponges or sponge-associated bacteria and pipecolic acid derivatives, were screened using an automated microscopy based approach. No active substances against N. gonorrhoeae could be identified, while seven highly antichlamydial compounds were detected. The pipecolic acid derivatives were synthesized as potential inhibitors of the virulence-associated “macrophage infectivity potentiator” (MIP), which exhibits a peptidyl prolyl cis-trans isomerase (PPIase) enzyme activity. This study investigated the role of C. trachomatis and N. gonorrhoeae MIP during infection. The two inhibitors PipN3 and PipN4 decreased the PPIase activity of recombinant chlamydial and neisserial MIP in a dose-dependent manner. Both compounds affected the chlamydial growth and development in epithelial cells. Furthermore, this work demonstrated the contribution of MIP to a prolonged survival of N. gonorrhoeae in the presence of neutrophils, which was significantly reduced in the presence of PipN3 and PipN4. SF2446A2 was one of the compounds that had a severe effect on the growth and development of C. trachomatis. The analysis of the mode of action of SF2446A2 revealed an inhibitory effect of the compound on the mitochondrial respiration and mitochondrial ATP production of the host cell. However, the chlamydial development was independent of proper functional mitochondria, which excluded the connection of the antichlamydial properties of SF2446A2 with its inhibition of the respiratory chain. Only the depletion of cellular ATP by blocking glycolysis and mitochondrial respiratory chain inhibited the chlamydial growth. A direct effect of SF2446A2 on C. trachomatis was assumed, since the growth of the bacteria N. gonorrhoeae and Staphylococcus aureus was also affected by the compound. In summary, this study identified the severe antichlamydial activity of plant-derived naphthoquinones and the compounds derived from marine sponges or sponge-associated bacteria SF2446A2, ageloline A and gelliusterol E. Furthermore, the work points out the importance of the MIP proteins during infection and presents pipecolic acid derivatives as novel antimicrobials against N. gonorrhoeae and C. trachomatis. N2 - Neisseria gonorrhoeae ist ein obligat humanpathogenes Bakterium, das für die weltweit verbreitete sexuell übertragbare Krankheit Gonorrhoe verantwortlich ist. In seltenen Fällen kann es auch zur Ausbildung der Disseminierten Gonokokken-Infektion (DGI) kommen, die mit der Expression des Gonokokken Oberflächenproteins PorBIA assoziiert ist. PorBIA-exprimierende Bakterien invadieren in die Wirtszelle unter phosphatfreien Bedingungen, was durch eine Interaktion mit dem zellulären Oberflächenrezeptor scavenger receptor-1 (SREC-I) vermittelt wird. Die direkte Interaktion zwischen PorBIA und SREC-I wurde mittels verschiedenster Methoden analysiert, einschließlich einer Oberflächenplasmonresonanz-analyse, die eine direkte Bindung von PorBIA zu SREC-I in einem phosphatunabhängigen Schritt aufzeigte. Allerdings wurde dieselbe Affinität auch zu PorBIB gefunden, was auf eine unspezifische Bindung hindeutet und dafür spricht, dass die verwendeten Methoden für diese Interaktionsanalyse ungeeignet sind. N. gonorrheae wurde vor kurzem wegen der stetig steigenden Anzahl antibiotikaresistenter Stämme als „Superkeim“ bezeichnet. Aufgrund dessen wurden Inhibitoren gegen die PorBIA-vermittelte Invasion von N. gonorrhoeae, aber auch gegen Chlamydia trachomatis, den humanpathogenen Erreger von sexuell übertragbaren Infektionen und chronisch-follikulärer Bindehautentzündung, gesucht. 68 niedermolekulare Substanzen wurden mittels eines automatisierten Fluoreszenzmikroskopieverfahrens auf ihre inhibitorische Wirkung hin analysiert. Zu den getesteten Substanzen zählten pflanzenabstammende Stoffe, Isolate aus marinen Schwämmen oder Schwamm-assoziierten Bakterien, sowie Pipecolinsäure-Derivate. Gegen N. gonorrheae konnten keine Substanzen identifiziert werden, während sieben antichlamydiale Inhibitoren detektiert wurden. Pipecolinsäurederivate wurden synthetisiert als potentielle Inhibitoren des virulenz-assoziierten Proteins “macrophage infectivity potentiator” (MIP), das eine Peptidyl-Prolyl-cis-trans-Isomerase Aktivität besitzt. Diese Arbeit untersuchte die Rolle des MIP Proteins von N. gonorrhoeae und C. trachomatis während einer Infektion. Die zwei Inhibitoren PipN3 und PipN4 senkten die PPIase Aktivität des rekombinanten Chlamydien und Neisserien MIPs. Beide Substanzen beeinträchtigten das chlamydiale Wachstum und die Entwicklung in Epithelzellen. Ebenso konnte eine tragende Rolle des N. gonorrhoeae MIPs für das Überleben der Bakterien in Gegenwart von Neutrophilen aufgezeigt werden, das durch PipN3 und PipN4 inhibiert wurde. SF2446A2 war einer der Inhibitoren, der einen erheblichen Effekt auf das Wachstum und die Entwicklung von C. trachomatis aufgewiesen hat. Während der Analyse des Wirkmechanismus von SF2446A2 konnte eine Hemmung der mitochondrialen Atmungskette und eine Abnahme der mitochondrialen ATP Produktion in der Wirtszelle festgestellt werden. Allerdings war die Entwicklung von C. trachomatis unabhängig von der Funktionsfähigkeit der Mitochondrien. Eine Verbindung zwischen der antichlamydialen Wirkung von SF2446A2 und der Inhibierung der Mitochondrienatmungskette konnte damit ausgeschlossen werden. Nur das Reduzieren von zellulärem ATP durch Blockieren der Glykolyse und mitochondrialen Atmungskette verursachte eine Beeinträchtigung des Chlamydienwachstums. Eine direkte Auswirkung von SF2446A2 auf C. trachomatis wurde angenommen, da die Substanz auch das Wachstum von anderen Bakterien wie N. gonorrhoeae und Staphylococcus aureus inhibierte. Zusammengefasst identifizierte diese Studie die antichlamydiale Aktivität pflanzenabstammender Naphthochinone und der Isolate aus marinen Schwämmen oder Schwamm-assoziierten Bakterien SF2446A2, ageloline A und gelliusterol E. Ebenso verdeutlicht die Arbeit die Bedeutung der MIP Proteine während der Infektion und legt Pipecolinsäurederivate als mögliche neue Antibiotika gegen N. gonorrhoeae und C. trachomatis nahe. KW - Neisseria gonorrhoeae KW - antibiotics KW - Chlamydia trachomatis KW - Antimikrobieller Wirkstoff KW - Pipecolinsäurederivate KW - Neisseria KW - Chlamydia Y1 - 2017 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-143168 ER - TY - THES A1 - Reis, Helena T1 - Characterization of telomere protein complexes in Trypanosoma brucei T1 - Charakterisierung von telomerischen Proteinkomplexen in Trypanosoma brucei N2 - African trypanosomiasis is a disease endemic to sub-Saharan Africa. It affects humans as well as wild and domestic animals. The human form of the disease is known as sleeping sickness and the animal form as nagana, which are usually fatal if left untreated. The cause of African trypanosomiasis is the unicellular parasite Trypanosoma brucei. During its life cycle, Trypanosoma brucei shuttles between a mammalian host and the tsetse fly vector. In the mammalian host the parasite multiplies as bloodstream form (BSF) extracellularly in the bloodstream or the lymphatic system. Survival of BSF parasites relies on immune evasion by antigenic variation of surface proteins because its extracellular lifestyle leads to direct exposure to immune responses. At any given time each BSF cell expresses a single type of variant surface glycoprotein (VSG) on its surface from a large repertoire. The active VSG is transcribed from one of 15 specialized subtelomeric domains, termed bloodstream expression sites (BESs). The remaining 14 BESs are silenced. This monoallelic expression and periodic switching of the expressed VSG enables to escape the immune response and to establish a persistent infection in the mammalian host. During developmental differentiation from BSF to the insect vector-resident procyclic form (PCF), the active BES is transcriptionally silenced to stop VSG transcription. Thus, all 15 BESs are inactive in the PCF cells as surface protein expression is developmentally regulated. Previous reports have shown that the telomere complex components TbTRF, TbRAP1 and TbTIF2 are involved in VSG transcriptional regulation. However, the precise nature of their contribution remains unclear. In addition, no information is available about the role of telomeres in the initiation and regulation of developmental BES silencing. To gain insights into the regulatory mechanisms of telomeres on VSG transcription and developmental repression it is therefore essential to identify the complete composition of the trypanosome telomere complex. To this end, we used two complementary biochemical approaches and quantitative label-free interactomics to determine the composition of telomere protein complexes in T. brucei. Firstly, using a telomeric pull-down assay we found 17 potential telomere-binding proteins including the known telomere-binding proteins TbTRF and TbTIF2. Secondly, by performing a co-immunoprecipitation experiment to elucidate TbTRF interactions we co-purified five proteins. All of these five proteins were also enriched with telomeric DNA in the pull-down assay. To validate these data, I characterized one of the proteins found in both experiments (TelBP1). In BSF cells, TelBP1 co-localizes with TbTRF and interacts with already described telomere-binding proteins such as TbTRF, TbTIF2 and TbRAP1 indicating that TelBP1 is a novel component of the telomere complex in trypanosomes. Interestingly, protein interaction studies in PCF cells suggested a different telomere complex composition compared to BSF cells. In contrast to known members of the telomere complex, TelBP1 is dispensable for cell viability indicating that its function might be uncoupled from the known telomere-binding proteins. Overexpression of TelBP1 had also no effect on cell viability, but led to the discovery of two additional shorter isoforms of TelBP1. However, their source and function remained elusive. Although TelBP1 is not essential for cell viability, western blot analysis revealed a 4-fold upregulation of TelBP1 in the BSF stage compared to the PCF stage supporting the concept of a dynamic telomere complex composition. We observed that TelBP1 influences the kinetics of transcriptional BES silencing during developmental transition from BSF to PCF. Deletion of TelBP1 caused faster BES silencing compared to wild-type parasites. Taken together, TelBP1 function illustrates that developmental BES silencing is a fine-tuned process, which involves stage-specific changes in telomere complex formation. N2 - Afrikanische Trypanosomiasis ist eine Krankheit, die in Afrika südlich der Sahara endemisch vorkommt und sowohl Menschen als auch Wild- und Haustiere betrifft. Die menschliche Form der Krankheit ist als Schlafkrankheit und die Tierform als Nagana bekannt. Ohne Behandlung verläuft die Krankheit in der Regel tödlich. Der einzellige Parasit Trypanosoma brucei ist die Ursache dieser Krankheit. Während seines Lebenszyklus bewegt sich der Parasit zwischen einem Säugetierwirt und einem Insektenvektor, der Tsetsefliege. Im Säugetierwirt vermehrt sich der Parasit als Blutstromform (BSF) extrazellulär im Blutkreislauf und im Lymphsystem. Das Fortbestehen der BSF-Parasiten im Wirt beruht auf einer Immunausweichstrategie durch antigene Variation der Oberflächenproteine. Diese Abwehrstrategie ist erforderlich, da der Parasit durch seinen extrazellulären Lebensstil direkt der Immunantwort ausgesetzt ist. Zu jedem Zeitpunkt wird nur ein variables Oberflächenprotein (VSG) auf der Zelloberfläche aus einem großen Repertoire exprimiert. Dabei wird das aktive VSG von einer von 15 spezialisierten telomerproximalen Transkriptionseinheiten transkribiert, den sogenannten Blutstromform Expression Sites (BESs). Die restlichen 14 BESs sind inaktiv. Diese monoallelische Expression und das periodische Wechseln des exprimierten VSG ermöglichen dem Parasiten der Immunantwort zu entgehen und eine persistente Infektion im Säugetierwirt zu etablieren. Während der Differenzierung von BSF zur Insektenvektor-residenten prozyklischen Form (PCF) wird die aktive BES transkriptionell herunter reguliert um die VSG-Transkription zu stoppen. Somit sind alle 15 BESs in PCF-Zellen inaktiv, da die Expression von Oberflächenproteinen stadienspezifisch reguliert ist. Frühere Veröffentlichungen haben gezeigt, dass die Proteine TbTRF, TbRAP1 und TbTIF2 des Telomerkomplexes an der Transkriptionsregulation von VSG-Genen beteiligt sind. Es ist jedoch unklar, wie genau sie zur Regulation beitragen. Darüber hinaus gibt es keine Informationen über die Rolle von Telomeren bei der Initiation und Regulation der BES-Inaktivierung während der Differenzierung. Um Einblicke in die regulatorischen Mechanismen von Telomeren auf die VSG-Transkription und differenzierungsbedingte Repression der aktiven BES zu gewinnen, ist es daher notwendig, die vollständige Zusammensetzung der Telomerkomplexe in Trypanosomen zu identifizieren. Zu diesem Zweck wurden zwei komplementäre biochemische Ansätze und quantitative Massenspektrometrie genutzt um die Zusammensetzung von Telomerproteinkomplexen in T. brucei zu bestimmen. Zunächst wurden mittels einer Affinitätschromatographie mit TTAGGG-Oligonukleotiden 17 potentielle telomerbindende Proteine gefunden. Darunter waren auch die bereits bekannten telomerbindenden Proteine TbTRF und TbTIF2. Zweitens wurde mit Hilfe eines Co-Immunpräzipitationsexperiments um die Interaktionen von TbTRF aufzuklären, fünf Proteine aufgereinigt. Alle diese fünf Proteine wurden auch mit telomerischer DNA in der Affinitätschromatographie angereichert. Um diese Daten zu validieren, wurde eines der in beiden Experimenten gefundenen Proteine (TelBP1) charakterisiert. In BSF-Zellen co-lokalisiert TelBP1 mit TbTRF und interagiert mit bereits beschriebenen telomerbindenden Proteinen wie TbTRF, TbTIF2 und TbRAP1. Dies deutet darauf, dass TelBP1 eine weitere Komponente des Telomerkomplexes in Trypanosomen ist. Interessanterweise deuteten Proteininteraktionsstudien in PCF-Zellen auf eine andere Zusammensetzung des Telomerkomplexes im Vergleich zu BSF-Zellen. Im Gegensatz zu den bekannten Mitgliedern des Telomerkomplexes ist TelBP1 für das Zellwachstum nicht essentiell. Damit könnte die Funktion von TelBP1 von den bekannten telomerbindenden Proteinen entkoppelt sein. Die Überexpression von TelBP1 zeigte auch keinen Einfluss auf das Zellwachstum, führte aber zur Entdeckung von zwei weiteren kürzeren Isoformen von TelBP1. Ihr Ursprung und Funktion blieben jedoch ungeklärt. Obwohl TelBP1 für das Zellwachstum entbehrlich ist, zeigten Westernblot-Analysen eine 4-fache Hochregulierung von TelBP1 in BSF-Zellen im Vergleich zu PCF-Zellen. Die stadienspezifische Regulation von TelBP1 unterstützt damit das Konzept von einer dynamischen Zusammensetzung der Telomerkomplexe. Zudem wurde beobachtet, dass TelBP1 die Kinetik der Inaktivierung der aktiven BES während der Differenzierung von der BSF zur PCF beeinflusst. Die Deletion von TelBP1 führte zu einem schnelleren Abschalten der BES im Vergleich zu Wildtyp-Parasiten. Zusammengefasst zeigt die Funktion von TelBP1, dass das Abschalten der aktiven BES während der Differenzierung ein fein abgestimmter Prozess ist, der stadienspezifische Veränderungen der Telomerkomplexe beinhaltet. KW - Trypanosoma brucei KW - Genexpression KW - Telomer KW - telomere-binding protein KW - chromatin remodeling KW - developmental differentiation Y1 - 2017 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-151323 ER - TY - THES A1 - Ritter, Cathrin T1 - Scientific basics for new immunotherapeutic approaches towards Merkel cell carcinoma T1 - Grundlagen neuer immuntherapeutischer Ansätze gegen das Merkelzellkarzinom N2 - Merkel cell carcinoma (MCC) is an aggressive neuroendocrine skin cancer that has been associated with the Merkel cell polyomavirus (MCPyV). Indeed, MCC is one of the cancers with the best-established viral carcinogenesis. Despite persistence of the virus in MCC cells and the subsequent expression of viral antigens, the majority of MCC tumors are able to escape the surveillance of the immune system. Therefore the aim of the here presented thesis was to scrutinize immune escape mechanisms operative in MCC. A better understanding of their underlying molecular processes should allow to improve immunotherapeutic treatment strategies for MCC patients. The manuscripts included in this thesis characterize three novel immune evasion strategies of MCC. I) the epigenetic silencing of the NKG2D ligands MICA and MICB via histone H3 hypoacetylation II) reduced HLA class I surface expression via epigenetic silencing of the antigen processing machinery (APM) III) the activation of the PI3K-AKT pathway in a mutation independent manner as potential immune escape strategy MCC tumors and MCC cell lines were analyzed for their expression of MICA/B, HLA and components of the antigen processing machinery as well as for the activation of the PI3K-AKT pathway in situ and in vitro. These analysis reviled MICA and MICB, as well as HLA class I were not expressed or at least markedly reduced in ~80% of MCCs in situ. The PI3K-AKT pathway, that had only recently been demonstrated to play a significant role in tumor immune escape, was activated in almost 90% of MCCs in situ. To determine the underlying molecular mechanisms of these aberrations well characterized MCC cell lines were further analyzed in vitro. The fact that the PI3K-AKT pathway activation was due to oncogenic mutations in the PIK3CA or AKT1 gene in only 10% of MCCs, suggested an epigenetic regulation of this pathway in MCC. In line with this MICA/B as well as components of the APM were indeed silenced epigenetically via histone hypoacetylation in their respective promoter region. Notably MICA/B and HLA class I expression on the cell surface of MCC cells could be restored after treatment with HDAC inhibitors in combination with the Sp1 inhibitor Mithramycin A in all analyzed MCC cell lines in vitro and in a xenotransplantation mouse model in vivo. Moreover inhibition of HDACs increased immune recognition of MCC cell lines in a MICA/B and HLA class I dependent manner. Several studies have accumulated evidence that immunotherapy is a promising treatment option for MCC patients due to the exquisite immunogenicity of this malignancy. However, current immunotherapeutic interventions towards solid tumors like MCC have to account for the plentitude of tumor immune escape strategies, in order to increase response rates. The immune escape mechanisms of MCC described in this thesis can be reverted by HDAC inhibition, thus providing the rationale to combine ‘epigenetic priming’ with currently tested immunotherapeutic regimens. N2 - Das Merkelzellkarzinom (MCC) ist ein aggressiver neuroendokriner Hautkrebs, der mit dem Merkelzell-Polyomavirus (MCPyV) assoziiert ist. Das MCC ist eine der Krebserkrankungen mit der am besten etablierten viralen Karzinogenese. Trotz der Anwesenheit des MCPyV in MCC-Zellen und der daraus einhergehenden Expression viraler Antigene sind die meisten MCC-Tumoren in der Lage der Überwachung durch das Immunsystem zu entgehen. Aus diesem Grund war das Ziel der hier vorliegenden Arbeit, neue im MCC operative „immune escape“ Mechanismen zu ermitteln. Ein besseres Verständnis der hierbei zugrunde liegenden Mechanismen, sollte es ermöglichen, immuntherapeutische Behandlungsstrategien für MCC-Patienten zu verbessern. Die vorgestellten Manuskripte beschreiben drei neuartige „immune evasion“ Strategien des MCC: I) die epigenetische Inaktivierung der NKG2D-Liganden MICA und MICB mittels Histone-H3-Hypoacetylierung II) eine reduzierte HLA Klasse I-Oberflächenexpression aufgrund epigenetischer Inaktivierung der Antigenprozessierungsmaschinerie (APM) III) die mutationsunabhängige Aktivierung des PI3K-AKT-Signalweges, als potentieller „immune escape“ Mechanismus MCC-Tumoren und MCC-Zelllinien wurden sowohl bezüglich der Expression von MICA/B, HLA Klasse I und Komponenten der APM als auch auf die Aktivierung des PI3K Signalweges in situ und in vitro untersucht. Diese Analysen zeigten, dass sowohl MICA und MICB als auch HLA Klasse I in ca. 80% der MCC-Tumoren in situ nicht, oder nur sehr reduziert, exprimiert wurden. Der PI3K-AKT-Signalweg, welcher erst kürzlich mit Tumor „immune escape“ in Verbindung gebracht wurde, war in fast 90% aller MCC-Tumoren in situ aktiviert. Um die zugrunde liegenden molekularen Mechanismen dieser Aberrationen zu entschlüsseln, wurden gut charakterisierte MCC-Zelllinien in vitro untersucht. Die Tatsache, dass der PI3K-AKT-Signalweg in nur 10% der MCCs auf Mutationen im PI3KA- oder AKT1-Gen zurückzuführen war, suggeriert eine epigenetische Regulation dieses Signalwegs. In Übereinstimmung hiermit waren sowohl MICA/B als auch Gene der APM epigenetisch mittels Histon-Hypoacetylierung in ihren jeweiligen Promoterregionen inaktiviert. Bemerkenswerterweise konnten in vitro und in einem Xenotransplantations-Mausmodell in vivo sowohl die MICA/B als auch die HLA Klasse I-Oberflächenexpression aller untersuchter MCC-Zelllinien durch die Behandlung mit HDAC-Inhibitoren in Kombination mit dem Sp1-Inhibitor Mithramycin A wieder hergestellt werden. Des Weiteren erhöhte die Inhibition von HDACs die MCC-Immunerkennung auf eine MICA/B und HLA Klasse I-abhängige Weise. Zahlreiche aktuelle Studien bestärken die Annahme, dass aufgrund der besonderen Immunogenität des MCC, die Immuntherapie eine aussichtsreiche Behandlungsoption für MCC-Patienten darstellt. Nichtsdestotrotz müssen die derzeitigen immuntherapeutischen Methoden zur Behandlung solider Tumore die Vielzahl von Tumor „immune escape“ Mechanismen mitberücksichtigen, um die Ansprechrate zu erhöhen. Die Tatsache, dass die hier beschriebenen „immune escape“ Mechanismen durch HDAC-Inhibition aufgehoben werden können, spricht für die Hypothese, dass eine Kombination von „epigenetischem Priming“ mit derzeitig untersuchten immuntherapeutischen Ansätzen sinnvoll ist. KW - Merkel-Zellkarzinom KW - Merkel cell carcinoma KW - Epigenetics KW - MICA KW - MICB KW - Tumor Immunology KW - Immune Escape Y1 - 2017 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-124162 ER - TY - JOUR A1 - Ruf, Franziska A1 - Fraunholz, Martin A1 - Öchsner, Konrad A1 - Kaderschabeck, Johann A1 - Wegener, Christian T1 - WEclMon - A simple and robust camera-based system to monitor Drosophila eclosion under optogenetic manipulation and natural conditions JF - PLoS ONE N2 - 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. KW - chronobiology KW - infrared radiation KW - light pulses KW - molting KW - Drosophila melanogaster KW - optogenetics KW - eclosion Y1 - 2017 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-170755 VL - 12 IS - 6 ER - TY - JOUR A1 - Ruppert, Manuela A1 - Franz, Mirjam A1 - Saratis, Anastasios A1 - Escarcena, Laura Velo A1 - Hendrich, Oliver A1 - Gooi, Li Ming A1 - Schwenkert, Isabell A1 - Klebes, Ansgar A1 - Scholz, Henrike T1 - Hangover links nuclear RNA signaling to cAMP regulation via the phosphodiesterase 4d ortholog dunce JF - Cell Reports N2 - The hangover gene defines a cellular stress pathway that is required for rapid ethanol tolerance in Drosophila melanogaster. To understand how cellular stress changes neuronal function, we analyzed Hangover function on a cellular and neuronal level. We provide evidence that Hangover acts as a nuclear RNA binding protein and we identified the phosphodiesterase 4d ortholog dunce as a target RNA. We generated a transcript-specific dunce mutant that is impaired not only in ethanol tolerance but also in the cellular stress response. At the neuronal level, Dunce and Hangover are required in the same neuron pair to regulate experience-dependent motor output. Within these neurons, two cyclic AMP (cAMP)-dependent mechanisms balance the degree of tolerance. The balance is achieved by feedback regulation of Hangover and dunce transcript levels. This study provides insight into how nuclear Hangover/RNA signaling is linked to the cytoplasmic regulation of cAMP levels and results in neuronal adaptation and behavioral changes. KW - biology KW - hangover KW - dunce KW - Dunce isoforms KW - PDE4d KW - cellular stress KW - alcohol tolerance KW - Drosophila melanogaster Y1 - 2017 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-171950 VL - 18 IS - 2 ER - TY - JOUR A1 - Römer, Daniela A1 - Bollazzi, Martin A1 - Roces, Flavio T1 - Carbon dioxide sensing in an obligate insect-fungus symbiosis: CO\(_{2}\) preferences of leaf-cutting ants to rear their mutualistic fungus JF - PLoS ONE N2 - Defense against biotic or abiotic stresses is one of the benefits of living in symbiosis. Leaf-cutting ants, which live in an obligate mutualism with a fungus, attenuate thermal and desiccation stress of their partner through behavioral responses, by choosing suitable places for fungus-rearing across the soil profile. The underground environment also presents hypoxic (low oxygen) and hypercapnic (high carbon dioxide) conditions, which can negatively influence the symbiont. Here, we investigated whether workers of the leaf-cutting ant Acromyrmex lundii use the CO\(_{2}\) concentration as an orientation cue when selecting a place to locate their fungus garden, and whether they show preferences for specific CO\(_{2}\) concentrations. We also evaluated whether levels preferred by workers for fungus-rearing differ from those selected for themselves. In the laboratory, CO\(_{2}\) preferences were assessed in binary choices between chambers with different CO\(_{2}\) concentrations, by quantifying number of workers in each chamber and amount of relocated fungus. Leaf-cutting ants used the CO\(_{2}\) concentration as a spatial cue when selecting places for fungus-rearing. A. lundii preferred intermediate CO\(_{2}\) levels, between 1 and 3%, as they would encounter at soil depths where their nest chambers are located. In addition, workers avoided both atmospheric and high CO\(_{2}\) levels as they would occur outside the nest and at deeper soil layers, respectively. In order to prevent fungus desiccation, however, workers relocated fungus to high CO\(_{2}\) levels, which were otherwise avoided. Workers’ CO\(_{2}\) preferences for themselves showed no clear-cut pattern. We suggest that workers avoid both atmospheric and high CO\(_{2}\) concentrations not because they are detrimental for themselves, but because of their consequences for the symbiotic partner. Whether the preferred CO\(_{2}\) concentrations are beneficial for symbiont growth remains to be investigated, as well as whether the observed preferences for fungus-rearing influences the ants’ decisions where to excavate new chambers across the soil profile. KW - fungi KW - nesting habits KW - carbon dioxide KW - ants KW - social systems KW - humidity KW - symbiosis KW - fungal physiology Y1 - 2017 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-159561 VL - 12 IS - 4 ER - TY - JOUR A1 - Rössler, Wolfgang A1 - Spaethe, Johannes A1 - Groh, Claudia T1 - Pitfalls of using confocal-microscopy based automated quantification of synaptic complexes in honeybee mushroom bodies (response to Peng and Yang 2016) JF - Scientific Reports N2 - A recent study by Peng and Yang in Scientific Reports using confocal-microscopy based automated quantification of anti-synapsin labeled microglomeruli in the mushroom bodies of honeybee brains reports potentially incorrect numbers of microglomerular densities. Whereas several previous studies using visually supervised or automated counts from confocal images and analyses of serial 3D electron-microscopy data reported consistent numbers of synaptic complexes per volume, Peng and Yang revealed extremely low numbers differing by a factor of 18 or more from those obtained in visually supervised counts, and by a factor 22–180 from numbers in two other studies using automated counts. This extreme discrepancy is especially disturbing as close comparison of raw confocal images of anti-synapsin labeled whole-mount brain preparations are highly similar across these studies. We conclude that these discrepancies may reside in potential misapplication of confocal imaging followed by erroneous use of automated image analysis software. Consequently, the reported microglomerular densities during maturation and after manipulation by insecticides require validation by application of appropriate confocal imaging methods and analyses tools that rely on skilled observers. We suggest several improvements towards more reliable or standardized automated or semi-automated synapse counts in whole mount preparations of insect brains. KW - confocal-microscopy based automated quantification KW - mushroom bodies KW - honeybees KW - brain Y1 - 2017 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-170451 VL - 7 IS - 9786 ER - TY - JOUR A1 - Sander, Bodo A1 - Xu, Wenshan A1 - Eilers, Martin A1 - Popov, Nikita A1 - Lorenz, Sonja T1 - A conformational switch regulates the ubiquitin ligase HUWE1 JF - eLife N2 - The human ubiquitin ligase HUWE1 has key roles in tumorigenesis, yet it is unkown how its activity is regulated. We present the crystal structure of a C-terminal part of HUWE1, including the catalytic domain, and reveal an asymmetric auto-inhibited dimer. We show that HUWE1 dimerizes in solution and self-associates in cells, and that both occurs through the crystallographic dimer interface. We demonstrate that HUWE1 is inhibited in cells and that it can be activated by disruption of the dimer interface. We identify a conserved segment in HUWE1 that counteracts dimer formation by associating with the dimerization region intramolecularly. Our studies reveal, intriguingly, that the tumor suppressor p14ARF binds to this segment and may thus shift the conformational equilibrium of HUWE1 toward the inactive state. We propose a model, in which the activity of HUWE1 underlies conformational control in response to physiological cues—a mechanism that may be exploited for cancer therapy. KW - Medicine KW - Structural Biology KW - Molecular Biophysics KW - HUWE1 KW - HECT Ligase KW - Ubiquitin KW - P14ARF KW - X-Ray Chrystallography KW - Enzyme Regulation Y1 - 2017 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-171862 VL - 6 ER - TY - JOUR A1 - Sbirkov, Yordan A1 - Kwok, Colin A1 - Bhamra, Amandeep A1 - Thompson, Andrew J. A1 - Gil, Veronica A1 - Zelent, Arthur A1 - Petrie, Kevin T1 - Semi-quantitative mass spectrometry in AML cells identifies new non-genomic targets of the EZH2 methyltransferase JF - International Journal of Molecular Sciences N2 - Alterations to the gene encoding the EZH2 (KMT6A) methyltransferase, including both gain-of-function and loss-of-function, have been linked to a variety of haematological malignancies and solid tumours, suggesting a complex, context-dependent role of this methyltransferase. The successful implementation of molecularly targeted therapies against EZH2 requires a greater understanding of the potential mechanisms by which EZH2 contributes to cancer. One aspect of this effort is the mapping of EZH2 partner proteins and cellular targets. To this end we performed affinity-purification mass spectrometry in the FAB-M2 HL-60 acute myeloid leukaemia (AML) cell line before and after all-trans retinoic acid-induced differentiation. These studies identified new EZH2 interaction partners and potential non-histone substrates for EZH2-mediated methylation. Our results suggest that EZH2 is involved in the regulation of translation through interactions with a number of RNA binding proteins and by methylating key components of protein synthesis such as eEF1A1. Given that deregulated mRNA translation is a frequent feature of cancer and that eEF1A1 is highly expressed in many human tumours, these findings present new possibilities for the therapeutic targeting of EZH2 in AML. KW - acute myeloid leukaemia KW - EZH2 KW - mass spectrometry KW - methylation KW - eEF1A1 Y1 - 2017 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-285541 SN - 1422-0067 VL - 18 IS - 7 ER - TY - JOUR A1 - Scheiner, Ricarda A1 - Entler, Brian V. A1 - Barron, Andrew B. A1 - Scholl, Christina A1 - Thamm, Markus T1 - The Effects of Fat Body Tyramine Level on Gustatory Responsiveness of Honeybees (Apis mellifera) Differ between Behavioral Castes JF - Frontiers in Systems Neuroscience N2 - Division of labor is a hallmark of social insects. In the honeybee (Apis mellifera) each sterile female worker performs a series of social tasks. The most drastic changes in behavior occur when a nurse bee, who takes care of the brood and the queen in the hive, transitions to foraging behavior. Foragers provision the colony with pollen, nectar or water. Nurse bees and foragers differ in numerous behaviors, including responsiveness to gustatory stimuli. Differences in gustatory responsiveness, in turn, might be involved in regulating division of labor through differential sensory response thresholds. Biogenic amines are important modulators of behavior. Tyramine and octopamine have been shown to increase gustatory responsiveness in honeybees when injected into the thorax, thereby possibly triggering social organization. So far, most of the experiments investigating the role of amines on gustatory responsiveness have focused on the brain. The potential role of the fat body in regulating sensory responsiveness and division of labor has large been neglected. We here investigated the role of the fat body in modulating gustatory responsiveness through tyramine signaling in different social roles of honeybees. We quantified levels of tyramine, tyramine receptor gene expression and the effect of elevating fat body tyramine titers on gustatory responsiveness in both nurse bees and foragers. Our data suggest that elevating the tyramine titer in the fat body pharmacologically increases gustatory responsiveness in foragers, but not in nurse bees. This differential effect of tyramine on gustatory responsiveness correlates with a higher natural gustatory responsiveness of foragers, with a higher tyramine receptor (Amtar1) mRNA expression in fat bodies of foragers and with lower baseline tyramine titers in fat bodies of foragers compared to those of nurse bees. We suggest that differential tyramine signaling in the fat body has an important role in the plasticity of division of labor through changing gustatory responsiveness. KW - behavior KW - biogenic amines KW - division of labor KW - nurse bee KW - forager KW - PER KW - octopamine KW - insect Y1 - 2017 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-157874 VL - 11 IS - 55 ER - TY - THES A1 - Scholz, Nicole T1 - Genetic analyses of sensory and motoneuron physiology in Drosophila melanogaster T1 - Genetische Analyse sensorischer und motoneuronaler Physiologie in Drosophila melanogaster N2 - During my PhD I studied two principal biological aspects employing Drosophila melanogaster. Therefore, this study is divided into Part I and II. Part I: Bruchpilot and Complexin interact to regulate synaptic vesicle tethering to the active zone cytomatrix At the presynaptic active zone (AZ) synaptic vesicles (SVs) are often physically linked to an electron-dense cytomatrix – a process referred to as “SV tethering”. This process serves to concentrate SVs in close proximity to their release sites before contacting the SNARE complex for subsequent fusion (Hallermann and Silver, 2013). In Drosophila, the AZ protein Bruchpilot (BRP) is part of the proteinous cytomatrix at which SVs accumulate (Kittel et al., 2006b; Wagh et al., 2006; Fouquet et al., 2009). Intriguingly, truncation of only 1% of the C-terminal region of BRP results in a severe defect in SV tethering to this AZ scaffold (hence named brpnude; Hallermann et al., 2010b). Consistent with these findings, cell-specific overexpression of a C-terminal BRP fragment, named mBRPC-tip (corresponds to 1% absent in brpnude; m = mobile) phenocopied the brpnude mutant in behavioral and functional experiments. These data indicate that mBRPC-tip suffices to saturate putative SV binding sites, which induced a functional tethering deficit at motoneuronal AZs. However, the molecular identity of the BRP complement to tether SVs to the presynaptic AZ scaffold remains unknown. Moreover, within larval motoneurons membrane-attached C-terminal portions of BRP were sufficient to tether SVs to sites outside of the AZ. Based on this finding a genetic screen was designed to identify BRP interactors in vivo. This screen identified Complexin (CPX), which is known to inhibit spontaneous SV fusion and to enhance stimulus evoked SV release (Huntwork and Littleton, 2007; Cho et al., 2010; Martin et al., 2011). However, so far CPX has not been associated with a function upstream of priming/docking and release of SVs. This work provides morphological and functional evidence, which suggests that CPX promotes recruitment of SVs to the AZ and thereby curtails synaptic short-term depression. Together, the presented findings indicate a functional interaction between BRP and CPX at Drosophila AZs. Part II: The Adhesion-GPCR Latrophilin/CIRL shapes mechanosensation The calcium independent receptor of α-latrotoxin (CIRL), also named Latrophilin, represents a prototypic Adhesion class G-protein coupled-receptor (aGPCR). Initially, Latrophilin was identified based on its capacity to bind the α-component of latrotoxin (α-LTX; Davletov et al., 1996; Krasnoperov et al., 1996), which triggers massive exocytotic activity from neurons of the peripheral nervous system (Scheer et al., 1984; Umbach et al., 1998; Orlova et al., 2000). As a result Latrophilin is considered to play a role in synaptic transmission. Later on, Latrophilins have been associated with other biological processes including tissue polarity (Langenhan et al., 2009), fertility (Prömel et al., 2012) and synaptogenesis (Silva et al., 2011). However, thus far its subcellular localization and the identity of endogenous ligands, two aspects crucial for the comprehension of Latrophilin’s in vivo function, remain enigmatic. Drosophila contains only one latrophilin homolog, named dCirl, whose function has not been investigated thus far. This study demonstrates abundant dCirl expression throughout the nervous system of Drosophila larvae. dCirlKO animals are viable and display no defects in development and neuronal differentiation. However, dCirl appears to influence the dimension of the postsynaptic sub-synaptic reticulum (SSR), which was accompanied by an increase in the postsynaptic Discs-large abundance (DLG). In contrast, morphological and functional properties of presynaptic motoneurons were not compromised by the removal of dCirl. Instead, dCirl is required for the perception of mechanical challenges (acoustic-, tactile- and proprioceptive stimuli) through specialized mechanosensory devices, chordotonal organs (Eberl, 1999). The data indicate that dCirl modulates the sensitivity of chordotonal neurons towards mechanical stimulation and thereby adjusts their input-output relation. Genetic interaction analyses suggest that adaption of the molecular mechanotransduction machinery by dCirl may underlie this process. Together, these results uncover an unexpected function of Latrophilin/dCIRL in mechanosensation and imply general modulatory roles of aGPCR in mechanoception. N2 - In dieser These wurden zwei grundlegende biologische Aspekte mittels Drosophila melanogaster untersucht, weshalb diese in zwei Teile gegliedert ist. TeiL I: Die Interaktion von Bruchpilot und Complexin vermittelt die Anbindung von synaptischen Vesikeln an die Zytomatrix der aktiven Zone Oft findet man an aktiven Zonen (AZ) von Präsynapsen elektronendichte Matrices, welche meist in physischem Kontakt mit synaptischen Vesikeln (SV) stehen. Dieser als „SV Tethering“ bezeichnete Prozess dient der Anreicherung SV in der unmittelbaren Nähe ihrer Freisetzungszonen, noch bevor diese mit dem SNARE Komplex interagieren, um mit der präsynapti-schen Plasmamembran zu fusionieren (Hallermann und Silver, 2013). In der Taufliege Drosophila melanogaster bildet das AZ Protein Bruchpilot (BRP) Protrusionen, um welche SV akkumulieren (Kittel et al., 2006b; Wagh et al., 2006; Fouquet et al., 2009). Interessan-terweise resultiert bereits eine minimale Verkürzung von BRP (1% der Gesamtlänge) am C-terminalen Ende in einem schwerwiegenden Anbindedefekt von SV, der mit einem Funkti-onsverlust dieser Synapsen einhergeht (brpnude; Hallermann et al., 2010b). Entsprechend diesem Vorbefund resultierte die gewebespezifische Überexpression eines C-terminalen BRP Fragments - mBRPC-tip (entspricht dem fehlenden Fragment der brpnude Mu-tante; m = mobil) - sowohl in Verhaltens- als auch funktionellen Analysen in einer Phänoko-pie der brpnude Mutante. Dies deutet daraufhin, dass mBRPC-tip vermeintliche vesikuläre Interaktionspartner blockiert und so die Anreicherung von SV an motoneuronalen AZ verhindert, was ähnlich wie in brpnude Mutanten zu einem funktionellen Tethering-Defekt führt. Die molekulare Identität eines BRP Partners zur Anreicherung von SV an der Zytomatrix der AZ wurde bisher nicht beschrieben. Weiterhin zeigt diese Arbeit, dass membrangebundene C-terminale BRP Anteile genügen, um SV an Positionen außerhalb von AZ zu binden. Basierend auf diesem Befund wurde ein gene-tischer in vivo Screen zur Identifikation von BRP Interaktoren entwickelt. Dieser Screen identifizierte Complexin (CPX), ein Protein, dessen hemmende beziehungsweise fördernde Wirkung auf die spontane und reizinduzierte Vesikelfusion bekannt ist (Huntwork und Littleton, 2007; Cho et al., 2010; Martin et al., 2011). CPX wurde bisher nicht mit einer Funktion ober-halb von Vesikelpriming und -fusion in Verbindung gebracht. Diese Studie dokumentiert strukturelle und funktionelle Hinweise, die darauf hindeuten, dass CPX mit BRP interagiert, um Vesikelakkumulation an AZ zu fördern und dadurch synaptischer Kurzzeit-Depression entgegen zu wirken. Teil II: Adhäsions-GPCR Latrophilin/CIRL moduliert die Wahrnehmung mechanischer Reize Der Kalzium-unabhängige Rezeptor für α-Latrotoxin (CIRL), oder Latrophilin, ist ein prototypischer Rezeptor der Adhäsions G-Protein gekoppelten Klasse (aGPCR). Identifiziert wurde Latrophilin ursprünglich aufgrund seiner Fähigkeit die α-Komponente von Latrotoxin (α-LTX) zu binden (Davletov et al., 1996; Krasnoperov et al., 1996), welches seine Wirkung am peripheren Nervensystem entfaltet und dort übermäßige Transmitterausschüttung an neuronalen Endigungen induziert (Scheer et al., 1984; Umbach et al., 1998; Orlova et al., 2000). Basierend auf diesem Effekt wurde Latrophilin eine Rolle bei der synaptischen Transmission zugesprochen. Später wurden Latrophiline mit weiteren biologischen Prozessen in Zusammenhang gebracht, darunter Gewebepolarität (Langenhan et al., 2009), Fertilität (Prömel et al., 2012) und Synaptogenese (Silva et al., 2011). Allerdings blieb sowohl die subzelluläre Lokalisation als auch die Identität endogener Liganden, zwei Schlüsselaspekte im Verständnis der in vivo Funktion von Latrophilinen bisher rätselhaft. Drosophila besitzt lediglich ein latrophilin Homolog, dCirl, dessen Funktion bisher nicht untersucht wurde. Diese Arbeit zeigt, dass dCirl in weiten Teilen des larvalen Nervensystems von Drosophila exprimiert ist. dCirl knock-out Mutanten sind lebensfähig und weisen keine Störungen in der Entwicklung und neuronalen Differenzierung auf. Allerdings schien dCirl Einfluss auf die Ausdehnung des postsynaptischen subsynaptischen Retikulums (SSR) zu nehmen, was mit einer erhöhten Menge an Discs-large (DLG) assoziiert war. Die morphologischen und funktionellen Eigenschaften präsynaptischer Motoneurone der Fliegenlarve hingegen, waren durch den Verlust von dCirl funktionell weitestgehend unbeeinträchtigt. Vielmehr ist dCirl notwendig für die Wahrnehmung mechanischer Reize (akustische-, taktile und propriozeptive) durch spezialisierte Vorrichtungen - Chordotonalorgane (Eberl, 1999). Die Befunde deuten daraufhin, dass dCirl die Sensitivität der Chordotonalneurone gegenüber mechanischen Reizen moduliert und dadurch das Input-Output Verhältnis einstellt. Adaptation der molekularen Mechanotransduktionsmaschinerie durch dCirl könnte die molekulare Grundlage für diesen Prozess darstellen, eine Hypothese die durch genetische Interaktionsanalysen gestützt wird. Schlussfolglich enthüllen die experimentellen Befunde dieser These eine unerwartete Funktion von Latrophilin/dCirl bei der Mechanoperzeption und implizieren eine generelle modula-torische Rolle für aGPCR bei der Wahrnehmung mechanischer Reize. KW - Drosophila KW - Synapse KW - GPCR KW - synaptic vesicle tethering KW - active zone KW - Complexin KW - Bruchpilot KW - Adhesion-GPCR KW - Latrophilin KW - mechanosensing Y1 - 2017 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-123249 ER - TY - JOUR A1 - Scholz, Nicole A1 - Guan, Chonglin A1 - Nieberler, Matthias A1 - Grotmeyer, Alexander A1 - Maiellaro, Isabella A1 - Gao, Shiqiang A1 - Beck, Sebastian A1 - Pawlak, Matthias A1 - Sauer, Markus A1 - Asan, Esther A1 - Rothemund, Sven A1 - Winkler, Jana A1 - Prömel, Simone A1 - Nagel, Georg A1 - Langenhan, Tobias A1 - Kittel, Robert J T1 - Mechano-dependent signaling by Latrophilin/CIRL quenches cAMP in proprioceptive neurons JF - eLife N2 - Adhesion-type G protein-coupled receptors (aGPCRs), a large molecule family with over 30 members in humans, operate in organ development, brain function and govern immunological responses. Correspondingly, this receptor family is linked to a multitude of diverse human diseases. aGPCRs have been suggested to possess mechanosensory properties, though their mechanism of action is fully unknown. Here we show that the Drosophila aGPCR Latrophilin/dCIRL acts in mechanosensory neurons by modulating ionotropic receptor currents, the initiating step of cellular mechanosensation. This process depends on the length of the extended ectodomain and the tethered agonist of the receptor, but not on its autoproteolysis, a characteristic biochemical feature of the aGPCR family. Intracellularly, dCIRL quenches cAMP levels upon mechanical activation thereby specifically increasing the mechanosensitivity of neurons. These results provide direct evidence that the aGPCR dCIRL acts as a molecular sensor and signal transducer that detects and converts mechanical stimuli into a metabotropic response. KW - Latrophilin KW - adhesion GPCR KW - dCIRL KW - sensory physiology KW - metabotropic signalling KW - mechanotransduction Y1 - 2017 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-170520 VL - 6 IS - e28360 ER - TY - JOUR A1 - Schuster, Sarah A1 - Krüger, Timothy A1 - Subota, Ines A1 - Thusek, Sina A1 - Rotureau, Brice A1 - Beilhack, Andreas A1 - Engstler, Markus T1 - Developmental adaptations of trypanosome motility to the tsetse fly host environments unravel a multifaceted in vivo microswimmer system JF - eLife N2 - The highly motile and versatile protozoan pathogen Trypanosoma brucei undergoes a complex life cycle in the tsetse fly. Here we introduce the host insect as an expedient model environment for microswimmer research, as it allows examination of microbial motion within a diversified, secluded and yet microscopically tractable space. During their week-long journey through the different microenvironments of the fly´s interior organs, the incessantly swimming trypanosomes cross various barriers and confined surroundings, with concurrently occurring major changes of parasite cell architecture. Multicolour light sheet fluorescence microscopy provided information about tsetse tissue topology with unprecedented resolution and allowed the first 3D analysis of the infection process. High-speed fluorescence microscopy illuminated the versatile behaviour of trypanosome developmental stages, ranging from solitary motion and near-wall swimming to collective motility in synchronised swarms and in confinement. We correlate the microenvironments and trypanosome morphologies to high-speed motility data, which paves the way for cross-disciplinary microswimmer research in a naturally evolved environment. KW - none KW - tsetse fly KW - Trypanosoma KW - biophysics KW - microswimmer KW - sleeping sickness KW - structural biology Y1 - 2017 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-158662 VL - 6 ER - TY - JOUR A1 - Seher, Axel A1 - Lagler, Charlotte A1 - Stühmer, Thorsten A1 - Müller-Richter, Urs Dietmar Achim A1 - Kübler, Alexander Christian A1 - Sebald, Walter A1 - Müller, Thomas Dieter A1 - Nickel, Joachim T1 - Utilizing BMP-2 muteins for treatment of multiple myeloma JF - PLoS ONE N2 - Multiple myeloma (MM) represents a haematological cancer characterized by the pathological hyper proliferation of antibody-producing B-lymphocytes. Patients typically suffer from kidney malfunction and skeletal disorders. In the context of MM, the transforming growth factor β (TGFβ) member Activin A was recently identified as a promoter of both accompanying symptoms. Because studies have shown that bone morphogenetic protein (BMP)-2-mediated activities are counteracted by Activin A, we analysed whether BMP2, which also binds to the Activin A receptors ActRII and ActRIIB but activates the alternative SMAD-1/5/8 pathway, can be used to antagonize Activin A activities, such as in the context of MM. Therefore three BMP2 derivatives were generated with modified binding activities for the type II (ActRIIB) and/or type I receptor (BMPRIA) showing either increased or decreased BMP2 activity. In the context of MM these BMP2 muteins show two functionalities since they act as a) an anti-proliferative/apoptotic agent against neoplastic B-cells, b) as a bone-formation promoting growth factor. The molecular basis of both activities was shown in two different cellular models to clearly rely on the properties of the investigated BMP2 muteins to compete for the binding of Activin A to the Activin type II receptors. The experimental outcome suggests new therapeutic strategies using BMP2 variants in the treatment of MM-related pathologies. KW - multiple myeloma KW - signaling KW - cell proliferation KW - cell binding KW - membrane receptor signaling KW - BMP KW - gene expression KW - B cell receptors KW - B cells Y1 - 2017 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-158144 VL - 12 IS - 5 ER - TY - JOUR A1 - Selcho, Mareike A1 - Millán, Carola A1 - Palacios-Muñoz, Angelina A1 - Ruf, Franziska A1 - Ubillo, Lilian A1 - Chen, Jiangtian A1 - Bergmann, Gregor A1 - Ito, Chihiro A1 - Silva, Valeria A1 - Wegener, Christian A1 - Ewer, John T1 - Central and peripheral clocks are coupled by a neuropeptide pathway in Drosophila JF - Nature Communications N2 - Animal circadian clocks consist of central and peripheral pacemakers, which are coordinated to produce daily rhythms in physiology and behaviour. Despite its importance for optimal performance and health, the mechanism of clock coordination is poorly understood. Here we dissect the pathway through which the circadian clock of Drosophila imposes daily rhythmicity to the pattern of adult emergence. Rhythmicity depends on the coupling between the brain clock and a peripheral clock in the prothoracic gland (PG), which produces the steroid hormone, ecdysone. Time information from the central clock is transmitted via the neuropeptide, sNPF, to non-clock neurons that produce the neuropeptide, PTTH. These secretory neurons then forward time information to the PG clock. We also show that the central clock exerts a dominant role on the peripheral clock. This use of two coupled clocks could serve as a paradigm to understand how daily steroid hormone rhythms are generated in animals. KW - circadian clock KW - Drosophila KW - neuropeptide pathway KW - peripheral clocks KW - central clocks Y1 - 2017 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-170831 VL - 8 IS - 15563 ER - TY - JOUR A1 - Silva-Vilches, Cinthia A1 - Pletinckx, Katrien A1 - Lohnert, Miriam A1 - Pavlovic, Vladimir A1 - Ashour, Diyaaeldin A1 - John, Vini A1 - Vendelova, Emilia A1 - Kneitz, Susanne A1 - Zhou, Jie A1 - Chen, Rena A1 - Reinheckel, Thomas A1 - Mueller, Thomas D. A1 - Bodem, Jochen A1 - Lutz, Manfred B. T1 - Low doses of cholera toxin and its mediator cAMP induce CTLA-2 secretion by dendritic cells to enhance regulatory T cell conversion JF - PLoS ONE N2 - Immature or semi-mature dendritic cells (DCs) represent tolerogenic maturation stages that can convert naive T cells into Foxp3\(^{+}\) induced regulatory T cells (iTreg). Here we found that murine bone marrow-derived DCs (BM-DCs) treated with cholera toxin (CT) matured by up-regulating MHC-II and costimulatory molecules using either high or low doses of CT (CT\(^{hi}\), CT\(^{lo}\)) or with cAMP, a known mediator CT signals. However, all three conditions also induced mRNA of both isoforms of the tolerogenic molecule cytotoxic T lymphocyte antigen 2 (CTLA-2α and CTLA-2β). Only DCs matured under CT\(^{hi}\) conditions secreted IL-1β, IL-6 and IL-23 leading to the instruction of Th17 cell polarization. In contrast, CT\(^{lo}\)- or cAMP-DCs resembled semi-mature DCs and enhanced TGF-β-dependent Foxp3\(^{+}\) iTreg conversion. iTreg conversion could be reduced using siRNA blocking of CTLA-2 and reversely, addition of recombinant CTLA-2α increased iTreg conversion in vitro. Injection of CT\(^{lo}\)- or cAMP-DCs exerted MOG peptide-specific protective effects in experimental autoimmune encephalomyelitis (EAE) by inducing Foxp3\(^{+}\) Tregs and reducing Th17 responses. Together, we identified CTLA-2 production by DCs as a novel tolerogenic mediator of TGF-β-mediated iTreg induction in vitro and in vivo. The CT-induced and cAMP-mediated up-regulation of CTLA-2 also may point to a novel immune evasion mechanism of Vibrio cholerae. KW - small interfering RNAs KW - toxins KW - regulatory T cells KW - T cells KW - cytokines KW - cholera KW - cell differentiation KW - immune evasion Y1 - 2017 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-158244 VL - 12 IS - 7 ER - TY - JOUR A1 - Steijven, Karin A1 - Spaethe, Johannes A1 - Steffan-Dewenter, Ingolf A1 - Härtel, Stephan T1 - Learning performance and brain structure of artificially-reared honey bees fed with different quantities of food JF - PeerJ N2 - Background Artificial rearing of honey bee larvae is an established method which enables to fully standardize the rearing environment and to manipulate the supplied diet to the brood. However, there are no studies which compare learning performance or neuroanatomic differences of artificially-reared (in-lab) bees in comparison with their in-hive reared counterparts. Methods Here we tested how different quantities of food during larval development affect body size, brain morphology and learning ability of adult honey bees. We used in-lab rearing to be able to manipulate the total quantity of food consumed during larval development. After hatching, a subset of the bees was taken for which we made 3D reconstructions of the brains using confocal laser-scanning microscopy. Learning ability and memory formation of the remaining bees was tested in a differential olfactory conditioning experiment. Finally, we evaluated how bees reared with different quantities of artificial diet compared to in-hive reared bees. Results Thorax and head size of in-lab reared honey bees, when fed the standard diet of 160 µl or less, were slightly smaller than hive bees. The brain structure analyses showed that artificially reared bees had smaller mushroom body (MB) lateral calyces than their in-hive counterparts, independently of the quantity of food they received. However, they showed the same total brain size and the same associative learning ability as in-hive reared bees. In terms of mid-term memory, but not early long-term memory, they performed even better than the in-hive control. Discussion We have demonstrated that bees that are reared artificially (according to the Aupinel protocol) and kept in lab-conditions perform the same or even better than their in-hive sisters in an olfactory conditioning experiment even though their lateral calyces were consistently smaller at emergence. The applied combination of experimental manipulation during the larval phase plus subsequent behavioral and neuro-anatomic analyses is a powerful tool for basic and applied honey bee research. KW - nutrition KW - cognition KW - neuroanatomy KW - differential olfactory conditioning KW - mushroom bodies KW - proboscis extension reflex KW - confocal laser scanning microscopy KW - Apis mellifera KW - brain development KW - morphometry Y1 - 2017 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-170137 VL - 5 IS - e3858 ER - TY - JOUR A1 - Stein, Katharina A1 - Coulibaly, Drissa A1 - Stenchly, Kathrin A1 - Goetze, Dethardt A1 - Porembski, Stefan A1 - Lindner, André A1 - Konaté, Souleymane A1 - Linsenmair, Eduard K. T1 - Bee pollination increases yield quantity and quality of cash crops in Burkina Faso, West Africa JF - Scientific Reports N2 - Mutualistic biotic interactions as among flowering plants and their animal pollinators are a key component of biodiversity. Pollination, especially by insects, is a key element in ecosystem functioning, and hence constitutes an ecosystem service of global importance. Not only sexual reproduction of plants is ensured, but also yields are stabilized and genetic variability of crops is maintained, counteracting inbreeding depression and facilitating system resilience. While experiencing rapid environmental change, there is an increased demand for food and income security, especially in sub-Saharan communities, which are highly dependent on small scale agriculture. By combining exclusion experiments, pollinator surveys and field manipulations, this study for the first time quantifies the contribution of bee pollinators to smallholders’ production of the major cash crops, cotton and sesame, in Burkina Faso. Pollination by honeybees and wild bees significantly increased yield quantity and quality on average up to 62%, while exclusion of pollinators caused an average yield gap of 37% in cotton and 59% in sesame. Self-pollination revealed inbreeding depression effects on fruit set and low germination rates in the F1-generation. Our results highlight potential negative consequences of any pollinator decline, provoking risks to agriculture and compromising crop yields in sub-Saharan West Africa. KW - bees KW - pollination KW - Burkina Faso KW - cash crops KW - cotton KW - sesame Y1 - 2017 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-169914 VL - 7 IS - 17691 ER - TY - JOUR A1 - Temme, Sebastian A1 - Friebe, Daniela A1 - Schmidt, Timo A1 - Poschmann, Gereon A1 - Hesse, Julia A1 - Steckel, Bodo A1 - Stühler, Kai A1 - Kunz, Meik A1 - Dandekar, Thomas A1 - Ding, Zhaoping A1 - Akhyari, Payam A1 - Lichtenberg, Artur A1 - Schrader, Jürgen T1 - Genetic profiling and surface proteome analysis of human atrial stromal cells and rat ventricular epicardium-derived cells reveals novel insights into their cardiogenic potential JF - Stem Cell Research N2 - Epicardium-derived cells (EPDC) and atrial stromal cells (ASC) display cardio-regenerative potential, but the molecular details are still unexplored. Signals which induce activation, migration and differentiation of these cells are largely unknown. Here we have isolated rat ventricular EPDC and rat/human ASC and performed genetic and proteomic profiling. EPDC and ASC expressed epicardial/mesenchymal markers (WT-1, Tbx18, CD73,CD90, CD44, CD105), cardiac markers (Gata4, Tbx5, troponin T) and also contained phosphocreatine. We used cell surface biotinylation to isolate plasma membrane proteins of rEPDC and hASC, Nano-liquid chromatography with subsequent mass spectrometry and bioinformatics analysis identified 396 rat and 239 human plasma membrane proteins with 149 overlapping proteins. Functional GO-term analysis revealed several significantly enriched categories related to extracellular matrix (ECM), cell migration/differentiation, immunology or angiogenesis. We identified receptors for ephrin and growth factors (IGF, PDGF, EGF, anthrax toxin) known to be involved in cardiac repair and regeneration. Functional category enrichment identified clusters around integrins, PI3K/Akt-signaling and various cardiomyopathies. Our study indicates that EPDC and ASC have a similar molecular phenotype related to cardiac healing/regeneration. The cell surface proteome repository will help to further unravel the molecular details of their cardio-regenerative potential and their role in cardiac diseases. KW - Biology KW - Epicardium-derived cells KW - Human atrial stromal cells KW - Cell surface proteomics Y1 - 2017 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-172716 VL - 25 ER -