@article{KunzGoetzSaueretal.2019,
  author    = {Kunz, Tobias C. and G{\"o}tz, Ralph and Sauer, Markus and Rudel, Thomas},
  title     = {Detection of chlamydia developmental forms and secreted effectors by expansion microscopy},
  series = {Frontiers in Cellular and Infection Microbiology},
  volume    = {9},
  journal   = {Frontiers in Cellular and Infection Microbiology},
  number    = {276},
  issn      = {2235-2988},
  doi       = {10.3389/fcimb.2019.00276},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-195716},
  year      = {2019},
  abstract  = {Expansion microscopy (ExM) is a novel tool to improve the resolution of fluorescence-based microscopy that has not yet been used to visualize intracellular pathogens. Here we show the expansion of the intracellular pathogen Chlamydia trachomatis, enabling to differentiate its two distinct forms, catabolic active reticulate bodies (RB) and infectious elementary bodies (EB), on a conventional confocal microscope. We show that ExM enables the possibility to precisely locate chlamydial effector proteins, such as CPAF or Cdu1, within and outside of the chlamydial inclusion. Thus, we claim that ExM offers the possibility to address a broad range of questions and may be useful for further research on various intracellular pathogens.},
  language  = {en}
}
@phdthesis{Yu2019,
  author    = {Yu, Sung-Huan},
  title     = {Development and application of computational tools for RNA-Seq based transcriptome annotations},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-176468},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2019},
  abstract  = {In order to understand the regulation of gene expression in organisms, precise genome annotation is essential. In recent years, RNA-Seq has become a potent method for generating and improving genome annotations. However, this Approach is time consuming and often inconsistently performed when done manually. In particular, the discovery of non-coding RNAs benefits strongly from the application of RNA-Seq data but requires significant amounts of expert knowledge and is labor-intensive. As a part of my doctoral study, I developed a modular tool called ANNOgesic that can detect numerous transcribed genomic features, including non-coding RNAs, based on RNA-Seq data in a precise and automatic fashion with a focus on bacterial and achaeal species. The software performs numerous analyses and generates several visualizations. It can generate annotations of high-Resolution that are hard to produce using traditional annotation tools that are based only on genome sequences. ANNOgesic can detect numerous novel genomic Features like UTR-derived small non-coding RNAs for which no other tool has been developed before. ANNOgesic is available under an open source license (ISCL) at https://github.com/Sung-Huan/ANNOgesic. My doctoral work not only includes the development of ANNOgesic but also its application to annotate the transcriptome of Staphylococcus aureus HG003 - a strain which has been a insightful model in infection biology. Despite its potential as a model, a complete genome sequence and annotations have been lacking for HG003. In order to fill this gap, the annotations of this strain, including sRNAs and their functions, were generated using ANNOgesic by analyzing differential RNA-Seq data from 14 different samples (two media conditions with seven time points), as well as RNA-Seq data generated after transcript fragmentation. ANNOgesic was also applied to annotate several bacterial and archaeal genomes, and as part of this its high performance was demonstrated. In summary, ANNOgesic is a powerful computational tool for RNA-Seq based annotations and has been successfully applied to several species.},
  subject      = {Genom},
  language  = {en}
}
@phdthesis{Kress2019,
  author    = {Kreß, Sebastian},
  title     = {Development and proof of concept of a biological vascularized cell-based drug delivery system},
  doi       = {10.25972/OPUS-17865},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-178650},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2019},
  abstract  = {A major therapeutic challenge is the increasing incidence of chronic disorders. The persistent impairment or loss of tissue function requires constitutive on-demand drug availability optimally achieved by a drug delivery system ideally directly connected to the blood circulation of the patient. However, despite the efforts and achievements in cell-based therapies and the generation of complex and customized cell-specific microenvironments, the generation of functional tissue is still unaccomplished. This study demonstrates the capability to generate a vascularized platform technology to potentially overcome the supply restraints for graft development and clinical application with immediate anastomosis to the blood circulation. The ability to decellularize segments of the rat intestine while preserving the ECM for subsequent reendothelialization was proven. The reestablishment of a functional arteriovenous perfusion circuit enabled the supply of co-cultured cells capable to replace the function of damaged tissue or to serve as a drug delivery system. During in vitro studies, the applicability of the developed miniaturized biological vascularized scaffold (mBioVaSc-TERM®) was demonstrated. While indicating promising results in short term in vivo studies, long term implantations revealed current limitations for the translation into clinical application. The gained insights will impact further improvements of quality and performance of this promising platform technology for future regenerative therapies.},
  subject      = {Vaskularisation},
  language  = {en}
}
@phdthesis{Ruecker2019,
  author    = {R{\"u}cker, Christoph},
  title     = {Development of a prevascularized bone implant},
  doi       = {10.25972/OPUS-17886},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-178869},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2019},
  abstract  = {The skeletal system forms the mechanical structure of the body and consists of bone, which is hard connective tissue. The tasks the skeleton and bones take over are of mechanical, metabolic and synthetic nature. Lastly, bones enable the production of blood cells by housing the bone marrow. Bone has a scarless self-healing capacity to a certain degree. Injuries exceeding this capacity caused by trauma, surgical removal of infected or tumoral bone or as a result from treatment-related osteonecrosis, will not heal. Critical size bone defects that will not heal by themselves are still object of comprehensive clinical investigation. The conventional treatments often result in therapies including burdening methods as for example the harvesting of autologous bone material. The aim of this thesis was the creation of a prevascularized bone implant employing minimally invasive methods in order to minimize inconvenience for patients and surgical site morbidity. The basis for the implant was a decellularized, naturally derived vascular scaffold (BioVaSc-TERM®) providing functional vessel structures after reseeding with autologous endothelial cells. The bone compartment was built by the combination of the aforementioned scaffold with synthetic β-tricalcium phosphate. In vitro culture for tissue maturation was performed using bioreactor technology before the testing of the regenerative potential of the implant in large animal experiments in sheep. A tibia defect was treated without the anastomosis of the implant's innate vasculature to the host's circulatory system and in a second study, with anastomosis of the vessel system in a mandibular defect. While the non-anastomosed implant revealed a mostly osteoconductive effect, the implants that were anastomosed achieved formation of bony islands evenly distributed over the defect. In order to prepare preconditions for a rapid approval of an implant making use of this vascularization strategy, the manufacturing of the BioVaSc-TERM® as vascularizing scaffold was adjusted to GMP requirements.},
  subject      = {Tissue Engineering},
  language  = {en}
}
@phdthesis{Hell2019,
  author    = {Hell, Dennis},
  title     = {Development of self-adjusting cytokine neutralizer cells as a closed-loop delivery system of anti-inflammatory biologicals},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-175381},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2019},
  abstract  = {The current treatment strategies for diseases are assessed on the basis of diagnosed phenotypic changes due to an accumulation of asymptomatic events in physiological processes. Since a diagnosis can only be established at advanced stages of the disease, mainly due to insufficient early detection possibilities of physiological disorders, doctors are forced to treat diseases rather than prevent them. Therefore, it is desirable to link future therapeutic interventions to the early detection of physiological changes. So-called sensor-effector systems are designed to recognise disease-specific biomarkers and coordinate the production and delivery of therapeutic factors in an autonomous and automated manner. Such approaches and their development are being researched and promoted by the discipline of synthetic biology, among others. Against this background, this paper focuses on the in vitro design of cytokine-neutralizing sensor-effector cells designed for the potential treatment of recurrent autoimmune diseases, especially rheumatoid arthritis. The precise control of inducible gene expression was successfully generated in human cells. At first, a NF-κB-dependent promoter was developed, based on HIV-1 derived DNA-binding motives. The activation of this triggerable promoter was investigated using several inducers including the physiologically important NF-κB inducers tumor necrosis factor alpha (TNFα) and interleukin 1 beta (IL-1β). The activation strength of the NF-κB-triggered promoter was doubled by integrating a non-coding RNA. The latter combined expressed RNA structures, which mimic DNA by double stranded RNAs and have been demonstrated to bind to p50 or p65 by previous publications. The sensitivity was investigated for TNFα and IL-1β. The detection limit and the EC50 values were in in the lower picomolar range. Besides the sensitivity, the reversibility and dynamic of the inducible system were characterized. Hereby a close correlation between pulse times and expression profile was shown. The optimized NF-κB-dependent promoter was then coupled to established TNFα- and IL-1-blocking biologicals to develop sensor-effector systems with anti-inflammatory activity, and thus potential use against autoimmune diseases such as rheumatoid arthritis. The biologicals were differentiated between ligand-blocking and receptor-blocking biologicals and different variants were selected: Adalimumab, etanercept and anakinra. The non-coding RNA improved again the activation strength of NF-κB-dependent expressed biologicals, indicating its universal benefit. Furthermore, it was shown that the TNFα-induced expression of NF-κB-regulated TNFα-blocking biologics led to an extracellular negative feedback loop. Interestingly, the integration of the non-coding RNA and this negative feedback loop has increased the dynamics and reversibility of the NF-κB-regulated gene expression. The controllability of drug release can also be extended by the use of inhibitors of classical NF-κB signalling such as TPCA-1. The efficacy of the expressed biologicals was detected through neutralization of the cytokines using different experiments. For future in vivo trials, first alginate encapsulations of the cells were performed. Furthermore, the activation of NF-κB-dependent promoter was demonstrated using co-cultures with human plasma samples or using synovial liquids. With this generated sensor-effector system we have developed self-adjusting cytokine neutralizer cells as a closed-loop delivery system for anit-inflammatory biologics.},
  subject      = {Biologika},
  language  = {en}
}
@phdthesis{Sauer2019,
  author    = {Sauer, Markus},
  title     = {DHX36 function in RNA G-quadruplex-mediated posttranscriptional gene regulation},
  doi       = {10.25972/OPUS-18395},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-183954},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2019},
  abstract  = {The expression of genetic information into proteins is a key aspect of life. The efficient and exact regulation of this process is essential for the cell to produce the correct amounts of these effector molecules to a given situation. For this purpose, eukaryotic cells have developed many different levels of transcriptional and posttranscriptional gene regulation. These mechanisms themselves heavily rely on interactions of proteins with associated nucleic acids. In the case of posttranscriptional gene regulation an orchestrated interplay between RNA-binding proteins, messenger RNAs (mRNA), and non-coding RNAs is compulsory to achieve this important function. A pivotal factor hereby are RNA secondary structures. One of the most stable and diverse representatives is the G-quadruplex structure (G4) implicated in many cellular mechanisms, such as mRNA processing and translation. In protein biosynthesis, G4s often act as obstacles but can also assist in this process. However, their presence has to be tightly regulated, a task which is often fulfilled by helicases. One of the best characterized G4-resolving factors is the DEAH-box protein DHX36. The in vitro function of this helicase is extensively described and individual reports aimed to address diverse cellular functions as well. Nevertheless, a comprehensive and systems-wide study on the function of this specific helicase was missing, so far. The here-presented doctoral thesis provides a detailed view on the global cellular function of DHX36. The binding sites of this helicase were defined in a transcriptome-wide manner, a consensus binding motif was deviated, and RNA targets as well as the effect this helicase exerts on them were examined. In human embryonic kidney cells, DHX36 is a mainly cytoplasmic protein preferentially binding to G-rich and G4-forming sequence motifs on more than 4,500 mRNAs. Loss of DHX36 leads to increased target mRNA levels whereas ribosome occupancy on and protein output of these transcripts are reduced. Furthermore, DHX36 knockout leads to higher RNA G4 levels and concomitant stress reactions in the cell. I hypothesize that, upon loss of this helicase, translationally-incompetent structured DHX36 target mRNAs, prone to localize in stress granules, accumulate in the cell. The cell reacts with basal stress to avoid cytotoxic effects produced by these mis-regulated and structured transcripts.},
  subject      = {RNS},
  language  = {en}
}
@article{SauerJuranekMarksetal.2019,
  author    = {Sauer, Markus and Juranek, Stefan A. and Marks, James and De Magis, Alessio and Kazemier, Hinke G and Hilbig, Daniel and Benhalevy, Daniel and Wang, Xiantao and Hafner, Markus and Paeschke, Katrin},
  title     = {DHX36 prevents the accumulation of translationally inactive mRNAs with G4-structures in untranslated regions},
  series = {Nature Communications},
  volume    = {10},
  journal   = {Nature Communications},
  number    = {2421},
  doi       = {10.1038/s41467-019-10432-5},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-227486},
  pages     = {1-15},
  year      = {2019},
  abstract  = {Translation efficiency can be affected by mRNA stability and secondary structures, including G-quadruplex structures (G4s). The highly conserved DEAH-box helicase DHX36/RHAU resolves G4s on DNA and RNA in vitro, however a systems-wide analysis of DHX36 targets and function is lacking. We map globally DHX36 binding to RNA in human cell lines and find it preferentially interacting with G-rich and G4-forming sequences on more than 4500 mRNAs. While DHX36 knockout (KO) results in a significant increase in target mRNA abundance, ribosome occupancy and protein output from these targets decrease, suggesting that they were rendered translationally incompetent. Considering that DHX36 targets, harboring G4s, preferentially localize in stress granules, and that DHX36 KO results in increased SG formation and protein kinase R (PKR/EIF2AK2) phosphorylation, we speculate that DHX36 is involved in resolution of rG4 induced cellular stress.},
  language  = {en}
}
@phdthesis{Fuellsack2019,
  author    = {F{\"u}llsack, Simone Alexandra},
  title     = {Die Bedeutung von Todesdom{\"a}ne Adapterproteinen f{\"u}r die Signaltransduktion des TNFR1 und der TRAIL Todesrezeptoren},
  doi       = {10.25972/OPUS-18451},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-184518},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2019},
  abstract  = {Die NFκB-Signalwege, Apoptose und Nekroptose sind essentielle Prozesse in der Immunantwort. Außerdem sind diese Signalwege Teil der Regulation von Zelldifferenzierung, -proliferation, -tod und Entz{\"u}ndungsreaktionen. Dabei wird zuerst der Rezeptor (TNFR1 oder TRAILR 1/2) aktiviert, die rekrutierten DD-Adapterproteine TRADD, FADD und RIPK1 leiten dann die entsprechende Signalkaskade weiter und bestimmen durch ihre Zusammenwirkung, ob der NFκB-Signalweg, Apoptose oder Nekroptose induziert wird. TNFR1 und TRAILR 1/2 ben{\"o}tigen die DD-Adapterproteine TRADD, FADD und RIPK1 f{\"u}r die Zelltodinduktion, deren konkrete Bedeutung in Bezug auf Rezeptor-Spezifit{\"a}t, Zusammenwirken und Relevanz allerdings noch unklar ist. Um das Zusammenspiel dieser Proteine besser zu verstehen, wurden in dieser Arbeit Nekroptose-kompetente RIPK3-exprimierende HeLa-Zellen verwendet, bei denen die DD-Adapterproteine FADD, TRADD und RIPK1 einzeln oder in Kombination von zweien ausgeknockt wurden. Es stellte sich heraus, dass RIPK1 essentiell f{\"u}r die TNFR1- und TRAILR 1/2-vermittelte Nekroptose-Induktion ist, doch RIPK1 alleine, d.h. ohne FADD- oder TRADD-Mitbeteiligung, nur bei der TNFR1-Nekroptose-Induktion ausreicht. Wiederum inhibiert TRADD die TNFR1- und TRAILR 1/2-induzierte Nekroptose. RIPK1 und TRADD sind aber unverzichtbar f{\"u}r die NFκB-Aktivierung durch TNFR1 oder TRAILR 1/2 und spielen eine wichtige Rolle bei TNFR1-induzierter Apoptose. Andererseits ist FADD alleine ausreichend f{\"u}r die TRAILR 1/2-bezogene Caspase-8 Aktivierung. Zudem ist FADD notwendig f{\"u}r die TRAIL-induzierte NFκB-Signalaktivierung. In Abwesenheit von FADD und TRADD vermittelt RIPK1 die TNF-induzierte Caspase-8 Aktivierung. FADD wird f{\"u}r die TRAIL-induzierte Nekroptose ben{\"o}tigt, aber gegenl{\"a}ufig wirkt die TNF-induzierte Nektroptose in einer Caspase-8 abh{\"a}ngigen und unabh{\"a}ngigen Weise. Zudem sensitiviert TWEAK die TNF- und TRAIL-induzierte Nekroptose. Zusammenfassend wurde in dieser Arbeit die Auswirkung von TNFR1 und TRAILR 1/2 auf die Aktivierung der unterschiedlichen Signalkaskaden untersucht. Des Weiteren wurde gezeigt, in welcher Weise sich das Zusammenspiel von TRADD, FADD und RIPK1 auf die Induktion von NFκB, Apoptose und Nekroptose auswirkt.},
  subject      = {Signaltransduktion},
  language  = {de}
}
@phdthesis{Sauer2019,
  author    = {Sauer, Mark},
  title     = {Die microRNA-26 Familie kontrolliert {\"u}ber den REST-Komplex ein f{\"u}r die Neurogenese essentielles regulatorisches RNA Netzwerk},
  doi       = {10.25972/OPUS-18400},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-184008},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2019},
  abstract  = {In einem sich entwickelnden multizellul{\"a}ren Organismus ist die r{\"a}umlich-zeitliche Regulation der Genexpression von entscheidender Bedeutung f{\"u}r die Bildung, Identit{\"a}t und Funktion von Zellen. Der REST (repressor element silencing transcription factor) Komplex spielt bei der neuronalen Differenzierung und bei der Aufrechterhaltung des neuronalen Status eine essentielle Rolle, indem er in nicht neuronalen Zellen und neuralen Vorl{\"a}ufern die Expression neuronaler Gene unterdr{\"u}ckt, in deren Promotorregion eine RE1 (repressor element 1) Erkennungssequenz vorhanden ist. W{\"a}hrend der neuronalen Differenzierung wird der REST-Komplex schrittweise inaktiviert, was zur Einleitung eines neuronalen Genexpression-Programms f{\"u}hrt. Es wird daher angenommen, dass die Inhibierung des REST-Komplexes ein essentieller Vorgang der Neurogenese ist. Wichtige Bestandteile f{\"u}r die transkriptionell repressive Funktion des REST-Komplexes sind kleine Phosphatasen (CTDSP = C-terminal domain small phosphatases), welche die Polymerase-II-Aktivit{\"a}t an Zielgenen inhibieren. Im Zebrafisch wurde gezeigt, dass ctdsp2 durch die miR-26b negativ reguliert wird. Alle miR-26 Familienmitglieder sind in Vertebraten evolution{\"a}r konserviert und in Introns von Ctdsp Genen kodiert. Sie sind in der Lage, die Expression ihres eigenen Wirtsgens mittels einer autoregulatorischen R{\"u}ckkopplungsschleife zu regulieren. Im Rahmen dieser Dissertation wurde als Modellsystem f{\"u}r die Neurogenese ein neurales Differenzierungssystem, welches auf murinen, embryonalen Stammzellen (ESCs) aufbaut, eingesetzt. Zur funktionellen Analyse der miR-26 Familie wurden mit Hilfe der CRISPR/Cas9-Methode verschiedene miR-26 Knockout (KO) ESC-Linien hergestellt. Hierbei wurden die Sequenzen der einzelnen Familienmitglieder und der gesamten miR-26 Familie im Genom von Wildtyp (Wt) ESCs deletiert. Diese miR-26-defizienten ESCLinien behielten ihre Pluripotenz und zeigten keinen Ph{\"a}notyp hinsichtlich Proliferation, Morphologie und Identit{\"a}t der Zellen w{\"a}hrend der Differenzierung bis zum neuralen Vorl{\"a}uferzellstadium (NPCs, engl.: neural progenitor cells). Jedoch f{\"u}hrte die Deletion sowohl der gesamten miR-26 Familie als auch einzelner Mitglieder bei der terminalen Differenzierung zu einem spezifischen Entwicklungsstillstand im NPC Stadium und infolgedessen zu einer starken Reduktion der Anzahl von Neuronen und Astroglia. Die Transkriptom-Analyse der differenzierten miR-26-KO ESCs mittels RNA-Seq zeigte, dass die Expression von Genen die mit der Neurogenese und der neuronalen Differenzierung, aber auch der Gliogenese assoziert sind, herunterreguliert war. Die Abwesenheit der miR-26 Familie f{\"u}hrte außerdem zu einer selektiven Reduzierung bestimmter miRNAs (REST-miRs), die einerseits die Expression von REST-Komplex Komponenten unterdr{\"u}cken k{\"o}nnen, und andererseits selbst unter dessen transkriptioneller Kontrolle stehen. Zu diesem REST-miR Netzwerk geh{\"o}ren einige miRNAs (miR-9, miR-124, miR-132 und miR-218), die wichtige Funktionen bei verschiedenen Prozessen der neuronalen Entwicklung haben. Weiterhin f{\"u}hrte der miR-26-KO zu einer Derepression der Proteinlevel von REST und CTDSP2 w{\"a}hrend der terminalen Differenzierung. Funktionelle Analysen mit miRNA mimics zeigten, dass erh{\"o}hte miR-26 Level zu einer Hochregulation von REST-miRs f{\"u}hren. Weitere Experimente, die darauf zielten, die Hierarchie des REST-miR Netwerks aufzukl{\"a}ren zeigten, dass die miR-26 Familie stromaufw{\"a}rts die REST-miR Expression reguliert. Zusammengefasst weisen die in dieser Arbeit gezeigten Daten darauf hin, dass die miR-26 Familie als Initiator der schrittweisen Inaktivierung des REST-Komplexes eine zentrale Rolle bei der Differenzierung von neuralen Vorl{\"a}uferzellen zu postmitotischen Neuronen spielt.},
  language  = {de}
}
@phdthesis{Glenz2019,
  author    = {Glenz, Ren{\´e}},
  title     = {Die Rolle von Sphingobasen in der pflanzlichen Zelltodreaktion},
  doi       = {10.25972/OPUS-18790},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-187903},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2019},
  abstract  = {Sphingobasen bilden das Grundger{\"u}st und die Ausgangsbausteine f{\"u}r die Biosynthese von Sphingolipiden. W{\"a}hrend komplexere Sphingolipide einen wichtigen Bestandteil von eukaryotischen Membranen bilden, sind Sphingobasen, die auch als long-chain bases (LCBs) bezeichnet werden, als Signalmolek{\"u}le bei zellul{\"a}ren Prozessen in Eukaryoten bekannt. Im tierischen System wurden antagonistische Effekte von nicht-phosphorylierten Sphingobasen (LCBs) und ihren phosphorylierten Gegenst{\"u}cken (LCB-Ps) bei vielen Zellfunktionen, insbesondere der Apoptose, nachgewiesen und die zugrundeliegenden Signalwege umfassend aufgekl{\"a}rt. Im Gegensatz dazu sind in Pflanzen weniger Belege f{\"u}r einen antagonistischen Effekt und m{\"o}gliche Signaltransduktionsmechanismen bekannt. F{\"u}r eine regulatorische Funktion von Sphingobasen beim programmierten Zelltod (PCD) in Pflanzen existieren mehrere Hinweise: (I) Mutationen in Genen, die den Sphingobasen-Metabolismus betreffen, f{\"u}hren zum Teil zu spontanem PCD und ver{\"a}nderten Zelltodreaktionen. (II) Die Gehalte von LCBs sind bei verschiedenen Zelltod-ausl{\"o}senden Bedingungen erh{\"o}ht. (III) Nekrotrophe Pathogene produzieren Toxine, wie Fumonisin B1 (FB1), die mit dem Sphingolipid-Metabolismus der Wirtspflanze interferieren, was wiederum die Ursache f{\"u}r den dadurch ausgel{\"o}sten PCD darstellt. (IV) Die Behandlung von Pflanzen mit LCBs, nicht aber mit LCB-Ps, f{\"u}hrt zu Zelltod. In dieser Arbeit wurde die Rolle von Sphingobasen in der pflanzlichen Zelltodreaktion untersucht, wobei der Fokus auf der {\"U}berpr{\"u}fung der Hypothese eines antagonistischen, Zelltod-hemmenden Effekts von LCB-Ps lag. Anhand von Leitf{\"a}higkeit-basierten Messungen bei Blattscheiben von Arabidopsis thaliana wurde der durch Behandlung mit LCBs und separater oder gleichzeitiger Zugabe von LCB-Ps auftretende Zelltod bestimmt. Mit dieser Art der Quantifizierung wurde der an anderer Stelle publizierte inhibierende Effekt von LCB-Ps auf den LCB-induzierten Zelltod nachgewiesen. Durch parallele Messung der Spiegel der applizierten Sphingobasen im Gewebe mittels HPLC-MS/MS konnte dieser Antagonismus allerdings auf eine reduzierte Aufnahme der LCB bei Anwesenheit der LCB-P zur{\"u}ckgef{\"u}hrt werden, was auch durch eine zeitlich getrennte Behandlung mit den Sphingobasen best{\"a}tigt wurde. Dar{\"u}ber hinaus wurde der Einfluss einer exogenen Zugabe von LCBs und LCB-Ps auf den durch Pseudomonas syringae induzierten Zelltod von A. thaliana untersucht. F{\"u}r LCB-Ps wurde dabei kein Zelltod-hemmender Effekt beobachtet, ebenso wenig wie ein Einfluss von LCB-Ps auf den PCD, der durch rekombinante Expression und Erkennung eines Avirulenzproteins in Arabidopsis ausgel{\"o}st wurde. F{\"u}r LCBs wurde dagegen eine direkte antibakterielle Wirkung im Zuge der Experimente mit P. syringae gezeigt, die den in einer anderen Publikation beschriebenen inhibierenden Effekt von LCBs auf den Pathogen-induzierten Zelltod in Pflanzen relativiert. In weiteren Ans{\"a}tzen wurden Arabidopsis-Mutanten von Enzymen des Sphingobasen-Metabolismus (LCB-Kinase, LCB-P-Phosphatase, LCB-P-Lyase) hinsichtlich ver{\"a}nderter in-situ-Spiegel von LCBs/LCB-Ps funktionell charakterisiert. Der Ph{\"a}notyp der Mutanten gegen{\"u}ber Fumonisin B1 wurde zum einen anhand eines Wachstumstests mit Keimlingen und zum anderen anhand des Zelltods von Blattscheiben bestimmt und die dabei akkumulierenden Sphingobasen quantifiziert. Die Sensitivit{\"a}t der verschiedenen Linien gegen{\"u}ber FB1 korrelierte eng mit den Spiegeln der LCBs, w{\"a}hrend hohe Gehalte von LCB-Ps alleine nicht in der Lage waren den Zelltod zu verringern. In einzelnen Mutanten konnte sogar eine Korrelation von stark erh{\"o}hten LCB-P-Spiegeln mit einer besonderen Sensitivit{\"a}t gegen{\"u}ber FB1 festgestellt werden. Die Ergebnisse der vorliegenden Arbeit stellen die Hypothese eines antagonistischen Effekts von phosphorylierten Sphingobasen beim pflanzlichen Zelltod in Frage. Stattdessen konnte in detaillierten Analysen der Sphingobasen-Spiegel die positive Korrelation der Gehalte von LCBs mit dem Zelltod gezeigt werden. Die hier durchgef{\"u}hrten Experimente liefern damit nicht nur weitere Belege f{\"u}r die Zelltod-f{\"o}rdernde Wirkung von nicht-phosphorylierten Sphingobasen, sondern tragen zum Verst{\"a}ndnis der Sphingobasen-Hom{\"o}ostase und des Sphingobasen-induzierten PCD in Pflanzen bei.},
  subject      = {Sphingolipide},
  language  = {de}
}
@article{HarnošCanizalJuraseketal.2019,
  author    = {Harnoš, Jakub and Ca{\~n}izal, Maria Consuelo Alonso and Jur{\´a}sek, Miroslav and Kumar, Jitender and Holler, Cornelia and Schambony, Alexandra and Han{\´a}kov{\´a}, Kateřina and Bernat{\´i}k, Ondřej and Zdr{\´a}hal, Zbyn{\^e}k and G{\"o}m{\"o}ryov{\´a}, Krist{\´i}na and Gybeľ, Tom{\´a}š and Radaszkiewicz, Tomasz Witold and Kravec, Marek and Trant{\´i}rek, Luk{\´a}š and Ryneš, Jan and Dave, Zankruti and Fern{\´a}ndez-Llamazares, Ana Iris and V{\´a}cha, Robert and Tripsianes, Konstantinos and Hoffmann, Carsten and Bryja, V{\´i}tězslav},
  title     = {Dishevelled-3 conformation dynamics analyzed by FRET-based biosensors reveals a key role of casein kinase 1},
  series = {Nature Communications},
  volume    = {10},
  journal   = {Nature Communications},
  doi       = {10.1038/s41467-019-09651-7},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-227837},
  year      = {2019},
  abstract  = {Dishevelled (DVL) is the key component of the Wnt signaling pathway. Currently, DVL conformational dynamics under native conditions is unknown. To overcome this limitation, we develop the Fluorescein Arsenical Hairpin Binder- (FlAsH-) based FRET in vivo approach to study DVL conformation in living cells. Using this single-cell FRET approach, we demonstrate that (i) Wnt ligands induce open DVL conformation, (ii) DVL variants that are predominantly open, show more even subcellular localization and more efficient membrane recruitment by Frizzled (FZD) and (iii) Casein kinase 1 ɛ (CK1ɛ) has a key regulatory function in DVL conformational dynamics. In silico modeling and in vitro biophysical methods explain how CK1ɛ-specific phosphorylation events control DVL conformations via modulation of the PDZ domain and its interaction with DVL C-terminus. In summary, our study describes an experimental tool for DVL conformational sampling in living cells and elucidates the essential regulatory role of CK1ɛ in DVL conformational dynamics.},
  language  = {en}
}
@phdthesis{SoaresMachado2019,
  author    = {Soares Machado, J{\´e}ssica},
  title     = {Dosimetry-based Assessment of Radiation-associated Cancer risk for \(^9\)\(^9\)\(^m\)Tc-MAG3 Scans in Infants and Optimization of Administered Activities for \(^6\)\(^8\)Ga-labelled Peptides in Children and Adolescents},
  doi       = {10.25972/OPUS-19264},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-192640},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2019},
  abstract  = {In 2006, 0.18 Mio pediatric nuclear medicine diagnostic exams were performed worldwide. However, for most of the radiopharmaceuticals used data on biokinetics and, as a consequence on dosimetry, are missing or have not been made publicly available. Therefore, most of the dosimetry assessments presented today for diagnostic agents in children and adolescents rely on the biokinetics data of adults. Even for one of the most common nuclear medicine exams for this patient group, renal scintigraphy with 99mTc-MAG3 for assessing renal function measured data on biokinetics is available only from a study performed on four children of different ages. In particular, renal scans are among the most frequent exams performed on infants and toddlers. Due to the young age, this patient group can be classified as a risk group with a higher probability of developing stochastic radiation effects compared to adults. As there are only limited data on biokinetics and dosimetry in this patient group, the aim of this study is to reassess the dosimetry and the associated radiation risk for a larger number of infants undergoing 99mTc-MAG3 renal scans based on a retrospective analysis of existing patient data. Data were collected retrospectively from 34 patients younger than 20 months with normal (20 patients) and abnormal renal function (14 patients) undergoing 99mTc-MAG3 scans. The patient-specific organ activity was estimated based on a retrospective calibration which was performed based on a set of two 3D-printed infant kidneys (newborns: 8.6 ml; 1-year-old: 23.4 ml) filled with known activities. Both phantoms were scanned at different positions along the anteroposterior axis inside a water phantom, providing depth- and size-dependent attenuation correction factors for planar imaging. Time-activity curves were determined by drawing kidney, bladder, and whole body regions-of-interest for each patient, and subsequently applying the calibration factor for conversion of counts to activity. Patient-specific time-integrated activity coefficients were obtained by integrating the organ-specific time-activity curves. Absorbed and effective dose coefficients for each patient were assessed with OLINDA/EXM for the provided newborn and 1-year-old phantom. Based on absorbed dose values, the radiation risk estimation was performed individually for each of the 34 patients with the National Cancer Institute's Radiation Risk Assessment Tool. The patients' organ-specific mean absorbed dose coefficients for the patients with normal renal function were 0.04±0.03 mGy/MBq for the kidneys and 0.27±0.24 mGy/MBq for the bladder. This resulted in a mean effective dose coefficient of 0.02±0.02 mSv/MBq. Based on the dosimetry results, the evaluation of the excess lifetime risk (ELR) for the development of radiation-induced cancer showed that the group of newborns has an ELR of 16.8 per 100,000 persons, which is higher in comparison with the 1-year-old group with an ELR of 14.7 per 100,000 persons. With regard to the 14 patients with abnormal renal function, the mean values for the organ absorbed dose coefficients for the patients were: 0.40±0.34 mGy/MBq for the kidneys and 0.46±0.37 mGy/MBq for the bladder. The corresponding effective dose coefficients (mSv/MBq) was: 0.05±0.02 mSv/MBq. The mean ELR (per 100,000 persons) for developing cancer from radiation exposure for patients with abnormal renal function was 29.2±18.7 per 100,000 persons. As a result, the radiation-associated stochastic risk increases with the organ doses, taking age- and gender-specific influences into account. Overall, the lifetime radiation risk associated with the 99mTc-MAG3 scans is very low in comparison to the general population risk for developing cancer. Furthermore, due to the increasing demand for PET-scans in children and adolescents with 68Ga-labelled peptides, in this work published data sets for those compounds were analyzed to derive recommendations for the administered activities in children and adolescents. The recommendation for the activities to be administered were based on the weight-independent effective dose model, proposed by the EANM Pediatric Dosage Card for application in pediatric nuclear medicine. The aim was to derive recommendations on administered activities for obtaining age-independent effective doses. Consequently, the corresponding weight-dependent effective dose coefficients were rescaled according to the formalism of the EANM dosage card, to determine the radiopharmaceutical class of 68Ga-labeled peptides ("multiples"), and to calculate the baseline activities based on the biokinetics of these compounds and an upper limit of the administered activity of 185 MBq for an adult. Analogous to 18F-fluoride, a minimum activity of 14 MBq is recommended. As a result, for those pediatric nuclear medicine applications involving 68Ga-labeled peptides, new values for the EANM dosage card were proposed and implemented based on the results derived in this work. Overall, despite the low additional radiation-related cancer risk, all efforts should be undertaken to optimize administered activities in children and adolescents for obtaining sufficient diagnostic information with minimal associated radiation risk.},
  subject      = {Biokinetics},
  language  = {en}
}
@article{PaulsHamaratTrufasuetal.2019,
  author    = {Pauls, Dennis and Hamarat, Yasmin and Trufasu, Luisa and Schendzielorz, Tim M. and Gramlich, Gertrud and Kahnt, J{\"o}rg and Vanselow, Jens and Schlosser, Andreas and Wegener, Christian},
  title     = {Drosophila carboxypeptidase D (SILVER) is a key enzyme in neuropeptide processing required to maintain locomotor activity levels and survival rate},
  series = {European Journal of Neuroscience},
  volume    = {50},
  journal   = {European Journal of Neuroscience},
  number    = {9},
  doi       = {10.1111/ejn.14516},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-204863},
  pages     = {3502-3519},
  year      = {2019},
  abstract  = {Neuropeptides are processed from larger preproproteins by a dedicated set of enzymes. The molecular and biochemical mechanisms underlying preproprotein processing and the functional importance of processing enzymes are well-characterised in mammals, but little studied outside this group. In contrast to mammals, Drosophila melanogaster lacks a gene for carboxypeptidase E (CPE ), a key enzyme for mammalian peptide processing. By combining peptidomics and neurogenetics, we addressed the role of carboxypeptidase D (dCPD ) in global neuropeptide processing and selected peptide-regulated behaviours in Drosophila . We found that a deficiency in dCPD results in C-terminally extended peptides across the peptidome, suggesting that dCPD took over CPE function in the fruit fly. dCPD is widely expressed throughout the nervous system, including peptidergic neurons in the mushroom body and neuroendocrine cells expressing adipokinetic hormone. Conditional hypomorphic mutation in the dCPD -encoding gene silver in the larva causes lethality, and leads to deficits in starvation-induced hyperactivity and appetitive gustatory preference, as well as to reduced viability and activity levels in adults. A phylogenomic analysis suggests that loss of CPE is not common to insects, but only occurred in Hymenoptera and Diptera. Our results show that dCPD is a key enzyme for neuropeptide processing and peptide-regulated behaviour in Drosophila . dCPD thus appears as a suitable target to genetically shut down total neuropeptide production in peptidergic neurons. The persistent occurrence of CPD in insect genomes may point to important further CPD functions beyond neuropeptide processing which cannot be fulfilled by CPE.},
  language  = {en}
}
@article{LiedtkeOrthMeissleretal.2019,
  author    = {Liedtke, Daniel and Orth, Melanie and Meissler, Michelle and Geuer, Sinje and Knaup, Sabine and K{\"o}blitz, Isabell and Klopocki, Eva},
  title     = {ECM alterations in fndc3a (fibronectin domain containing protein 3A) deficient zebrafish cause temporal fin development and regeneration defects},
  series = {Scientific Reports},
  volume    = {9},
  journal   = {Scientific Reports},
  doi       = {10.1038/s41598-019-50055-w},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-202141},
  pages     = {13383},
  year      = {2019},
  abstract  = {Fin development and regeneration are complex biological processes that are highly relevant in teleost fish. They share genetic factors, signaling pathways and cellular properties to coordinate formation of regularly shaped extremities. Especially correct tissue structure defined by extracellular matrix (ECM) formation is essential. Gene expression and protein localization studies demonstrated expression of fndc3a (fibronectin domain containing protein 3a) in both developing and regenerating caudal fins of zebrafish (Danio rerio). We established a hypomorphic fndc3a mutant line (fndc3a\(^{wue1/wue1}\)) via CRISPR/Cas9, exhibiting phenotypic malformations and changed gene expression patterns during early stages of median fin fold development. These developmental effects are mostly temporary, but result in a fraction of adults with permanent tail fin deformations. In addition, caudal fin regeneration in adult fndc3a\(^{wue1/wue1}\) mutants is hampered by interference with actinotrichia formation and epidermal cell organization. Investigation of the ECM implies that loss of epidermal tissue structure is a common cause for both of the observed defects. Our results thereby provide a molecular link between these developmental processes and foreshadow Fndc3a as a novel temporal regulator of epidermal cell properties during extremity development and regeneration in zebrafish.},
  language  = {en}
}
@article{MolinasGonzalezCastroGonzalezMegiasetal.2019,
  author    = {Molinas-Gonz{\´a}lez, Carlos R. and Castro, Jorge and Gonz{\´a}lez-Meg{\´i}as, Adela and Leverkus, Alexandro B.},
  title     = {Effects of post-fire deadwood management on soil macroarthropod communities},
  series = {Forests},
  volume    = {10},
  journal   = {Forests},
  number    = {11},
  issn      = {1999-4907},
  doi       = {10.3390/f10111046},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-193079},
  year      = {2019},
  abstract  = {Dead wood comprises a vast amount of biological legacies that set the scene for ecological regeneration after wildfires, yet its removal is the most frequent management strategy worldwide. Soil-dwelling organisms are conspicuous, and they provide essential ecosystem functions, but their possible affection by different post-fire management strategies has so far been neglected. We analyzed the abundance, richness, and composition of belowground macroarthropod communities under two contrasting dead-wood management regimes after a large wildfire in the Sierra Nevada Natural and National Park (Southeast Spain). Two plots at different elevation were established, each containing three replicates of two experimental treatments: partial cut, where trees were cut and their branches lopped off and left over the ground, and salvage logging, where all the trees were cut, logs were piled, branches were mechanically masticated, and slash was spread on the ground. Ten years after the application of the treatments, soil cores were extracted from two types of microhabitat created by these treatments: bare-soil (in both treatments) and under-logs (in the partial cut treatment only). Soil macroarthropod assemblages were dominated by Hemiptera and Hymenoptera (mostly ants) and were more abundant and richer in the lowest plot. The differences between dead-wood treatments were most evident at the scale of management interventions: abundance and richness were lowest after salvage logging, even under similar microhabitats (bare-soil). However, there were no significant differences between microhabitat types on abundance and richness within the partial cut treatment. Higher abundance and richness in the partial cut treatment likely resulted from higher resource availability and higher plant diversity after natural regeneration. Our results suggest that belowground macroarthropod communities are sensitive to the manipulation of dead-wood legacies and that management through salvage logging could reduce soil macroarthropod recuperation compared to other treatments with less intense management even a decade after application.},
  language  = {en}
}
@article{KrausBrinkSiegel2019,
  author    = {Kraus, Amelie J. and Brink, Benedikt G. and Siegel, T. Nicolai},
  title     = {Efficient and specific oligo-based depletion of rRNA},
  series = {Scientific Reports},
  volume    = {9},
  journal   = {Scientific Reports},
  doi       = {10.1038/s41598-019-48692-2},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-224829},
  year      = {2019},
  abstract  = {In most organisms, ribosomal RNA (rRNA) contributes to >85\% of total RNA. Thus, to obtain useful information from RNA-sequencing (RNA-seq) analyses at reasonable sequencing depth, typically, mature polyadenylated transcripts are enriched or rRNA molecules are depleted. Targeted depletion of rRNA is particularly useful when studying transcripts lacking a poly(A) tail, such as some non-coding RNAs (ncRNAs), most bacterial RNAs and partially degraded or immature transcripts. While several commercially available kits allow effective rRNA depletion, their efficiency relies on a high degree of sequence homology between oligonucleotide probes and the target RNA. This restricts the use of such kits to a limited number of organisms with conserved rRNA sequences. In this study we describe the use of biotinylated oligos and streptavidin-coated paramagnetic beads for the efficient and specific depletion of trypanosomal rRNA. Our approach reduces the levels of the most abundant rRNA transcripts to less than 5\% with minimal off-target effects. By adjusting the sequence of the oligonucleotide probes, our approach can be used to deplete rRNAs or other abundant transcripts independent of species. Thus, our protocol provides a useful alternative for rRNA removal where enrichment of polyadenylated transcripts is not an option and commercial kits for rRNA are not available.},
  language  = {en}
}
@phdthesis{Wilde2019,
  author    = {Wilde, Sabrina},
  title     = {Einsatz von mechanistischen Biomarkern zur Charakterisierung und Bewertung von \(in\) \(vitro\) Genotoxinen},
  doi       = {10.25972/OPUS-18278},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-182782},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2019},
  abstract  = {Die verf{\"u}gbaren in vitro Genotoxizit{\"a}tstests weisen hinsichtlich ihrer Spezifit{\"a}t und ihres Informationsgehalts zum vorliegenden Wirkmechanismus (Mode of Action, MoA) Einschr{\"a}nkungen auf. Um diese M{\"a}ngel zu {\"u}berwinden, wurden in dieser Arbeit zwei Ziele verfolgt, die zu der Entwicklung und Etablierung neuer in vitro Methoden zur Pr{\"u}fung auf Genotoxizit{\"a}t in der Arzneimittelentwicklung beitragen. 1. Etablierung und Bewertung einer neuen in vitro Genotoxizit{\"a}tsmethode (MultiFlow Methode) Die MultiFlow Methode basiert auf DNA-schadensassoziierten Proteinantworten von γH2AX (DNA-Doppelstrangbr{\"u}che), phosphorylierten H3 (S10) (mitotische Zellen), nukle{\"a}ren Protein p53 (Genotoxizit{\"a}t) und cleaved PARP1 (Apoptose) in TK6-Zellen. Insgesamt wurden 31 Modellsubstanzen mit dem MultiFlow Assay und erg{\"a}nzend mit dem etablierten Mikrokerntest (MicroFlow MNT), auf ihre F{\"a}higkeit verschiedene MoA-Gruppen (Aneugene/Klastogene/Nicht-Genotoxine) zu differenzieren, untersucht. Die Performance der „neuen" gegen{\"u}ber der „alten" Methode f{\"u}hrte zu einer verbesserten Sensitivit{\"a}t von 95\% gegen{\"u}ber 90\%, Spezifit{\"a}t von 90\% gegen{\"u}ber 72\% und einer MoA-Klassifizierungsrate von 85\% gegen{\"u}ber 45\% (Aneugen vs. Klastogen). 2. Identifizierung mechanistischer Biomarker zur Klassifizierung genotoxischer Substanzen Die Analyse 67 ausgew{\"a}hlter DNA-schadensassoziierter Gene in der QuantiGene Plex Methode zeigte, dass mehrere Gene gleichzeitig zur MoA-Klassifizierung beitragen k{\"o}nnen. Die Kombination der h{\"o}chstrangierten Marker BIK, KIF20A, TP53I3, DDB2 und OGG1 erm{\"o}glichte die beste Identifizierungsrate der Modellsubstanzen. Das synergetische Modell kategorisierte 16 von 16 Substanzen korrekt in Aneugene, Klastogene und Nicht-Genotoxine. Unter Verwendung der Leave-One-Out-Kreuzvalidierung wurde das Modell evaluiert und erreichte eine Sensitivit{\"a}t, Spezifit{\"a}t und Pr{\"a}diktivit{\"a}t von 86\%, 83\% und 85\%. Ergebnisse der traditionellen qPCR Methode zeigten, dass Genotoxizit{\"a}t mit TP53I3, Klastogenit{\"a}t mit ATR und RAD17 und oxidativer Stress mit NFE2L2 detektiert werden kann. Durch die Untersuchungen von posttranslationalen Modifikationen unter Verwendung der High-Content-Imaging-Technologie wurden mechanistische Assoziationen f{\"u}r BubR1 (S670) und pH3 (S28) mit Aneugenit{\"a}t, 53BP1 (S1778) und FANCD2 (S1404) mit Klastogenit{\"a}t, p53 (K373) mit Genotoxizit{\"a}t und Nrf2 (S40) mit oxidativem Stress identifiziert. Diese Arbeit zeigt, dass (Geno)toxine unterschiedliche Gen- und Proteinver{\"a}nderungen in TK6-Zellen induzieren, die zur Erfassung mechanistischer Aktivit{\"a}ten und Einteilung (geno)toxischer MoA-Gruppen (Aneugen/Klastogen/ Reaktive Sauerstoffspezies) eingesetzt werden k{\"o}nnen und daher eine bessere Risikobewertung von Wirkstoffkandidaten erm{\"o}glichen.},
  subject      = {Genotoxizit{\"a}t},
  language  = {de}
}
@phdthesis{Anany2019,
  author    = {Anany, Mohamed Ahmed Mohamed Mohamed},
  title     = {Enhancement of Toll-like receptor3 (TLR3)-induced death signaling by TNF-like weak inducer of apoptosis (TWEAK)},
  doi       = {10.25972/OPUS-18975},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-189757},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2019},
  abstract  = {Tumor necrosis factor (TNF)-like weak inducer of apoptosis (TWEAK) is a member of the TNF superfamily (TNFSF) and is as such initially expressed as type II class transmembrane glycoprotein from which a soluble ligand form can be released by proteolytic processing. While the expression of TWEAK has been detected at the mRNA level in various cell lines and cell types, its cell surface expression has so far only been documented for dendritic cells, monocytes and interferon-γ stimulated NK cells. The fibroblast growth factor-inducible-14 (Fn14) is a TRAF2-interacting receptor of the TNF receptor superfamily (TNFRSF) and is the only receptor for TWEAK. The expression of Fn14 is strongly induced in a variety of non-hematopoietic cell types after tissue injury. The TWEAK/Fn14 system induces pleiotropic cellular activities such as induction of proinflammatory genes, stimulation of cellular angiogenesis, proliferation, differentiation, migration and in rare cases induction of apoptosis. On the other side, Toll-like receptor3 (TLR3) is one of DNA- and RNA-sensing pattern recognition receptors (PRRs), plays a crucial role in the first line of defense against virus and invading foreign pathogens and cancer cells. Polyinosinic-polycytidylic acid poly(I:C) is a synthetic analog of dsRNA, binds to TLR3 which acts through the adapter TRIF/TICAM1, leading to cytokine secretion, NF-B activation, IRF3 nuclear translocation, inflammatory response and may also elicit the cell death. TWEAK sensitizes cells for TNFR1-induced apoptosis and necroptosis by limiting the availability of protective TRAF2-cIAP1 and TRAF2-cIAP2 complexes, which interact with the TNFR1-binding proteins TRADD and RIPK1. In accordance with the fact that poly(I:C)-induced signaling also involves these proteins, we found enhanced necroptosis-induction in HaCaT and HeLa-RIPK3 by poly(I:C) in the presence of TWEAK (Figure 24). Analysis of a panel of TRADD, FADD, RIPK1 and caspase-8 knockout cells revealed furthermore similarities and differences in the way how these molecules act in cell death signaling by poly(I:C)/TWEAK and TNF and TRAIL. RIPK1 turned out to be essential for poly(I:C)/TWEAK-induced caspase-8-mediated apoptosis but was dispensable for these responses in TNF and TRAIL signaling. Lack of FADD protein abrogated TRAIL- but not TNF- and poly(I:C)-induced necroptosis. Moreover, we observed that both long and short FLIP rescued HaCaT and HeLa-RIPK3 cells from poly(I:C)-induced apoptosis or necroptosis. To sum up, our results demonstrate that TWEAK, which is produced by interferon stimulated myeloid cells, controls the induction of apoptosis and necroptosis by the TLR3 ligand poly(I:C) and may thus contribute to cancer or anti-viral immunity treatment.},
  subject      = {Immunologe},
  language  = {en}
}
@phdthesis{Lotz2019,
  author    = {Lotz, Christian},
  title     = {Entwicklung eines Augenirritationstests zur Identifikation aller GHS-Kategorien f{\"u}r den Endpunkt Augenreizung},
  doi       = {10.25972/OPUS-17012},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-170126},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2019},
  abstract  = {Die Risikobewertung von Chemikalien ist f{\"u}r die {\"o}ffentliche Gesundheit von entschei-dender Bedeutung, weshalb strenge Testverfahren zu deren toxikologischer Begutach-tung angewandt werden. Die urspr{\"u}nglich tierbasierten Testverfahren werden aufgrund von neuen wissenschaftlichen Erkenntnissen und wegen {\"o}konomischer Ineffizienz sowie ethischer Fragw{\"u}rdigkeit immer mehr durch alternative Methoden ohne Tiermodelle ersetzt. F{\"u}r den toxikologischen Endpunkt der Augenreizung wurden bereits die ersten alternativen Testsysteme auf der Basis von ex vivo- oder in vitro-Modellen entwickelt. Jedoch ist bis dato kein alternatives Testsystem in der Lage, das gesamte Spektrum der verschiedenen Kategorien der Augenreizungen nach dem global harmonisierten System zur Einstufung und Kennzeichnung von Chemikalien (GHS) vorherzusagen und damit den tierbasierten Draize-Augenreizungstest vollends zu ersetzen. Gr{\"u}nde hierf{\"u}r sind fehlende physiologische Merkmale im Modell sowie eine destruktive Analysemethode. Aufgrund dessen wurden in dieser Studie die Hypothesen getestet, ob ein verbessertes In-vitro-Modell oder eine zerst{\"o}rungsfreie, hochsensitive Analysemethode die Vorher-sagekraft des Augenreizungstests verbessern k{\"o}nnen. Daf{\"u}r wurden zun{\"a}chst neue Mo-delle aus humanen Hornhaut- und Hautepithelzellen entwickelt. Die Modelle aus pri-m{\"a}ren cornealen Zellen zeigten eine gewebespezifische Expression der Marker Zytokera-tin 3 und 12 sowie Loricrin. In beiden Modellen konnte durch die Verk{\"u}rzung der Kul-turdauer die Ausbildung einer Hornschicht verhindert werden. Die Modelle wiesen dadurch eine sensiblere Barriere vergleichbar der nativen Cornea auf. Dar{\"u}ber hinaus konnte durch die chemische Quervernetzung mit Polyethylenglykolsuccinimidylglutara-tester ein transparentes, nicht kontrahierendes Stroma-{\"A}quivalent etabliert werden. Der Stroma-Ersatz konnte zur Generierung von Hemi- und Voll-Cornea-{\"A}quivalenten einge-setzt werden und lieferte somit erste Ansatzpunkte f{\"u}r die Rekonstruktion der nativen Hornhaut. Parallel dazu konnte ein zerst{\"o}rungsfreies Analyseverfahren basierend auf der Impe-danzspektroskopie entwickelt werden, das wiederholte Messungen der Gewebeintegri-t{\"a}t zul{\"a}sst. Zur verbesserten Messung der Barriere in dreidimensionalen Modelle wurde hierf{\"u}r ein neuer Parameter, der transepitheliale elektrische Widerstand (TEER) bei der Frequenz von 1000 Hz, der TEER1000 Hz definiert, der eine genauere Aussage {\"u}ber die Integrit{\"a}t der Modelle zul{\"a}sst. Durch die Kombination der entwickelten cornealen Epithelzellmodelle mit der TEER1000 Hz-Messung konnte die Pr{\"a}dikitivit{\"a}t des Augenrei-zungstests auf 78 - 100 \% erh{\"o}ht werden. Von besonderer Bedeutung ist dabei, dass die nicht destruktive Messung des TEER1000 Hz zum ersten Mal erlaubte, die Persistenz von Irritationen durch wiederholte Messungen in einem in vitro-Modell zu erkennen und somit die GHS-Kategorie 1 von GHS-Kategorie 2 zu unterscheiden. Der wissenschaftli-che Gewinn dieser Forschungsarbeit ist ein neues Testverfahren, das alle GHS-Kategorien in einem einzigen in vitro-Test nachweisen und den Draize-Augenreizungstest g{\"a}nzlich ersetzen kann.},
  subject      = {Tissue Engineering},
  language  = {de}
}
@phdthesis{Nelke2019,
  author    = {Nelke, Lena},
  title     = {Establishment and optimization of 3-dimensional mamma carcinoma models for therapy simulation and drug testing},
  doi       = {10.25972/OPUS-17228},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-172280},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2019},
  abstract  = {Breast cancer is the most common cancer among women worldwide and the second most common cause of cancer death in the developed countries. As the current state of the art in first-line drug screenings is highly ineffective, there is an urgent need for novel test systems that allow for reliable predictions of drug sensitivity. In this study, a tissue engineering approach was used to successfully establish and standardize a 3-dimensional (3D) mamma carcinoma test system that was optimized for the testing of anti-tumour therapies as well as for the investigation of tumour biological issues. This 3D test system is based on the decellularised scaffold of a porcine small intestinal segment and represents the three molecular subsets of oestrogen receptor-positive, HER2/Neu-overexpressing and triple negative breast cancer (TNBC). The characterization of the test system with respect to morphology as well as the expression of markers for epithelial-mesenchymal transition (EMT) and differentiation indicate that the 3D tumour models cultured under static and dynamic conditions reflect tumour relevant features and have a good correlation with in vivo tumour tissue from the corresponding xenograft models. In this respect, the dynamic culture in a flow bioreactor resulted in the generation of tumour models that exhibited best reflection of the morphology of the xenograft material. Furthermore, the proliferation indices of 3D models were significantly reduced compared to 2-dimensional (2D) cell culture and therefore better reflect the in vivo situation. As this more physiological proliferation index prevents an overestimation of the therapeutic effect of cytostatic compounds, this is a crucial advantage of the test system compared to 2D culture. Moreover, it could be shown that the 3D models can recapitulate different tumour stages with respect to tumour cell invasion. The scaffold SISmuc with the preserved basement membrane structure allowed the investigation of invasion over this barrier which tumour cells of epithelial origin have to cross in in vivo conditions during the process of metastasis formation. Additionally, the data obtained from ultrastructural analysis and in situ zymography indicate that the invasion observed is connected to a tumour cell-associated change in the basement membrane in which matrix metalloproteinases (MMPs) are also involved. This features of the model in combination with the mentioned methods of analysis could be used in the future to mechanistically investigate invasive processes and to test anti-metastatic therapy strategies. The validation of the 3D models as a test system with respect to the predictability of therapeutic effects was achieved by the clinically relevant targeted therapy with the monoclonal antibody trastuzumab which induces therapeutic response only in patients with HER2/Neu-overexpressing mamma carcinomas due to its specificity for HER2. While neither in 2D nor in 3D models of all molecular subsets a clear reduction of cell viability or an increase in apoptosis could be observed, a distinct increase in antibody-dependent cell-mediated cytotoxicity (ADCC) was detected only in the HER2/NEU-overexpressing 3D model with the help of an ADCC reporter gene assay that had been adapted for the application in the 3D model in the here presented work. This correlates with the clinical observations and underlines the relevance of ADCC as a mechanism of action (MOA) of trastuzumab. In order to measure the effects of ADCC on the tumour cells in a direct way without the indirect measurement via a reporter gene, the introduction of an immunological component into the models was required. This was achieved by the integration of peripheral blood mononuclear cells (PBMCs), thereby allowing the measurement of the induction of tumour cell apoptosis in the HER2/Neu-overexpressing model. Hence, in this study an immunocompetent model could be established that holds the potential for further testing of therapies from the emergent field of cancer immunotherapies. Subsequently, the established test system was used for the investigation of scientific issues from different areas of application. By the comparison of the sensitivity of the 2D and 3D model of TNBC towards the water-insoluble compound curcumin that was applied in a novel nanoformulation or in a DMSO-based formulation, the 3D test system was successfully applied for the evaluation of an innovative formulation strategy for poorly soluble drugs in order to achieve cancer therapy-relevant concentrations. Moreover, due to the lack of targeted therapies for TNBC, the TNBC model was applied for testing novel treatment strategies. On the one hand, therapy with the WEE1 kinase inhibitor MK 1775 was evaluated as a single agent as well as in combination with the chemotherapeutic agent doxorubicin. This therapy approach did not reveal any distinct benefits in the 3D test system in contrast to testing in 2D culture. On the other hand, a novel therapy approach from the field of cellular immunotherapies was successfully applied in the TNBC 3D model. The treatment with T cells that express a chimeric antigen receptor (CAR) against ROR1 revealed in the static as well as in the dynamic model a migration of T cells into the tumour tissue, an enhanced proliferation of T cells as well as an efficient lysis of the tumour cells via apoptosis and therefore a specific anti-cancer effect of CAR-transduced T cells compared to control T cells. These results illustrate that the therapeutic application of CAR T cells is a promising strategy for the treatment of solid tumours like TNBC and that the here presented 3D models are suitable for the evaluation and optimization of cellular immunotherapies. In the last part of this work, the 3D models were expanded by components of the tumour stroma for future applications. By coculture with fibroblasts, the natural structures of the intestinal scaffold comprising crypts and villi were remodelled and the tumour cells formed tumour-like structures together with the fibroblasts. This tissue model displayed a strong correlation with xenograft models with respect to morphology, marker expression as well as the activation of dermal fibroblasts towards a cancer-associated fibroblast (CAF) phenotype. For the integration of adipocytes which are an essential component of the breast stroma, a coculture with human adipose-derived stromal/stem cells (hASCs) which could be successfully differentiated along the adipose lineage in 3D static as well as dynamic models was established. These models are suitable especially for the mechanistic analysis of the reciprocal interaction between tumour cells and adipocytes due to the complex differentiation process. Taken together, in this study a human 3D mamma carcinoma test system for application in the preclinical development and testing of anti-tumour therapies as well as in basic research in the field of tumour biology was successfully established. With the help of this modular test system, relevant data can be obtained concerning the efficacy of therapies in tumours of different molecular subsets and different tumour stages as well as for the optimization of novel therapy strategies like immunotherapies. In the future this can contribute to improve the preclinical screening and thereby to reduce the high attrition rates in pharmaceutical industry as well as the amount of animal experiments.},
  subject      = {Brustkrebs},
  language  = {en}
}