@phdthesis{Hart2004, author = {Hart, Stefan}, title = {Characterisation of the molecular mechanisms of EGFR signal transactivation in human cancer}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-10067}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2004}, abstract = {In a variety of established tumour cell lines, but also in primary mammary epithelial cells metalloprotease-dependent transactivation of the EGFR, and EGFR characteristic downstream signalling events were observed in response to stimulation with physiological concentrations of GPCR agonists such as the mitogens LPA and S1P as well as therapeutically relevant concentrations of cannabinoids. Moreover, this study reveals ADAM17 and HB-EGF as the main effectors of this mechanism in most of the cancer cell lines investigated. However, depending on the cellular context and GPCR agonist, various different members of the ADAM family are selectively recruited for specific ectodomain shedding of proAR and/or proHB-EGF and subsequent EGFR activation. Furthermore, biological responses induced by LPA or S1P such as migration in breast cancer and HNSCC cells, depend on ADAM17 and proHB-EGF/proAR function, respectively, suggesting that highly abundant GPCR ligands may play a role in tumour development and progression. Moreover, EGFR signal transactivation could be identified as the mechanistic link between cannabinoid receptors and the activation of mitogen activated protein kinases (MAPK) ERK1/2 as well as pro-survival Akt/PKB signalling. Depending on the cellular context, cannabinoid-induced signal cross-communication was mediated by shedding of proAmphiregulin and/or proHB-EGF by ADAM17. Most importantly, our data show that concentrations of THC comparable to those detected in the serum of patients after THC administration accelerate proliferation of cancer cells instead of apoptosis and thereby may contribute to cancer progression in patients.}, subject = {Epidermaler Wachstumsfaktor-Rezeptor}, language = {en} } @phdthesis{Semmel2005, author = {Semmel, Britta Birgit}, title = {Gentoxizit{\"a}t durch hormonell stimulierte Proliferation}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-18714}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2005}, abstract = {Hormone spielen bei der Kanzerogenese eine wichtige Rolle, indem sie vor allem auf die Phase der Promotion einwirken und die Proliferation bereits initiierter Zellen steigern k{\"o}nnen. In dieser Arbeit wurden humane Ovarialkarzinomzellen mit {\"O}strogen, Insulin, IGF und EGF zur Proliferation angeregt, woraus eine erh{\"o}hte Mikrokernrate resultierte. Mikrokerne sind chromatinhaltige Strukturen, die außerhalb des Zellkerns liegen. Somit lag nahe, dass durch die Steigerung der Proliferation eine genetische Instabilt{\"a}t erzeugt wurde. Weitere Experimente zeigten eine Forcierung der genetisch gesch{\"a}digten Zellen durch den Zellzyklus, so dass vermutet werden kann, dass schnell proliferierende Zellen durch Verringerung der zellul{\"a}ren Reparaturmechanismen eine erh{\"o}hte Rate an genetischer Instabilit{\"a}t aufweisen. Unterst{\"u}tzt wird diese Hypothese durch Analyse diverser Zellzyklusregulationsproteine mittel Wester-Blot.}, language = {de} } @phdthesis{Wassermann2005, author = {Wassermann, Veronika}, title = {Ueber die Beteiligung der Hitzeschockproteine HSP27 und HSP70 an einer Resistenz, Resistenzentwicklung unter CMF-Therapie}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-12292}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2005}, abstract = {Ein Problem der Therapie maligner Tumore ist die Resistez gegen{\"u}ber Chemotherapeutika. Diskutiert wird ein Zusammenhang zur Expression von Hitzeschockproteinen (HSP). Insbesondere das in Mamma-Karzinomen stark exprimierte HSP27 und HSP70 scheinen hier beteiligt. Hitzeschockproteine sind Teil eines durch Noxen induzierten Mechanismus, welcher Schutz vor weiterer Noxenexposition verleiht, also die entsprechenen Zellen im Unterschied zu nicht exponierten Kontrollzellen zu {\"u}berleben bef{\"a}higt. Es kommt nach einem Streßereignis zu einer Ver{\"a}nderung von Zelltod unter nachfolgenden Bedingungen, z.B. Verh{\"u}tung von Apoptose (physiologischer Zelltod). Tumortherapie mittels Zytostatika stellt eine „kontrollierte Apoptose" dar. Ziel dieser Therapie muß es also folglich sein, eine HSP-Induktion zu vermeiden, da eine solche den Therapieerfolg und Benefit f{\"u}r den Patienten schm{\"a}lert. Die Exposition einer Tumorzelle mit einem chemotherapeutisch wirksamen Medikament bedeutet f{\"u}r diese Zelle toxischen/oxidativen Streß, den sie nur durch Induktion entsprechender Abwehrmechanismen {\"u}berleben kann. Diese Mechanismen haben letztlich einen wesentlichen Einfluß auf die Wirksamkeit des Medikamentes und Profit des Patienten durch die ihm angebotene Therapie. Eine fr{\"u}he adaptive Zellantwort von S{\"a}ugerzellen auf toxische Einfl{\"u}sse stellt die Expression von Hitzeschockproteinen dar. Den Fokus der vorliegenden Untersuchungen stellen einerseits diejenigen Substanzen dar, welche heutzutage in der Therapie des Mamma-Karzinoms eingesetzt werden, den drei Einzelsubstanzen des CMF-Protokolls Methotrexat, 5-Fluorouracil und Cyclophosphamid, andererseits die Hitzeschockproteine mit der h{\"o}chsten bekannten Bedeutung f{\"u}r Tumorwachstum. In einem ersten Schritt wurde in vitro mit einem Zellsystem, welches durch Transfektion mit dem humanen hsp27-Gen bei bekannter HSP70-Induzierbarkeit als einfaches isoliertes Zellsystem ein gutes Werkzeug zur spezifischen Untersuchung dieser beiden Proteine darstellt, untersucht werden, inwieweit sich diese speziellen Proteine durch die unterschiedlichen Substanzgruppen des CMF-Protokolls induzieren lassen. Es wurde also nach einer adaptiven Zellantwort in Form einer Induktion von HSP27 und HSP70 nachfolgend einer Noxenexposition gesucht werden. In einem zweiten Schritt wurde untersucht, ob die f{\"u}r diese beiden HSPs postulierte zytoprotektive Eigenschaften auch f{\"u}r Zytostatika gelten. Es wurde {\"u}berpr{\"u}ft , inwieweit Chemotherapeutika unter dem Einfluß von HSP70 und HSP27 stehen, also inwieweit die Expression von HSP27 und HSP70 einen Zellschutz gegen toxischen Streß (durch CMF) in den verwendeten L929-Mausfibroblasten darstellen kann.}, language = {de} } @phdthesis{Robubi2007, author = {Robubi, Armin}, title = {RAF Kinases: Pathway, Modulation and Modeling}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-26953}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2007}, abstract = {The Ras/RAF/MEK/ERK cascade is a central cellular signal transduction pathway involved in cell proliferation, differentiation, and survival where RAF kinases are pivotal kinases implicated in cancer. The development of specific irreversible kinase inhibitors is a rewarding but difficult aim. CI-1033 was developed to irreversibly inhibit erbB receptor tyrosine kinases by reacting to the Cys113 residue (p38alpha MAP kinase numbering) of the kinase domain. In this study we tried a similar approach to target the RAF oncoproteins which posses a similar cysteine at position 108 in the hinge region between the small n-lobe and the large c-lobe of the kinase domain. A novel synthetic approach including a lyophilization step allowed us the synthesis of a diphenyl urea compound with an epoxide moiety (compound 1). Compound 1 possessed inhibitory activity in vitro. However our time kinetics experiments and mass spectroscopic studies clearly indicate that compound 1 does not react covalently with the cysteine residue in the hinge region. Moreover, in cell culture experiments, a strong activation of the RAF signaling pathway was observed, an effect which is known from several other RAF kinase inhibitors and is here reported for the first time for a diphenyl urea compound, to which the clinically used unspecific kinase inhibitor BAY 43-9006 (Sorafinib, Nexavar) belongs. Although activation was apparently independent on B- and C-RAF hetero-oligomerization in vitro, in vivo experiments support such a mechanism as the activation did not occur in starved knockout cells lacking either B-RAF or C-RAF. Furthermore, we developed a mathematical model of the Ras/RAF/MEK/ERK cascade demonstrating how stimuli induce different signal patterns and thereby different cellular responses, depending on cell type and the ratio between B-RAF and C-RAF. Based on biochemical data for activation and dephosphorylation, we set up differential equations for a dynamical model of the Ras/RAF/MEK/ERK cascade. We find a different signaling pattern and response result for B-RAF (strong activation, sustained signal) and C-RAF (steep activation, transient signal). We further support the significance of such differential modulatory signaling by showing different RAF isoform expression in various cell lines and experimental testing of the predicted kinase activities in B-RAF, C-RAF as well as mutated versions. Additionally the effect of the tumor suppressor DiRas3 (also known as Noey2 or ARHI) on RAF signaling was studied. I could show that DiRas3 down-regulates the mitogenic pathway by inhibition of MEK, a basis for a refined model of the Ras/RAF/MEK/ERK cascade.}, subject = {Systembiologie}, language = {en} } @phdthesis{Weber2007, author = {Weber, Natalia}, title = {Psychosoziale Aspekte bei heredit{\"a}rer Mamma/Ovarial-Ca-Belastung}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-28330}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2007}, abstract = {Ziel dieser Arbeit war die Untersuchung der psychischen Befindlichkeit und anderer gesundheitsbezogenen Konditionen der Frauen und M{\"a}nner mit famili{\"a}ren Mamma- und Ovarialkarzinomrisiko sowie die Kl{\"a}rung hinsichtlich der Bew{\"a}ltigung und Auswirkung genetischer Risikoinformation. Es wurden Risikowahrnehmung, Informationsstand, Inanspruchnahme der Beratungsangebote sowie der Fr{\"u}herkennungsmaßnahmen, Einstellung gegen{\"u}ber genetischer Brustkrebsdiagnostik und famili{\"a}rer/sozialer Kommunikation untersucht. Die vollst{\"a}ndig ausgef{\"u}llten Frageb{\"o}gen von Ratsuchenden und Betroffenen, die an der Beratung und Befragung im Zentrum f{\"u}r „Famili{\"a}ren Brust-/Eierstockkrebs" teilgenommen haben, wurden von uns ausgewertet. F{\"u}r die beratenden Institutionen ist das Wissen der vielf{\"a}ltigen psychischen und sozialen Folgen bei den Testsuchenden und deren Familien sehr wichtig. Nur so kann das Betreuungskonzept und das Beratungsangebot verbessert werden.}, subject = {Brustkrebs}, language = {de} } @phdthesis{Laufer2008, author = {Laufer, Antje}, title = {Kombinierte zytogenetische und morphologische Analyse follikul{\"a}rer Non-Hodgkin Lymphome : Eine neue rekurrente chromosomale Aberration bei pr{\"a}dominant diffusen follikul{\"a}ren Lymphomen}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-29701}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2008}, abstract = {Das follikul{\"a}re Lymphom ist eines der h{\"a}ufigsten Non-Hodgkin Lymphome und {\"u}berwiegend eine Erkrankung des erwachsenen Menschen. In der WHO-Klassifikation ist es als ein Lymphom von Keimzentrumszellen definiert, das follikul{\"a}r und/oder diffus wachsen kann. Zur Subklassifikation follikul{\"a}rer Lymphome empfiehlt die WHO-Klassifikation eine Unterscheidung der Grade 1, 2 und 3 durch Ausz{\"a}hlen der Zentroblasten pro zehn Gesichtsfelder in starker Vergr{\"o}ßerung. Beim Grad 3A liegen neben Zentroblasten auch Zentrozyten vor. FL Grad 3B bestehen ausschließlich aus Zentroblasten. Hinsichtlich der Zytomorphologie, Immunhistologie und Genetik bestehen deutliche Unterschiede zwischen FL Grad 1, 2 und 3A gegen{\"u}ber FL Grad 3B. In der vorliegenden Arbeit konnte gezeigt werden, dass die weit {\"u}berwiegende Zahl der follikul{\"a}ren Lymphome Grad 1, 2 und 3A ein pr{\"a}dominant follikul{\"a}res Wachstumsmuster aufwies. Ein follikul{\"a}rer und diffuser Wuchstyp lag seltener vor. Noch seltener war ein {\"u}berwiegend bzw. „rein" diffuses Wachstumsmuster. Die mitotische und proliferative Aktivit{\"a}t stieg mit dem Tumorgrad linear an. Hinsichtlich der CD10 Reaktivit{\"a}t, der BCL-2 und p53 Expression sowie des Nachweises einer sekretorischen Differenzierung ergaben sich beim Vergleich der FL Grad 1 bis 3A keine statistisch signifikanten Unterschiede. Die BCL-2 Expression nahm allerdings bei den FL1-3A mit zunehmendem Grad ab. In zytogenetischen Untersuchungen wurden in allen follikul{\"a}ren Lymphomen Grad 1 bis 3A prim{\"a}re bzw. sekund{\"a}re Chromosomenaberrationen gefunden. Unter den rekurrenten chromosomalen Alterationen trat die Translokation t(14;18)(q32;q21) am h{\"a}ufigsten auf und war insbesondere bei follikul{\"a}ren Lymphomen Grad 1 und 2, in etwas geringerem Maße auch bei FL Grad 3A anzutreffen. Diese Translokation scheint also in einem fr{\"u}hen Stadium der B-Zell-Entwicklung aufzutreten und f{\"u}hrt prim{\"a}r zu einem h{\"o}her differenzierten (zentrozytenreichen) Lymphom. Die t(14;18) bedingt zumeist eine {\"U}berexpression des BCL-2 Gens, die sich auch immunhistochemisch nachweisen l{\"a}sst und diagnostische Verwendung findet. Das BCL-2 Protein ist daher von Nutzen f{\"u}r die Unterscheidung neoplastischer von reaktiven Follikeln, nicht aber, um follikul{\"a}re von anderen „low grade" B-Zell Lymphomen zu unterscheiden. Die sekund{\"a}ren Alterationen charakterisieren bestimmte undifferenzierte Stadien mit hohem Blastenanteil und einer hohen mitotischen und proliferativen Aktivit{\"a}t. In zytogenetischen Untersuchungen von {\"u}berwiegend diffus wachsenden FL konnte keine Translokation t(14;18)(q32;q21) nachgewiesen werden. Die identische Morphologie dieser Lymphome und die identischen Ver{\"a}nderungen auch auf genetischer Ebene deuten auf die nahe Verwandtschaft der {\"u}berwiegend diffus wachsenden FL mit den typischen Keimzentrums-lymphomen hin. Es handelt sich jedoch um eine eigenst{\"a}ndige Identit{\"a}t, die differenzierten Keimzentrumslymphome, die wahrscheinlich aufgrund des Fehlens einer t(14;18)(q32;q21) ein prim{\"a}r und ausgepr{\"a}gt diffuses Wachstumsmuster aufweisen.}, subject = {Lymphdr{\"u}se}, language = {de} } @phdthesis{Laisney2010, author = {Laisney, Juliette Agn{\`e}s Genevi{\`e}ve Claire}, title = {Characterisation and regulation of the Egfr/Egfr ligand system in fish models for melanoma}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-51369}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2010}, abstract = {Fish of the genus Xiphophorus belong to the oldest animal models in cancer research. The oncogene responsible for the generation of spontaneous aggressive melanoma encodes for a mutated epidermal growth factor receptor (Egfr) and is called xmrk for Xiphophorus melanoma receptor kinase. Xmrk constitutive activation mechanisms and subsequent signaling pathways have already been investigated and charaterized but it is still unknown if Egfr ligands may also play a role in Xmrk-driven melanoma formation. To investigate the potential role of Egfr ligands in Xmrk-driven melanoma, I firstly analyzed the evolution of teleost and tetrapod Egfr/Egfr ligand systems. I especially focused on the analysis on the medaka fish, a closely related species to Xiphophorus, for which the whole genome has been sequenced. I could identify all seven Egfr ligands in medaka and could show that the two teleost-specific Egfr copies of medaka display dissimilar expression patterns in adult tissues together with differential expression of Egfr ligand subsets, arguing for subfunctionalization of receptor functions in this fish. Our phylogenetic and synteny analyses supported the hypothesis that only one gene in the chordate ancestor gave rise to the diversity of Egfr ligands found in vertebrate genomes today. I also could show that the Egfr extracellular subdomains implicated in ligand binding are not evolutionary conserved between tetrapods and teleosts, making the use of heterologous ligands in experiments with fish cells debatable. Despite its well understood and straight-forward process, Xmrk-driven melanomagenesis in Xiphophorus is problematic to further investigate in vivo. Our laboratory recently established a new melanoma animal model by generating transgenic mitf::xmrk medaka fishes, a Xiphophorus closely related species offering many more advantages. These fishes express xmrk under the control of the pigment-cell specific Mitf promoter. During my PhD thesis, I participated in the molecular analysis of the stably transgenic medaka and could show that the Xmrk-induced signaling pathways are similar when comparing Xiphophorus with transgenic mitf::xmrk medaka. These data together with additional RNA expression, protein, and histology analyses showed that Xmrk expression under the control of a pigment cell-specific promoter is sufficient to induce melanoma in the transgenic medaka, which develop very stereotyped tumors, including uveal and extracutaneous melanoma, with early onset during larval stages. To further investigate the potential role of Egfr ligands in Xmrk-driven melanoma, I made use of two model systems. One of them was the above mentioned mitf::xmrk medaka, the other was an in-vitro cell culture system, where the EGF-inducible Xmrk chimera HERmrk is stably expressed in murine melanocytes. Here I could show that HERmrk activation strongly induced expression of amphiregulin (Areg) and heparin-binding EGF-like growth factor (Hbegf) in melanocytes. This regulation was dependent on the MAPK and SRC signaling pathways. Moreover, upregulation of Adam10 and Adam17, the two major sheddases of Egfr ligands, was observed. I also could demonstrate the functionality of the growth factors by invitro analyses. Using the mitf::xmrk medaka model I could also show the upregulation of a subset of ligand genes, namely egf, areg, betacellulin (btc) and epigen (epgn) as well as upregulation of medaka egfrb in tumors from fish with metastatic melanoma. All these results converge to support an Xmrk-induced autocrine Egfr ligand loop. Interestingly, my in-vitro experiments with conditioned supernatant from medaka Egf- and Hbegf-producing cells revealed that not only Xiphophorus Egfrb, but also the pre-activated Xmrk could be further stimulated by the ligands. Altogether, I could show with in-vitro and in-vivo experiments that Xmrk is capable of inducing a functional autocrine Egfr ligand loop. These data confirm the importance of autocrine loops in receptor tyrosine kinase (RTK)-dependent cancer development and show the possibility for a constitutively active RTK to strengthen its oncogenic signaling by ligand binding.}, subject = {Schwertk{\"a}rpfling}, language = {en} } @phdthesis{Polzien2011, author = {Polzien, Lisa}, title = {BAD Phosphorylation: A Novel Link between Apoptosis and Cancer}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-56919}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2011}, abstract = {BAD (Bcl-2 antagonist of cell death, Bcl-2 associated death promoter) is a pro-apoptotic member of the Bcl-2 protein family that is regulated by phosphorylation in response to survival factors. Although much attention has been devoted to the identification of phosphorylation sites in murine BAD (mBAD), little data are available with respect to phosphorylation of human BAD (hBAD) protein. In this work, we investigated the quantitative contribution of BAD targeting kinases in phosphorylating serines 75, 99 and 118 of hBAD (Chapter 3.1). Our results indicate that RAF kinases phosphorylate hBAD in vivo at these established serine residues. RAF-induced phosphorylation of hBAD was not prevented by MEK inhibitors but could be reduced to control levels by use of the RAF inhibitor Sorafenib (BAY 43-9006). Consistently, expression of active RAF suppressed apoptosis induced by hBAD and the inhibition of colony formation caused by hBAD could be prevented by RAF. In addition, using surface plasmon resonance technique we analyzed the direct consequences of hBAD phosphorylation by RAF with respect to complex formation of BAD with 14-3-3 proteins and Bcl-XL. Phosphorylation of hBAD by active RAF promotes 14-3-3 protein association, whereby the phosphoserine 99 represents the major binding site. Furthermore, we demonstrate in this work that hBAD forms channels in planar bilayer membranes in vitro. This pore-forming capacity is dependent on phosphorylation status and interaction with 14-3-3 proteins. Additionally, we show that hBAD pores possess a funnel-shaped geometry that can be entered by ions and non-charged molecules up to 200 Da (Chapter 3.2). Since both lipid binding domains of hBAD (LBD1 and LBD2) are located within the C-terminal region, we investigated this part of the protein with respect to its structural properties (Chapter 3.3). Our results demonstrate that the C-terminus of hBAD possesses an ordered β-sheet structure in aqueous solution that adopts helical disposition upon interaction with lipid membranes. Additionally, we show that the interaction of the C-terminal segment of hBAD with the BH3 domain results in the formation of permanently open pores, whereby the phosphorylation of serine 118 proved to be necessary for effective pore-formation. In contrast, phosphorylation of serine 99 in combination with 14-3-3 association suppresses formation of channels. These results indicate that the C-terminal part of hBAD controls hBAD function by structural transitions, lipid binding and phosphorylation. Using mass spectrometry we identified in this work, besides the established in vivo phosphorylation sites at serines 75, 99 and 118, several novel hBAD phosphorylation sites (serines 25, 32/34, 97, 124 and 134, Chapter 3.1). To further analyze the regulation of hBAD function, we investigated the role of these newly identified phosphorylation sites on BAD-mediated apoptosis. We found that in contrast to the N-terminal phosphorylation sites, the C-terminal serines 124 and 134 act in an anti-apoptotic manner (Chapter 3.4). Our results further indicate that RAF kinases and PAK1 effectively phosphorylate BAD at serine 134. Notably, in the presence of wild type hBAD, co-expression of survival kinases, such as RAF and PAK1, leads to a strongly increased proliferation, whereas substitution of serine 134 by alanine abolishes this process. Furthermore, we identified hBAD serine 134 to be strongly involved in survival signaling in B-RAF-V600E containing tumor cells and found phosphorylation of this residue to be crucial for efficient proliferation in these cells. Collectively, our findings provide new insights into the regulation of hBAD function by phosphorylation and its role in cancer signaling.}, subject = {Krebs }, language = {en} } @phdthesis{Schneider2011, author = {Schneider, Tim Frederik}, title = {Untersuchung des EGF-Rezeptor-Signalwegs an Karzinomen der Kopfspeicheldr{\"u}sen}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-65278}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2011}, abstract = {Bei vielen Karzinomen spielt EGFR und das KRAS-Onkogen eine wichtige Rolle in der Tumorentstehung. Da bei den seltenen Karzinomen an Kopfspeicheldr{\"u}sen sehr wenig {\"u}ber molekulare Mechanismen der Tumorgenese bekannt ist, war es das Ziel der Arbeit den EGFR-Signalweg zu untersuchen. Es wurden Paraffinschnitte von 43 Speicheldr{\"u}senkarzinomen von den Typen ACC, MEC und Adeno-Ca NOS mit dem phosphorylierten EGFR-Antik{\"o}rper gef{\"a}rbt und mit klinisch-pathologischen Daten korreliert. Weiterhin wurde eine Mutationsanalyse der kras-Gensequenz durchgef{\"u}hrt. In allen F{\"a}llen war das kras-Gen vom Wildtyp. Bei der Expressionsanalyse von EGFR stellte sich heraus, dass 79\% der Proben einen aktivierten EGF-Rezeptor besitzen. Statistisch signifikante Korrelationen gab es zwischen der EGFR-Expression und dem Patientenalter, dem zervikalen Lymphknotenbefall und der Tumorgr{\"o}ße. Der EGF-Signaltransduktionsweg ist bei den untersuchten Karzinomen der Kopfspeicheldr{\"u}sen im {\"u}berwiegenden Masse aktiviert, ohne dass eine autonome Aktivierung beim KRAS-Onkogen vorliegt.}, subject = {Epidermaler Wachstumsfaktor-Rezeptor}, language = {de} } @phdthesis{Klingelhoeffer2011, author = {Klingelh{\"o}ffer, Christoph}, title = {Untersuchungen zur Ascorbins{\"a}ure-vermittelten anti-Tumor-Wirkung: Oxidativer Stress als Ausl{\"o}ser selektiver Zytotoxizit{\"a}t}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-66402}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2011}, abstract = {Die Bedeutung von Ascorbins{\"a}ure als „Krebsschutzfaktor" wird auch weiterhin kontrovers diskutiert. Seit einiger Zeit wird vermutet, dass Ascorbins{\"a}ure oxidativen Stress ausl{\"o}st. In der vorliegenden Untersuchung wurde die Wirkung von Ascorbins{\"a}ure auf 12 maligne und 3 benigne Zelllinien in vitro untersucht. Die Zellen wurden f{\"u}r 2 bzw. 14 Stunden mit unterschiedlichen Konzentrationen von Ascorbins{\"a}ure (5 bis 100 mmol/L) inkubiert und 24, 48 und 72 Stunden nach Versuchsbeginn der Anteil vitaler Zellen bestimmt. Die hierf{\"u}r verwendeten Assays, WST-8 und Kristallviolett-Assay, ließen zudem Aussagen {\"u}ber die Stoffwechselaktivit{\"a}t (WST-8) und Zellvitalit{\"a}t (Kristallviolett) zu. Die sch{\"a}digende Wirkung von Ascorbins{\"a}ure wurde als EC50-Wert angegeben, bei dieser Ascorbins{\"a}ure-Konzentration sind 50 \% der Zellen zerst{\"o}rt. Ascorbins{\"a}ure wirkte nach 2 Stunden Inkubation kaum zelltoxisch, w{\"a}hrend nach 14 Stunden Inkubation eindeutige zelltoxische Effekte bei 6 der 12 malignen Zelllinien zu beobachten waren. So waren die drei getesteten Glioblastomzelllinien allesamt bereits bei einer Ascorbins{\"a}ure-Konzentrationen von 5 mmol/L nahezu vollkommen zerst{\"o}rt (EC50: 2,6-5,5 mmol/L). Die Mammakarzinomzelllinie BT-20 hingegen war am widerstandsf{\"a}higsten gegen{\"u}ber dem zelltoxischen Effekt der Ascorbins{\"a}ure (EC50: 95 mmol/L). Als wesentliches Effektormolek{\"u}l der zelltoxischen Wirkung der Ascorbins{\"a}ure wurde Wasserstoffperoxid identifiziert. Die Zugabe von Katalase sch{\"u}tzt Ascorbins{\"a}ure- sensitive Zellen, in dem es Wasserstoffperoxid abbaut. Ein weiteres Indiz hierf{\"u}r ist, dass Zelllinien, die gegen{\"u}ber dem Ascorbins{\"a}ure-vermittelten Effekt unempfindlich waren, dies auch gegen{\"u}ber Wasserstoffperoxid waren. Umgekehrt waren Zelllinien, die empfindlich gegen{\"u}ber dem Ascorbins{\"a}urevermittelten zelltoxischen Effekt reagierten, auch empfindlich gegen{\"u}ber Wasserstoffperoxid. 45 Eine wesentliche sich aus den Daten dieser Arbeit ergebende Frage ist die, worin sich Ascorbins{\"a}ure-resistente Tumorzellen von Ascorbins{\"a}ure-empfindlichen Tumorzellen unterscheiden. Da Ascorbins{\"a}ure-empfindliche Zellen durch Zugabe von Katalase vor der zelltoxischen Wirkung der Ascorbins{\"a}ure gesch{\"u}tzt werden, liegt die Vermutung nahe, dass eine wesentliche Ursache hierf{\"u}r in der zelleigenen Katalase begr{\"u}ndet liegt. Somit sollten Ascorbins{\"a}ureresistente Zellen mehr bzw. aktivere Katalase aufweisen, als Ascorbins{\"a}ureempfindliche Zellen. Diese Vermutung ist in weiteren Experimenten zu {\"u}berpr{\"u}fen.}, subject = {Vitamin C}, language = {de} } @phdthesis{Hess2013, author = {Heß, Michael}, title = {Vaccinia virus-encoded bacterial beta-glucuronidase as a diagnostic biomarker for oncolytic virotherapy}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-86789}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2013}, abstract = {Oncolytic virotherapy represents a promising approach to revolutionize cancer therapy. Several preclinical and clinical trials display the safety of oncolytic viruses as wells as their efficiency against solid tumors. The development of complementary diagnosis and monitoring concepts as well as the optimization of anti-tumor activity are key points of current virotherapy research. Within the framework of this thesis, the diagnostic and therapeutic prospects of beta-glucuronidase expressed by the oncolytic vaccinia virus strain GLV-1h68 were evaluated. In this regard, a beta-glucuronidase-based, therapy-accompanying biomarker test was established which is currently under clinical validation. By using fluorescent substrates, the activity of virally expressed beta-glucuronidase could be detected and quantified. Thereby conclusions about the replication kinetics of oncolytic viruses in animal models and virus-induced cancer cell lysis could be drawn. These findings finally led to the elaboration and establishment of a versatile biomarker assay which allows statements regarding the replication of oncolytic viruses in mice based on serum samples. Besides the analysis of retrospective conditions, this test is able to serve as therapy-accompanying monitoring tool for virotherapy approaches with beta-glucuronidase-expressing viruses. The newly developed assay also served as complement to routinely used plaque assays as well as reference for virally expressed anti-angiogenic antibodies in additional preclinical studies. Further validation of this biomarker test is currently taking place in the context of clinical trials with GL-ONC1 (clinical grade GLV-1h68) and has already shown promising preliminary results. It was furthermore demonstrated that fluorogenic substrates in combination with beta-glucuronidase expressed by oncolytic viruses facilitated the optical detection of solid tumors in preclinical models. In addition to diagnostic purposes, virus-encoded enzymes could also be combined with prodrugs resulting in an improved therapeutic outcome of oncolytic virotherapy. In further studies, the visualization of virus-induced immune reactions as well as the establishment of innovative concepts to improve the therapeutic outcome of oncolytic virotherapy could be accomplished. In conclusion, the results of this thesis provide crucial findings about the influence of virally expressed beta-glucuronidase on various diagnostic concepts in the context of oncolytic virotherapy. In addition, innovative monitoring and therapeutic strategies could be established. Our preclinical findings have important clinical influence, particularly by the development of a therapy-associated biomarker assay which is currently used in different clinical trials.}, subject = {Vaccinia-Virus}, language = {en} } @phdthesis{Siegl2014, author = {Siegl, Christine}, title = {Degradation of Tumour Suppressor p53 during Chlamydia trachomatis Infections}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-108679}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {The intracellular pathogen Chlamydia is the causative agent of millions of new infections per year transmitting diseases like trachoma, pelvic inflammatory disease or lymphogranuloma venereum. Undetected or recurrent infections caused by chlamydial persistence are especially likely to provoke severe pathologies. To ensure host cell survival and to facilitate long term infections Chlamydia induces anti-apoptotic pathways, mainly at the level of mitochondria, and restrains activity of pro-apoptotic proteins. Additionally, the pathogen seizes host energy, carbohydrates, amino acids, lipids and nucleotides to facilitate propagation of bacterial progeny and growth of the chlamydial inclusion. At the beginning of this study, Chlamydia-mediated apoptosis resistance to DNA damage induced by the topoisomerase inhibitor etoposide was investigated. In the course of this, a central cellular protein crucial for etoposide-mediated apoptosis, the tumour suppressor p53, was found to be downregulated during Chlamydia infections. Subsequently, different chlamydial strains and serovars were examined and p53 downregulation was ascertained to be a general feature during Chlamydia infections of human cells. Reduction of p53 protein level was established to be mediated by the PI3K-Akt signalling pathway, activation of the E3-ubiquitin ligase HDM2 and final degradation by the proteasome. Additionally, an intriguing discrepancy between infections of human and mouse cells was detected. Both activation of the PI3K-Akt pathway as well as degradation of p53 could not be observed in Chlamydia-infected mouse cells. Recently, production of reactive oxygen species (ROS) and damage to host cell DNA was reported to occur during Chlamydia infection. Thus, degradation of p53 strongly contributes to the anti-apoptotic environment crucial for chlamydial infection. To verify the importance of p53 degradation for chlamydial growth and development, p53 was stabilised and activated by the HDM2-inhibiting drug nutlin-3 and the DNA damage-inducing compound etoposide. Unexpectedly, chlamydial development was severely impaired and inclusion formation was defective. Completion of the chlamydial developmental cycle was prevented resulting in loss of infectivity. Intriguingly, removal of the p53 activating stimulus allowed formation of the bacterial inclusion and recovery of infectivity. A similar observation of growth recovery was made in infected cell lines deficient for p53. As bacterial growth and inclusion formation was strongly delayed in the presence of activated p53, p53-mediated inhibitory regulation of cellular metabolism was suspected to contribute to chlamydial growth defects. To verify this, glycolytic and pentose phosphate pathways were analysed revealing the importance of a functioning PPP for chlamydial growth. In addition, increased expression of glucose-6-phosphate dehydrogenase rescued chlamydial growth inhibition induced by activated p53. The rescuing effect was even more pronounced in p53-deficient cells treated with etoposide or nutlin-3 revealing additional p53-independent aspects of Chlamydia inhibition. Removal of ROS by anti-oxidant compounds was not sufficient to rescue chlamydial infectivity. Apparently, not only the anti-oxidant capacities of the PPP but also provision of precursors for nucleotide synthesis as well as contribution to DNA repair are important for successful chlamydial growth. Modulation of host cell signalling was previously reported for a number of pathogens. As formation of ROS and DNA damage are likely to occur during infections of intracellular bacteria, several strategies to manipulate the host and to inhibit induction of apoptosis were invented. Downregulation of the tumour suppressor p53 is a crucial point during development of Chlamydia, ensuring both host cell survival and metabolic support conducive to chlamydial growth.}, subject = {Chlamydia-trachomatis-Infektion}, language = {en} } @phdthesis{Wolter2015, author = {Wolter, Patrick}, title = {Characterization of the mitotic localization and function of the novel DREAM target GAS2L3 and Mitotic kinesins are regulated by the DREAM complex, often up-regulated in cancer cells, and are potential targets for anti-cancer therapy}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-122531}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {The recently discovered human DREAM complex (for DP, RB-like, E2F and MuvB complex) is a chromatin-associated pocket protein complex involved in cell cycle- dependent gene expression. DREAM consists of five core subunits and forms a complex either with the pocket protein p130 and the transcription factor E2F4 to repress gene expression or with the transcription factors B-MYB and FOXM1 to promote gene expression. Gas2l3 was recently identified by our group as a novel DREAM target gene. Subsequent characterization in human cell lines revealed that GAS2L3 is a microtubule and F-actin cross-linking protein, expressed in G2/M, plays a role in cytokinesis, and is important for chromosomal stability. The aim of the first part of the study was to analyze how expression of GAS2L3 is regulated by DREAM and to provide a better understanding of the function of GAS2L3 in mitosis and cytokinesis. ChIP assays revealed that the repressive and the activating form of DREAM bind to the GAS2L3 promoter. RNA interference (RNAi) mediated GAS2L3 depletion demonstrated the requirement of GAS2L3 for proper cleavage furrow ingression in cytokinesis. Immunofluorescence-based localization studies showed a localization of GAS2L3 at the mitotic spindle in mitosis and at the midbody in cytokinesis. Additional experiments demonstrated that the GAS2L3 GAR domain, a putative microtubule- binding domain, is responsible for GAS2L3 localization to the constriction zones in cytokinesis suggesting a function for GAS2L3 in the abscission process. DREAM is known to promote G2/M gene expression. DREAM target genes include several mitotic kinesins and mitotic microtubule-associated proteins (mitotic MAPs). However, it is not clear to what extent DREAM regulates mitotic kinesins and MAPs, so far. Furthermore, a comprehensive study of mitotic kinesin expression in cancer cell lines is still missing. Therefore, the second major aim of the thesis was to characterize the regulation of mitotic kinesins and MAPs by DREAM, to investigate the expression of mitotic kinesins in cancer cell line panels and to evaluate them as possible anti-cancer targets. ChIP assays together with RNAi mediated DREAM subunit depletion experiments demonstrated that DREAM is a master regulator of mitotic kinesins. Furthermore, expression analyses in a panel of breast and lung cancer cell lines revealed that mitotic kinesins are up-regulated in the majority of cancer cell lines in contrast to non-transformed controls. Finally, an inducible lentiviral-based shRNA system was developed to effectively deplete mitotic kinesins. Depletion of selected mitotic kinesins resulted in cytokinesis failures and strong anti-proliferative effects in several human cancer cell lines. Thus, this system will provide a robust tool for future investigation of mitotic kinesin function in cancer cells.}, subject = {Zellzyklus}, language = {en} } @phdthesis{Gnamlin2015, author = {Gnamlin, Prisca}, title = {Use of Tumor Vasculature for Successful Treatment of Carcinomas by Oncolytic Vaccinia Virus}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-119019}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {Tumor-induced angiogenesis is of major interest for oncology research. Vascular endothelial growth factor (VEGF) is the most potent angiogenic factor characterized so far. VEGF blockade was shown to be sufficient for angiogenesis inhibition and subsequent tumor regression in several preclinical tumor models. Bevacizumab was the first treatment targeting specifically tumor-induced angiogenesis through VEGF blockade to be approved by the Food and Drugs Administration (FDA) for cancer treatment. However, after very promising results in preclinical evaluations, VEGF blockade did not show the expected success in patients. Some tumors became resistant to VEGF blockade. Several factors have been accounted responsible, the over-expression of other angiogenic factors, the noxious influence of VEFG blockade on normal tissues, the selection of hypoxia resistant neoplastic cells, the recruitment of hematopoietic progenitor cells and finally the transient nature of angiogenesis inhibition by VEGF blockade. The development of blocking agents against other angiogenic factors like placental growth factor (PlGF) and Angiopoietin-2 (Ang-2) allows the development of an anti-angiogenesis strategy adapted to the profile of the tumor. Oncolytic virotherapy uses the natural propensity of viruses to colonize tumors to treat cancer. The recombinant vaccinia virus GLV-1h68 was shown to infect, colonize and lyse several tumor types. Its descendant GLV-1h108, expressing an anti-VEGF antibody, was proved in previous studies to inhibit efficiently tumor induced angiogenesis. Additional VACVs expressing single chain antibodies (scAb) antibodies against PlGF and Ang-2 alone or in combination with anti VEGF scAb were designed. In this study, VACV-mediated anti-angiogenesis treatments have been evaluated in several preclinical tumor models. The efficiency of PlGF blockade, alone or in combination with VEGF, mediated by VACV has been established and confirmed. PlGF inhibition alone or with VEGF reduced tumor burden 5- and 2-folds more efficiently than the control virus, respectively. Ang-2 blockade efficiency for cancer treatment gave controversial results when tested in different laboratories. Here we demonstrated that unlike VEGF, the success of Ang-2 blockade is not only correlated to the strength of the blockade. A particular balance between Ang-2, VEGF and Ang-1 needs to be induced by the treatment to see a regression of the tumor and an improved survival. We saw that Ang-2 inhibition delayed tumor growth up to 3-folds compared to the control virus. These same viruses induced statistically significant tumor growth delays. This study unveiled the need to establish an angiogenic profile of the tumor to be treated as well as the necessity to better understand the synergic effects of VEGF and Ang-2. In addition angiogenesis inhibition by VACV-mediated PlGF and Ang-2 blockade was able to reduce the number of metastases and migrating tumor cells (even more efficiently than VEGF blockade). VACV colonization of tumor cells, in vitro, was limited by VEGF, when the use of the anti-VEGF VACV GLV-1h108 drastically improved the colonization efficiency up to 2-fold, 72 hours post-infection. These in vitro data were confirmed by in vivo analysis of tumors. Fourteen days post-treatment, the anti-VEGF virus GLV-1h108 was colonizing 78.8\% of the tumors when GLV-1h68 colonization rate was 49.6\%. These data confirmed the synergistic effect of VEGF blockade and VACV replication for tumor regression. Three of the tumor cell lines used to assess VACV-mediated angiogenesis inhibition were found, in certain conditions, to mimic either endothelial cell or pericyte functions, and participate directly to the vascular structure. The expression by these tumor cells of e-selectin, p-selectin, ICAM-1 and VCAM-1, normally expressed on activated endothelial cells, corroborates our findings. These proteins play an important role in immune cell recruitment, and there amount vary in presence of VEGF, PlGF and Ang-2, confirming the involvement of angiogenic factors in the immuno-modulatory abilities of tumors. In this study VACV-mediated angiogenesis blockade proved its potential as a therapeutic agent able to treat different tumor types and prevent resistance observed during bevacizumab treatment by acting on different factors. First, the expression of several antibodies by VACV would prevent another angiogenic factor to take over VEGF and stimulate angiogenesis. Then, the ability of VACV to infect tumor cells would prevent them to form blood vessel-like structures to sustain tumor growth, and the localized delivery of the antibody would decrease the risk of adverse effects. Next, the blockade of angiogenic factors would improve VACV replication and decrease the immune-modulatory effect of tumors. Finally the fact that angiogenesis blockade lasts until total regression of the tumor would prevent the recovery of the tumor-associated vasculature and the relapse of patients.}, subject = {Vaccinia-Virus}, language = {en} } @phdthesis{Tsoneva2017, author = {Tsoneva, Desislava}, title = {Humanized mouse model: a system to study the interactions of human immune system with vaccinia virus-infected human tumors in mice}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-118983}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2017}, abstract = {Ein vielversprechender neuer Ansatz zur Behandlung von Krebs beim Menschen ist die Verwendung von onkolytischen Viren, die einen Tumor-spezifischen Tropismus aufweisen. Einer der Top-Kandidaten in diesem Bereich ist das onkolytische Vaccinia Virus (VACV), das bereits vielversprechende Ergebnisse in Tierversuchen und in klinischen Studien gezeigt hat. Aber die von den in vivo in tierischen Modellen erhaltenen Resultate k{\"o}nnten ungenaue Informationen wegen der anatomischen und physiologischen Unterschiede zwischen den Spezies liefern. Andererseits sind Studien in Menschen aufgrund ethischer Erw{\"a}gungen und potenzieller Toxizit{\"a}t nur limitiert m{\"o}glich. Die zahlreichen Einschr{\"a}nkungen und Risiken, die mit den Humanstudien verbunden sind, k{\"o}nnten mit der Verwendung eines humanisierten Mausmodells vermieden werden. Die LIVP-1.1.1, GLV-2b372, GLV-1h68, GLV-1h375, GLV-1h376 and GLV-1h377 VACV St{\"a}mmen wurden von der Genelux Corporation zur Verf{\"u}gung gestellt. GLV-2b372 wurde durch Einf{\"u}gen der TurboFP635 Expressionskassette in den J2R Genlocus des parentalen LIVP-1.1.1-Stammes konstruiert. GLV-1h375, -1h376 and -1h377 kodiert das Gen f{\"u}r den menschlichen CTLA4-blockierenden Einzelketten-Antik{\"o}rper (CTLA4 scAb). Befunde aus Replikations- and Zytotoxizit{\"a}tsstudien zeigten, dass alle sechs Viren Tumorzellen infizieren, sich in ihnen replizieren und sie in Zellkultur schließlich ebenso dosis- und zeitabh{\"a}ngig effizient abt{\"o}ten konnten. CTLA4 scAb und β-Glucuronidase (GusA) Expression sowie Virus Titer in GLV-1h376-infizierten A549-Zellen wurde anhand von ELISA-, β-Glucuronidase- and Standard Plaque-Assays bestimmt. Hierbei zeigte sich eine ausgezeichnete Korrelation mit Korrelationskoeffizienten R2>0.9806. Der durch das GLV-1h376 kodierte CTLA4 scAb wurde erfolgreich aus {\"U}berst{\"a}nden von infizierten CV-1-Zellen gereinigt. CTLA4 scAb hat eine hohe in-vitro-Affinit{\"a}t zu seinem menschlichen CTLA4-Zielmolek{\"u}l sowie abwesende Kreuzreaktivit{\"a}t gegen{\"u}ber murine CTLA4 gezeigt. CTLA4 scAb Funktionalit{\"a}t wurde in Jurkat-Zellen best{\"a}tigt. LIVP-1.1.1, GLV-2b372, GLV-1h68 und GLV-1h376 wurden auch in nicht-tumor{\"o}sen und/oder tumortragenden humanisierten M{\"a}usen getestet. Zun{\"a}chst wurde gezeigt, dass die Injektion von menschlichen CD34+ Stammzellen in die Leber von vorkonditionierten neugeborenen NSG M{\"a}usen zu einer erfolgreichen systemische Rekonstitution mit menschlichen Immunzellen gef{\"u}hrt hat. CD19+-B-Zellen, CD4+- und CD8+-CD3+-T-Zellen, NKp46+CD56- und NKp46+CD56+-NK-Zellen sowie CD33+-myeloischen Zellen wurden detektiert. Die Mehrheit der nachgewisenen humanen h{\"a}matopoetischen Zellen im M{\"a}useblut in den ersten Wochen nach der Humanisierung waren CD19+-B-Zellen, und nur ein kleiner Teil waren CD3+-T-Zellen. Mit der Zeit wurde eine signifikante Ver{\"a}nderung in CD19+/CD3+-Verh{\"a}ltnis beobachtet, die parallel zur Abnahme der B-Zellen und einem Anstieg der T-Zellen kam. Die Implantation von A549-Zellen unter die Haut dieser M{\"a}use f{\"u}hrte zu einem progressiven Tumorwachstum. Bildgebende Verfahren zur Detektion von Virus-vermittelter TurboFP635- und GFP-Expression, Standard Plaque Assays sowie immunohistochemische Analysen best{\"a}tigten die erfolgreiche Invasion der Viren in die subkutanen Tumoren. Die humane CD45+-Zellpopulation in Tumoren wurde haupts{\"a}chlich durch NKp46+CD56bright-NK-Zellen und einen hohen Anteil von aktivierten CD4+- und zytotoxische CD8+-T-Zellen dargestellt. Es wurden jedoch keine signifikanten Unterschiede zwischen den Kontroll- und LIVP-1.1.1-infizierten Tumoren beobachtet, was darauf hindeutete, dass die Rekrutierung von NK- und aktivierten T-Zellen, mehr Tumorgewebe-spezifisch als Virus-abh{\"a}ngig waren. Die GLV-1h376-vermittelten CTLA4 scAb-Expression in den infizierten Tumoren war ebenfalls nicht in der Lage, die Aktivierung von Tumor-infiltrierenden T-Zellen im Vergleich zur Kontrolle und GLV-1h68-behandelten M{\"a}usen, signifikant zu erh{\"o}hen. ELISA-, β-Glucuronidase- and Standard Plaque-Assays zeigten eine eindeutige Korrelation mit den Korrelationskoeffizienten R2>0,9454 zwischen CTLA4 scAb- und GusA-Konzentrationen und Virus Titer in Tumorproben von GLV-1h376-behandelten M{\"a}usen. T-Zellen, die aus der Milz dieser Tumor-tragenden M{\"a}use isoliert wurden, waren funktionell und konnten erfolgreich mit Beads aktiviert werden. Mehr CD25+ und IFN-ɣ+ T-Zellen wurden in der GLV-1h376-Gruppe gefunden, wahrscheinlich aufgrund der CTLA4-Blockade durch die Virus-vermittelte CTLA4 scAb-Expression in den M{\"a}usen. Außerdem wurde eine h{\"o}here Konzentration von IL-2 in dem Kultur{\"u}berstand von diesen Splenozyten im Vergleich zu Kontrollproben nachgewiesen. Im Gegensatz zu der Aktivierung mit Beads konnten T-Zellen von allen drei Maus-Gruppen nicht durch A549 Tumorzellen ex vivo aktiviert werden. Unser Mausmodell hat den besonderen Vorteil, dass sich Tumoren unter der Haut der humanisierten M{\"a}use entwickeln, was eine genaue {\"U}berwachung des Tumorwachstums und Auswertung der onkolytischen Virotherapie erm{\"o}glicht.}, subject = {Vaccinia virus}, language = {en} } @phdthesis{Dejure2018, author = {Dejure, Francesca Romana}, title = {Investigation of the role of MYC as a stress responsive protein}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-158587}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {The transcription factor MYC is deregulated in over 70\% of all human tumors and, in its oncogenic form, plays a major role in the cancer metabolic reprogramming, promoting the uptake of nutrients in order to sustain the biosynthetic needs of cancer cells. The research presented in this work aimed to understand if MYC itself is regulated by nutrient availability, focusing on the two major fuels of cancer cells: glucose and glutamine. Initial observations showed that endogenous MYC protein levels strongly depend on the availability of glutamine, but not of glucose. Subsequent analysis highlighted that the mechanism which accounts for the glutamine-mediated regulation of MYC is dependent on the 3´-untranslated region (3´-UTR) of MYC. Enhanced glutamine utilization by tumors has been shown to be directly linked to MYC oncogenic activity and MYC-dependent apoptosis has been observed under glutamine starvation. Such effect has been described in experimental systems which are mainly based on the use of MYC transgenes that do not contain the 3´-UTR. It was observed in the present study that cells are able to survive under glutamine starvation, which leads to cell cycle arrest and not apoptosis, as previously reported. However, enforced expression of a MYC transgene, which lacks the 3´-UTR, strongly increases the percentage of apoptotic cells upon starvation. Evaluation of glutamine-derived metabolites allowed to identify adenosine nucleotides as the specific stimulus responsible for the glutamine-mediated regulation of MYC, in a 3´-UTR-dependent way. Finally, glutamine-dependent MYC-mediated effects on RNA Polymerase II (RNAPII) function were evaluated, since MYC is involved in different steps of global transcriptional regulation. A global loss of RNAPII recruitment at the transcriptional start site results upon glutamine withdrawal. Such effect is overcome by enforced MYC expression under the same condition. This study shows that the 3´UTR of MYC acts as metabolic sensor and that MYC globally regulates the RNAPII function according to the availability of glutamine. The observations presented in this work underline the importance of considering stress-induced mechanisms impinging on the 3´UTR of MYC.}, subject = {Myc}, language = {en} } @phdthesis{Kaymak2019, author = {Kaymak, Irem}, title = {Identification of metabolic liabilities in 3D models of cancer}, doi = {10.25972/OPUS-18154}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-181544}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2019}, abstract = {Inefficient vascularisation of solid tumours leads to the formation of oxygen and nutrient gradients. In order to mimic this specific feature of the tumour microenvironment, a multicellular tumour spheroid (SPH) culture system was used. These experiments were implemented in p53 isogenic colon cancer cell lines (HCT116 p53 +/+ and HCT116 p53-/-) since Tp53 has important regulatory functions in tumour metabolism. First, the characteristics of the cells cultured as monolayers and as spheroids were investigated by using RNA sequencing and metabolomics to compare gene expression and metabolic features of cells grown in different conditions. This analysis showed that certain features of gene expression found in tumours are also present in spheroids but not in monolayer cultures, including reduced proliferation and induction of hypoxia related genes. Moreover, comparison between the different genotypes revealed that the expression of genes involved in cholesterol homeostasis is induced in p53 deficient cells compared to p53 wild type cells and this difference was only detected in spheroids and tumour samples but not in monolayer cultures. In addition, it was established that loss of p53 leads to the induction of enzymes of the mevalonate pathway via activation of the transcription factor SREBP2, resulting in a metabolic rewiring that supports the generation of ubiquinone (coenzyme Q10). An adequate supply of ubiquinone was essential to support mitochondrial electron transport and pyrimidine biosynthesis in p53 deficient cancer cells under conditions of metabolic stress. Moreover, inhibition of the mevalonate pathway using statins selectively induced oxidative stress and apoptosis in p53 deficient colon cancer cells exposed to oxygen and nutrient deprivation. This was caused by ubiquinone being required for electron transfer by dihydroorotate dehydrogenase, an essential enzyme of the pyrimidine nucleotide biosynthesis pathway. Supplementation with exogenous nucleosides relieved the demand for electron transfer and restored viability of p53 deficient cancer cells under metabolic stress. Moreover, the mevalonate pathway was also essential for the synthesis of ubiquinone for nucleotide biosynthesis to support growth of intestinal tumour organoids. Together, these findings highlight the importance of the mevalonate pathway in cancer cells and provide molecular evidence for an enhanced sensitivity towards the inhibition of mitochondrial electron transfer in tumour-like metabolic environments.}, subject = {Tumor}, language = {en} } @phdthesis{Gupta2021, author = {Gupta, Rohini}, title = {Intracellular self-activation of the TrkB kinase domain causes FAK phosphorylation and disrupts actin filopodia dynamics}, doi = {10.25972/OPUS-23382}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-233829}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {The tropomysin receptor kinase B (TrkB), the receptor for the neurotrophin brain-derived neurotrophic factor (BDNF), plays an important role in neuronal survival, neuronal differentiation, and cellular plasticity. Conventionally, TrkB activation is induced by binding of BDNF at extracellular sites and subsequent dimerization of receptor monomers. Classical Trk signaling concepts have failed to explain ligand-independent signaling of intracellular TrkB or oncogenic NTRK-fusion proteins. The intracellular activation domain of TrkB consists of a tyrosine kinase core, with three tyrosine (Y) residues at positions 701, 705 and 706, that catalyzes the phosphorylation reaction between ATPγ and tyrosine. The release of cisautoinhibition of the kinase domain activates the kinase domain and tyrosine residues outside of the catalytic domain become phosphorylated. The aim of this study was to find out how ligand-independent activation of TrkB is brought about. With the help of phosphorylation mutants of TrkB, it has been found that a high, local abundance of the receptor is sufficient to activate TrkB in a ligand-independent manner. This self-activation of TrkB was blocked when either the ATP-binding site or Y705 in the core domain was mutated. The vast majority of this self-active TrkB was found at intracellular locations and was preferentially seen in roundish cells, lacking filopodia. Live cell imaging of actin dynamics showed that self-active TrkB changed the cellular morphology by reducing actin filopodia formation. Signaling cascade analysis confirmed that self-active TrkB is a powerful activator of focal adhesion kinase (FAK). This might be the reason why self-active TrkB is able to disrupt actin filopodia formation. The signaling axis from Y705 to FAK could be mimicked by expression of the soluble, cytosolic TrkB kinase domain. However, the signaling pathway was inactive, when the TrkB kinase domain was targeted to the plasmamembrane with the help of artificial myristoylation membrane anchors. A cancer-related intracellular NTRK2-fusion protein (SQSTM1-NTRK2) also underwent constitutive kinase activation. In glioblastoma-like U87MG cells, self-active TrkB kinase reduced cell migration. These constitutive signaling pathways could be fully blocked within minutes by clinically approved, anti-tumorigenic Trk inhibitors. Moreover, this study found evidences for constitutively active, intracellular TrkB in tissue of human grade IV glioblastoma. In conclusion, the data provide an explanation and biological function for selfactive, constitutive TrkB kinase domain signaling, in the absence of a ligand.}, language = {en} } @phdthesis{Zetzl2021, author = {Zetzl, Teresa Margarete}, title = {Cancer-related fatigue intervention}, doi = {10.25972/OPUS-25166}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-251662}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {The incidence of cancer cases is rising steadily, while improved early detection and new cancer-specific therapies are reducing the mortality rate. In addition to curing cancer or prolonging life, increasing the quality of life is thus an important goal of oncology, which is why the burdens of cancer and treatment are becoming more important. A common side effect of cancer and its therapy is cancer-related fatigue, a tiredness that manifests itself on physical, emotional and cognitive levels and is not in proportion to previous physical efforts. Since the etiology of fatigue has not yet been fully clarified, symptom-oriented therapy is preferable to cause-specific therapy. In addition to activity management, sleep hygiene, and cognitive behavioral therapy, mind-body interventions such as yoga are recommended for reducing fatigue. Previous studies with small sample sizes were able to examine the efficacy of yoga regarding fatigue predominantly in patients with breast cancer. Long-term effects of yoga have rarely been studied and there have been no attempts to increase long-term effects through interventions such as reminder e-mails. This dissertation takes a closer look at these mentioned aspects of the study sample and long-term effects. An 8-week randomized controlled yoga intervention was conducted, including patients with different cancer types reporting mild to severe fatigue. Following the 8-week yoga therapy, a randomized group of participants received weekly reminder e-mails for 6 months for regular yoga practice, whereas the control group did not receive reminder e-mails. The first paper is a protocol article, which addresses the design and planned implementation of the research project this dissertation is based upon. This serves to ensure better replicability and comparability with other yoga studies. Due to a very low consent rate of patients in the pilot phase, it was necessary to deviate from the protocol article in the actual implementation and the planned inclusion criterion of fatigue >5 was reduced to fatigue >1. The second paper examines the efficacy of the eight-week yoga intervention. Patients in the intervention group who participated in the yoga classes seven times or more showed a significantly greater reduction in general and physical fatigue than those who participated less often. The efficacy of yoga was related to the number of attended yoga sessions. Women with breast cancer who participated in yoga reported greater reductions in fatigue than women with other cancer types. There was also an improvement for depression and quality of life after eight weeks of yoga therapy compared to no yoga therapy. These results imply that yoga is helpful in reducing depression and cancer-related fatigue, especially in terms of physical aspects and improving quality of life. The third paper focuses on the efficacy of reminder e-mails in terms of fatigue and practice frequency. Patients who received reminder e-mails reported greater reductions in general and emotional fatigue, as well as significant increases in practice frequency, compared to patients who did not receive reminder e-mails. Compared to fatigue scores before yoga, significantly lower fatigue and depression scores and higher quality of life were reported after yoga therapy and at follow-up six months later. Weekly e-mail reminders after yoga therapy may have positive effects on general and emotional fatigue and help cancer patients with fatigue establish a regular yoga practice at home. However, higher practice frequency did not lead to higher improvement in physical fatigue as found in Paper 2. This may indicate other factors that influence the efficacy of yoga practice on physical fatigue, such as mindfulness or side effects of therapy. This research project provides insight into the efficacy of yoga therapy for oncology patients with fatigue. It is important that such interventions be offered early, while fatigue symptoms are not too severe. Regular guided yoga practice can reduce physical fatigue, but subsequent yoga practice at home does not further reduce physical fatigue. Reminder emails after completed yoga therapy could only reduce patients' emotional fatigue. It may be that physical fatigue was reduced as much as possible by the previous yoga therapy and that there was a floor effect, or it may be that reminder emails are not suitable as an intervention to reduce physical fatigue at all. Further research is needed to examine the mechanisms of the different interventions in more detail and to find appropriate interventions that reduce all levels of fatigue equally.}, subject = {Erm{\"u}dungssyndrom}, language = {en} } @phdthesis{Grebinyk2021, author = {Grebinyk, Anna}, title = {Synergistic Chemo- and Photodynamic Treatment of Cancer Cells with C\(_{60}\) Fullerene Nanocomplexes}, doi = {10.25972/OPUS-22207}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-222075}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2021}, abstract = {Recent progress in nanotechnology has attracted interest to a biomedical application of the carbon nanoparticle C60 fullerene (C60) due to its unique structure and versatile biological activity. In the current study the dual functionality of C60 as a photosensitizer and a drug nanocarrier was exploited to improve the efficiency of chemotherapeutic drugs towards human leukemic cells. Pristine C60 demonstrated time-dependent accumulation with predominant mitochondrial localization in leukemic cells. C60's effects on leukemic cells irradiated with high power single chip LEDs of different wavelengths were assessed to find out the most effective photoexcitation conditions. A C60-based noncovalent nanosized system as a carrier for an optimized drug delivery to the cells was evaluated in accordance to its physicochemical properties and toxic effects. Finally, nanomolar amounts of C60-drug nanocomplexes in 1:1 and 2:1 molar ratios were explored to improve the efficiency of cell treatment, complementing it with photodynamic approach. A proposed treatment strategy was developed for C60 nanocomplexes with the common chemotherapeutic drug Doxorubicin, whose intracellular accumulation and localization, cytotoxicity and mechanism of action were investigated. The developed strategy was revealed to be transferable to an alternative potent anticancer drug - the herbal alkaloid Berberine. Hereafter, a strong synergy of treatments arising from the combination of C60-mediated drug delivery and C60 photoexcitation was revealed. Presented data indicate that a combination of chemo- and photodynamic treatments with C60-drug nanoformulations could provide a promising synergetic approach for cancer treatment.}, subject = {cancer}, language = {en} } @phdthesis{Koderer2022, author = {Koderer, Corinna}, title = {In Vitro Analyse der Methionin-Restriktion im murinen Modellsystem L929 sowie im Platteneptihelkarzinom - HNSCC}, doi = {10.25972/OPUS-27189}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-271897}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {Die Krebstherapie und Behandlung von Tumoren stellt f{\"u}r die moderne Medizin auch in Zukunft eine enorme Herausforderung dar. Trotz intensiver Forschung konnten in den letzten Jahrzehnten zwar zunehmend Fortschritte erzielt werden, allerdings muss das Spektrum an neuen Therapieformen und M{\"o}glichkeiten kontinuierlich erweitert werden. In den letzten Jahren haben die Kalorienrestriktion sowie die Aminos{\"a}uren- und Proteinrestriktion zunehmend an Bedeutung gewonnen, da sie einen erheblichen positiven Einfluss auf die Entstehung von altersassoziierten Erkrankungen wie z.B. Krebs haben. Allen Formen gemeinsam ist die Induktion eines Low-Energy-Metabolismus, der die Zellen in einen antiproliferativen und selbst-regenerierenden Zustand versetzt. In dieser Arbeit sollte untersucht werden, ob die Methionin-Restriktion als eine Form der Aminos{\"a}urerestriktion sich grunds{\"a}tzlich als Therapieform im Plattenepithelkarzinom (HNSCC) eignet. Zus{\"a}tzlich sollte ein einfaches zellul{\"a}res Modellsystem etabliert werden, das auf metaboler Ebene die Charakterisierung und Analyse des Low-Energy-Metabolismus erm{\"o}glicht. Es konnte aufgezeigt werden, dass die Methionin-Restriktion eine effektive Methode ist, um die Proliferation ausgesuchter Zelllinien des HNSCC zu inhibieren. Des Weiteren konnte aufgezeigt werden, dass der Einsatz von Aminos{\"a}ure-Analoga eine weitere M{\"o}glichkeit darstellt, auf die Proliferation von Tumorzellen Einfluss zu nehmen. Die massenspektrometrische Analyse der murinen Zelllinie L929 mittels LC/MS lieferte {\"u}ber einen Zeitraum von 5 Tagen ein detailliertes Bild des Stoffwechsels von mehr als 150 Metaboliten unter Methionin-Restriktion. Durch die Definition eines charakteristischen Fingerabdrucks nach 48 h und eines nur wenige Metabolite umfassenden Fußabdrucks konnte ein murines Modellsystem etabliert werden, dass die Analyse von potentiellen Wirkstoffen, u.a. sogenannten caloric restriction mimetics, erm{\"o}glicht.}, language = {de} } @phdthesis{Peter2024, author = {Peter, Leslie}, title = {In-vitro-Analyse der Glutamin-Restriktion im murinen Modellsystem L929 sowie des Einflusses potentieller caloric restriction mimetics auf das Plattenepithelkarzinom HNSCC}, doi = {10.25972/OPUS-34962}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-349627}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {Grunds{\"a}tzlich sollte in dieser Arbeit der Einfluss der Glutamin-Restriktion als eine Form der Aminos{\"a}ure-Restriktion auf das Proliferationsverhalten, den Stoffwechsel sowie die Morphologie der murinen Fibroblastenzelllinie L929 untersucht werden. Es sollte dabei auch gezeigt werden, ob sich Indizien f{\"u}r die Induktion eines LEM finden lassen. Weiterhin sollten die Polyamine Spermidin, Spermin, Putrescin und N-Acetylputrescin als CRMs diskutiert und ihr Einfluss auf das Proliferationsverhalten an sieben Zelllinien herausgestellt werden. Der antiproliferative Effekt der Polyamine Spermidin und Spermin auf das Wachstum der untersuchten Zelllinien konnte in dieser Arbeit best{\"a}tigt werden, wobei sich Spermin als potenter erwies als Spermidin. Eine durch Spermidin/Spermin induzierte Autophagie konnte in den Western Blots nicht signifikant nachgewiesen werden. Putrescin und N-Acetylputrescin zeigten nur leichte Wirkungen bei hoher Dosis (10 mM). W{\"a}hrend Putrescin einen leicht antiproliferativen Effekt hatte, zeigte N-Acetylputrescin eine leicht proliferationssteigernde Wirkung. Die Autophagie-Induktion durch Methionin-Restriktion konnte durch den Nachweis Autophagie-assoziierter Proteine in den durchgef{\"u}hrten Western Blots best{\"a}tigt werden. Um regelm{\"a}ßig von den positiven Effekten der Autophagie zu profitieren, w{\"a}re eine pflanzenbasierte Ern{\"a}hrungsweise sinnvoll und gut durchf{\"u}hrbar, da Methionin haupts{\"a}chlich in tierischen Lebensmitteln und nur geringf{\"u}gig in pflanzlichen Nahrungsmitteln vorkommt. Ein v{\"o}lliger Verzicht auf Methionin ist nicht empfehlenswert, da die Aminos{\"a}ure essentiell ist und somit {\"u}ber die Nahrung aufgenommen werden muss. Um das Methionin-Level konstant, aber niedrig zu halten, erscheint eine Bedarfsdeckung {\"u}ber pflanzliche Nahrung als ideal. Die an den Zelllinien L929 und HeLa durchgef{\"u}hrten Proliferationsstudien zeigten, dass die Zellen selbst nach f{\"u}nft{\"a}giger Glutamin- Restriktion geringf{\"u}gig weiter proliferierten und keinerlei Merkmale des Zelltodes aufwiesen. Die massenspektrometrische Analyse der Modellzelllinie L929, welche {\"u}ber einen Zeitraum von f{\"u}nf Tagen einer Glutamin-Restriktion ausgesetzt war, zeigte deutliche metabolische Ver{\"a}nderungen bei den {\"u}ber 150 untersuchten Metaboliten, die auf die Induktion eines LEM schließen lassen. Es konnte ein metabolischer Fingerabdruck nach 48 h f{\"u}r die Zelllinie L929 unter Glutamin-Restriktion definiert werden, der zuk{\"u}nftig als Referenz bei der Testung potentieller CRMs herangezogen werden kann.}, subject = {Plattenepithelcarcinom}, language = {de} }