@phdthesis{Wu2013,
  author    = {Wu, Lingdan},
  title     = {Emotion Regulation in Addicted Smokers},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-85471},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2013},
  abstract  = {Background: Nicotine addiction is the most prevalent type of drug addiction that has been described as a cycle of spiraling dysregulation of the brain reward systems. Imaging studies have shown that nicotine addiction is associated with abnormal function in prefrontal brain regions that are important for cognitive emotion regulation. It was assumed that addicts may perform less well than healthy nonsmokers in cognitive emotion regulation tasks. The primary aims of this thesis were to investigate emotional responses to natural rewards among smokers and nonsmokers and to determine whether smokers differ from nonsmokers in cognitive regulation of positive and negative emotions. To address these aims, two forms of appraisal paradigms (i.e., appraisal frame and reappraisal) were applied to compare changes in emotional responses of smokers with that of nonsmokers as a function of appraisal strategies. Experiment 1: The aim of the first experiment was to evaluate whether and how appraisal frames preceding positive and negative picture stimuli affect emotional experience and facial expression of individuals. Twenty participants were exposed to 125 pairs of auditory appraisal frames (either neutral or emotional) followed by picture stimuli reflecting five conditions: unpleasant-negative, unpleasant-neutral, pleasant-positive, pleasant-neutral and neutral-neutral. Ratings of valence and arousal as well as facial EMG activity over the corrugator supercilii and the zygomaticus major were measured simultaneously. The results indicated that appraisal frames could alter both subjective emotional experience and facial expressions, irrespective of the valence of the pictorial stimuli. These results suggest and support that appraisal frame is an efficient paradigm in regulation of multi-level emotional responses. 8 Experiment 2: The second experiment applied the appraisal frame paradigm to investigate how smokers differ from nonsmokers on cognitive emotion regulation. Sixty participants (22 nonsmokers, 19 nondeprived smokers and 19 12-h deprived smokers) completed emotion regulation tasks as described in Experiment 1 while emotional responses were concurrently recorded as reflected by self-ratings and psychophysiological measures (i.e., facial EMG and EEG). The results indicated that there was no group difference on emotional responses to natural rewards. Moreover, nondeprived smokers and deprived smokers performed as well as nonsmokers on the emotion regulation task. The lack of group differences in multiple emotional responses (i.e., self-reports, facial EMG activity and brain EEG activity) suggests that nicotine addicts have no deficit in cognitive emotion regulation of natural rewards via appraisal frames. Experiment 3: The third experiment aimed to further evaluate smokers' emotion regulation ability by comparing performances of smokers and nonsmokers in a more challenging cognitive task (i.e., reappraisal task). Sixty-five participants (23 nonsmokers, 22 nondeprived smokers and 20 12-h deprived smokers) were instructed to regulate emotions by imagining that the depicted negative or positive scenario would become less negative or less positive over time, respectively. The results showed that nondeprived smokers and deprived smokers responded similarly to emotional pictures and performed as well as nonsmokers in down-regulating positive and negative emotions via the reappraisal strategy. These results indicated that nicotine addicts do not have deficit in emotion regulation using cognitive appraisal strategies. In sum, the three studies consistently revealed that addicted smokers were capable to regulate emotions via appraisal strategies. This thesis establishes the groundwork for therapeutic use of appraisal instructions to cope with potential self-regulation failures in nicotine addicts.},
  subject      = {Gef{\"u}hl},
  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{Srinivasan2013,
  author    = {Srinivasan, Aruna},
  title     = {RS1 protein dependent and independent short and long term regulation of sodium dependent glucose transporter -1},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-85665},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2013},
  abstract  = {The Na+-D-glucose cotransporter in small intestine is regulated in response to food composition. Short term regulation of SGLT1 occurs post-transcriptionally in response to changes in luminal glucose. Adaptation to dietary carbohydrate involves long term regulation at the transcriptional level. The intracellular protein RS1 (gene RSC1A1) is involved in transcriptional and post-transcriptional regulation of SGLT1. RS1 contains an N-terminal domain with many putative phosphorylation sites. By Expressing SGLT1 in oocytes of Xenopus laevis it was previously demonstrated that the post-transcriptional down-regulation of SGLT1 by RS1 was dependent on the intracellular glucose concentration and activated by protein kinase C (PKC). The role of RS1 for short term regulation of SGLT1 in mouse small intestine in response to glucose and PKC was investigated comparing effects in RS1-/- mice and wildtype mice. Effects on SGLT1 activity were determined by measuring phlorizin inhibited uptake of α-methylglucoside (AMG). The involvement of RS1 in glucose dependent short term regulation could not be elucidated for technical reasons. However, evidence for RS1 independent short-term downregulation of SGLT1 after stimulation of PKC could be provided. It was shown that this downregulation includes decrease in the amount and/or in turnover of SGLT1 in the brush-border membrane as well as an increase of substrate affinity for AMG transport. Trying to elucidate the role of RS1 in long term regulation of SGLT1 in small intestine in response to glucose and fat content of the diet, wildtype and RS1-/- mice were kept for 2 months on a normo-caloric standard diet with high glucose and low fat content (ND), on a hyper-caloric glucose-galactose reduced diet with high fat content (GGRD) or on a hyper-caloric diet with a high fat and high glucose content (HFHGD). Thereafter the animals were starved overnight and SGLT1 mediated AMG uptake was measured. Independent of diet AMG uptake in ileum was smaller compared to duodenum and jejunum. In jejunum of wildtype and RS1-/- mice kept on the fat rich diets (GGRD and HFHGH) transport activity of SGLT1 was lower compared to mice kept on ND with low fat content. This result suggests an RS1 independent downregulation due to fat content of diet. Different to RS1-/- mice, the duodenum of wildtype mice showed transport activity of SGLT1 smaller in mice kept on glucose galactose reduced diet (GGRD) compared to the glucose galactose rich diets (ND and HFHGG). These data indicate that RS1 is involved in glucose dependent long term regulation in duodenum.},
  subject      = {Glucosetransportproteine},
  language  = {en}
}
@phdthesis{Spannaus2015,
  author    = {Spannaus, Ralf},
  title     = {Regulation der foamyviralen Proteaseaktivit{\"a}t},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-113401},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2015},
  abstract  = {Alle Retroviren prozessieren ihre Pol- und Strukturproteine mit Hilfe der viralen Protease. In dieser Arbeit wurden zentrale Mechanismen der Regulation der foamyviralen Protease untersucht und charakterisiert. Dazu wurde eine chromatographische Virusreinigungsmethode entwickelt und die relative Pol- und Env-Enkapsidierung bestimmt. Foamyviren enthalten weniger Pol als andere Retroviren aber deutlich mehr Env als humane Immunodefizienzviren. Die Pol-Inkorporation k{\"o}nnte durch die limitierte Prozessierung mit nur einer einzigen Schnittstelle in Gag und Pol kompensiert werden. Deshalb wurde untersucht, ob die foamyvirale Protease ein beschr{\"a}nktes Schnittstellenrepertoire aufweist. In Zellkulturen sind die Schnitt-stellenpositionen P2' und P2 auf die Aminos{\"a}urereste Valin und Valin/Asparagin beschr{\"a}nkt. Demnach hat die foamyvirale Protease ein eingeschr{\"a}nkteres Schnittstellenrepertoire als die Protease des humanen Immunodefizienzvirus. Weiterhin wurde hier gezeigt, dass die vollst{\"a}ndige reverse Transkription die Prozessierung von Gag voraussetzt und Proteaseaktivit{\"a}t-defiziente oder Gag-Schnittstellen-defiziente Viren keine vollst{\"a}ndige cDNA bilden k{\"o}nnen. Demnach kompensieren Foamyviren die niedrige Proteasekonzentration, indem sie sicherstellen, dass die reverse Transkription erst nach der Gag-Maturation vollendet werden kann. Weiterhin wird bei humanen Immunodefizienzviren durch die Gag-Maturation die essenzielle Mobilit{\"a}t der wenigen Env-Trimere auf der H{\"u}llmembran getriggert. Die erstmals in dieser Arbeit bei Foamyviren quantifizierte Env-Menge ergab, dass Foamyviren 28 mal mehr Env- pro Gag-Molek{\"u}l als humane Immunodefizienzviren besitzen. Wahrscheinlich dient dieser hohe Env-Gehalt der Kompensation der eingeschr{\"a}nkten Env-Mobilit{\"a}t, die durch die limitierte Gag-Prozessierung an nur einer carboxyterminalen Schnittstelle verursacht wird. Da f{\"u}r die Aktivierung der foamyviralen Protease virale Ribonukleins{\"a}ure ben{\"o}tigt wird, wurde untersucht, welche Pol-Dom{\"a}nen f{\"u}r die Aktivierung der Protease ben{\"o}tigt werden. Im Gegensatz zur Integrase, deren Deletion in reduzierter Proteaseaktivit{\"a}t resultierte, war die funktionelle RNaseH-Dom{\"a}ne essenziell f{\"u}r die Gag-Prozessierung. Die Substitution der foamyviralen RNaseH durch RNaseH-Dom{\"a}nen von anderen Retroviren resultierte in genomunabh{\"a}ngiger Proteaseaktivit{\"a}t in Zellen und genomabh{\"a}ngiger Proteaseaktivit{\"a}t in den rekombinanten Viren. Demnach scheint die dimerstabilisierende Funktion der RNaseH durch direkte Protein-Protein-Interaktion oder durch unspezifische RNA-Bindung verursacht zu werden.},
  subject      = {Spumaviren},
  language  = {de}
}
@phdthesis{PremachandranNair2014,
  author    = {Premachandran Nair, Anoop Chandran},
  title     = {Identification and functional characterization of TGF-β inducible, immunosuppressive miRNAs in human CD8+ T cells},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-109741},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2014},
  abstract  = {While TGF-β is able to regulate miRNA expression in numerous cell types, TGF-β-dependent changes in the miRNA profile of CD8+ T cells had not been studied before. Considering that TGF-β suppresses CD8+ T cell effector functions in numerous ways, we wondered whether induction of immune-regulatory miRNAs could add to the known transcriptional effects of TGF-β on immune effector molecules. In this study, we used miRNA arrays, deep sequencing and qRT-PCR to identify miRNAs that are modulated by TGF-β in human CD8+ T cells. Having found that the TGF-β-dependent downregulation of NKG2D surface expression in NK cells and CD8+ T cells does not go along with a corresponding reduction in mRNA levels, this pathway appeared to be a possible target of TGF-β-inducible miRNAs. However, this hypothesis could not be confirmed by miRNA reporter assays. Instead, we observed that DAP10 transcription is suppressed by TGF-β which in turn negatively affects NKG2D surface expression. In spite of promising preliminary experiments, technical difficulties associated with the transfection of primary NK cells and NK cell lines unfortunately precluded the final proof of this hypothesis. Instead, we focused on the TGF-β-induced changes in the miRNome of CD8+ T cells and confirmed the induction of the miR-23a cluster members, namely miR-23a, miR-27a and miR-24 by three different techniques. Searching for potential targets of these miRNAs which could contribute to the immunosuppressive action of TGF-β in T cells, we identified and confirmed a previously unknown regulation of IFN-γ mRNA by miR-27a and miR-24. Newly generated miRNA reporter constructs further revealed that LAMP1 mRNA is a target of miR-23a. Upon modulation of the miR-23a cluster in CD8+ T cells by the respective miRNA antagomirs and mimics, significant changes in IFN-γ expression confirmed the functional relevance of our findings. Effects on CD107a/LAMP1 expression were, in contrast, rather minimal. Still, overexpression of the miR-23a cluster attenuated the cytotoxic activity of antigen-specific CD8+ T cells. Taken together, these functional data reveal that the miR-23a cluster not only is induced by TGF-β, but also exerts a suppressive effect on CD8+ T-cell effector functions, even in the absence of TGF-β signaling.},
  subject      = {Transforming Growth Factor beta},
  language  = {en}
}
@phdthesis{LiessneeEller2021,
  author    = {Liess [n{\´e}e Eller], Anna Katharina Luise},
  title     = {Understanding the regulation of the ubiquitin-conjugating enzyme UBE2S},
  doi       = {10.25972/OPUS-20419},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-204190},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2021},
  abstract  = {The ubiquitination of proteins serves as molecular signal to control an enormous number of physiological processes and its dysregulation is connected to human diseases like cancer. The versatility of this signal stems from the diverse ways by which ubiquitin can be attached to its targets. Thus, specificity and tight regulation of the ubiquitination are pivotal requirements of ubiquitin signaling. Ubiquitin-conjugating enzymes (E2s) act at the heart of the ubiquitination cascade, transferring ubiquitin from a ubiquitin-activating enzyme (E1) to a ubiquitin ligase (E3) or substrate. When cooperating with a RING-type E3, ubiquitin-conjugating enzymes can determine linkage specificity in ubiquitin chain formation. Our understanding of the regulation of E2 activities is still limited at a structural level. The work described here identifies two regulation mechanisms in UBE2S, a cognate E2 of the human RING-type E3 anaphase-promoting complex/cyclosome (APC/C). UBE2S elongates ubiquitin chains on APC/C substrates in a Lys11 linkage-specific manner, thereby targeting these substrates for degradation and driving mitotic progression. In addition, UBE2S was found to have a role in DNA repair by enhancing non-homologous end-joining (NHEJ) and causing transcriptional arrest at DNA damage sites in homologous recombination (HR). Furthermore, UBE2S overexpression is a characteristic feature of many cancer types and is connected to poor prognosis and diminished response to therapy. The first regulatory mechanism uncovered in this thesis involves the intramolecular auto-ubiquitination of a particular lysine residue (Lys+5) close to the active site cysteine, presumably through conformational flexibility of the active site region. The Lys+5-linked ubiquitin molecule adopts a donor-like, 'closed' orientation towards UBE2S, thereby conferring auto-inhibition. Notably, Lys+5 is a major physiological ubiquitination site in ~25\% of the human E2 enzymes, thus providing regulatory opportunities beyond UBE2S. Besides the active, monomeric state and the auto-inhibited state caused by auto-ubiquitination, I discovered that UBE2S can adopt a dimeric state. The latter also provides an auto-inhibited state, in which ubiquitin transfer is blocked via the obstruction of donor binding. UBE2S dimerization is promoted by its unique C-terminal extension, suppresses auto-ubiquitination and thereby the proteasomal degradation of UBE2S. Taken together, the data provided in this thesis illustrate the intricate ways by which UBE2S activity is fine-tuned and the notion that structurally diverse mechanisms have evolved to restrict the first step in the catalytic cycle of E2 enzymes.},
  subject      = {E2},
  language  = {en}
}
@phdthesis{Friedrich2015,
  author    = {Friedrich, Alexandra},
  title     = {Beeinflussung des Na+-D-Glukose-Kotransporters SGLT1 und der Na+-Nukleosidtransporter CNT durch Peptidmotive des Regulatorproteins RS1 im Darm},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-127394},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2015},
  abstract  = {Der Natrium-D-Glukose Kotransporter 1 (SGLT1) spielt eine wichtige Rolle bei der Aufnahme von Glukose aus dem Darmlumen in die Enterozyten des Darms. Anhand von Untersuchungen an Xenopus laevis-Oozyten konnte in unserem Labor das Protein RS1 als posttranslationales Regulatorprotein f{\"u}r SGLT1 und diverse andere Transporter ermittelt werden. Es wurde eine regulatorische Dom{\"a}ne aus RS1 mit vielen potentiellen Phosphorylierungsstellen isoliert (RS1-Reg) und gezeigt dass RS1-Reg die Abschn{\"u}rung von Transporter enthaltenen Vesikeln vom Transgolgi-Netzwerk hemmt. Neben SGLT1 reguliert RS1 auch die konzentrierenden Nukleosidtransporter (CNTs) am TGN. Die Regulation der Transporter ist vom Phosphorylierungszustand von RS1-Reg abh{\"a}ngig. So wurde durch Versuche an Oozyten von Xenopus laevis und Injektion von RS1-Reg Mutanten gezeigt, dass die Phosphorylierung von RS1-Reg an einigen Stellen zu einer Inhibition von SGLT1 f{\"u}hrte, w{\"a}hrend der Nukleosidtransporter CNT1 durch die dephosphorylierte Mutante herunterreguliert wurden. Neben der phosphorylierungsabh{\"a}ngigen Regulation konnte f{\"u}r SGLT1 auch gezeigt werden, dass die Herunterregulation nur unter Niedrigzucker-Bedingungen erfolgte, nicht jedoch bei hohen Glukosekonzentrationen. F{\"u}r die CNTs war eine derartige Zuckerabh{\"a}ngigkeit nicht zu beobachten. Im Rahmen der vorliegenden Studie wurde untersucht, ob die Ergebnisse aus den Oozytenmessungen auch in vivo in einem S{\"a}ugetier gezeigt werden k{\"o}nnen. Hierzu wurden Mutanten der regulatorischen Dom{\"a}ne (RS1-Reg) des Maus-Proteins, welche den phosphorylierten Zustand simulierten (RS1-Reg (S19E)), oder die Phosphorylierung verhinderten (RS1-Reg (S19A)) eingesetzt. Diese wurden an ein Nanohydrogel gekoppelt, um eine Aufnahme in die Enterozyten im Darm zu gew{\"a}hrleisten. Es wurde in der RS1KO-Mausohne funktionelles RS1 gezeigt, dass auch im in vivo-System eine Herunterregulation von SGLT1 durch mRS1-Reg (S19E), nicht jedoch durch mRS1-Reg (S19A) erfolgte, w{\"a}hrend die CNTs nur durch mRS1-Reg (S19A) inhibiert wurden. Des Weiteren f{\"u}hrte mRS1-Reg (S19A) in der Wildtypmaus bei niedrigen Zuckerkonzentrationen zu einer Stimulation von SGLT1, was f{\"u}r eine Kompetition mit dem endogenen RS1-Proteins spricht. Es konnte indirekt der Beweis erbracht werden, dass {\"u}ber Nanohydrogele l{\"a}ngere Proteine in die Zelle gebracht werden k{\"o}nnen und dort funktionell freigesetzt werden.},
  subject      = {Glucosetransport},
  language  = {de}
}
@phdthesis{Filatova2009,
  author    = {Filatova, Alina},
  title     = {Mechanism and Control of Nuclear-Cytoplasmic Translocation of the Transporter Regulator RS1},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-38512},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2009},
  abstract  = {Das RS1 Protein (Gen RSC1A1) beteiligt sich an der Regulation des Na+-D-Glukose-kotransporters SGLT1 und einiger anderer Transporter. In subkonfluenten LLC-PK1 Zellen hemmt RS1 die Freisetzung von SGLT1 aus dem trans-Golgi-Netzwerk und die Transkription von SGLT1. W{\"a}hrend es sich in konfluenten Zellen haupts{\"a}chlich im Zytoplasma befindet, ist RS1 in subkonfluenten Zellen im Kern und im Zytoplasma lokalisiert. In der vorliegenden Arbeit wurden Mechanismus und Regulation der konfluenzabh{\"a}ngigen Kernlokalisation von RS1 untersucht. Dabel konnte gezeigt werden, dass die von Konfluenz abh{\"a}ngige Kernlokalisation von RS1 durch den Zellzyklus reguliert wird. In RS1 aus Sus scrofa (pRS1) wurde eine Sequenz identifiziert („nuclear shuttling signal", NS), die f{\"u}r die konfluenzabh{\"a}ngige Verteilung von RS1 verantwortlich ist und sowohl das Signal f{\"u}r die Kernlokalisation (NLS) als auch das Signal f{\"u}r den Export aus dem Kern (NES) beinhaltet. Die NLS und NES Signale von RS1 vermitteln die Translokation des Proteins in den Kern und aus dem Kern mit Hilfe von Importin \&\#946;1 bzw. CRM1, wobei die Verteilung von RS1 zwischen Kern und Zytoplasma durch die Aktivit{\"a}t des Exportsystems bestimmt wird. Es wurde gezeigt, dass die benachbarte Proteinkinase C (PKC) Phosphorylierungsstelle an Serin 370 von pRS1 die NS-gesteuerte Kernlokalisierung kontrolliert und f{\"u}r die vom Zellzyklus abh{\"a}ngige Kernlokalisation notwendig ist. Aufgrund der Ergebnisse der ortsgerichteten Mutagenese, PKC-Aktivierungsexperimenten und Massenspektrometrie-Analyse des Phosphorylierungsmusters von RS1 wurde ein Modell vorgeschlagen, das die Regulation der Kernlokalisation des RS1 Proteins in LLC-PK1 Zellen beschreibt. Dem Modell zufolge wird RS1 in subkonfluenten Zellen stark in den Kern bef{\"o}rdert, w{\"a}hrend der Export von RS1 aus dem Kern nicht stattfindet. Das f{\"u}hrt zur Anreicherung von RS1 im Kern. Nach Konfluenz wird Serin 370 durch PKC phosphoryliert, was die Steigerung des RS1-Exports aus dem Kern beg{\"u}nstigt und die {\"u}berwiegend zytoplasmatische Lokalisation des Proteins in konfluenten Zellen hervorruft. Die konfluenzabh{\"a}ngige Regulation der Lokalisation von RS1 kann die Expression von SGLT1 w{\"a}hrend der Regeneration von Enterozyten im D{\"u}nndarm und der Regeneration von Zellen der Nierentubuli nach hypox{\"a}mischem Stress kontrollieren. Außerdem deutet die Analyse der Genexpression in embryonalen Fibroblasten der RS-/- M{\"a}use deutet darauf hin, dass die transkriptionale Regulation durch RS1 im Zellzyklus und bei der Zellteilung eine wichtige Rolle spielen kann. Da die Lokalisation von RS1 zellzyklusabh{\"a}ngig ist, kann RS1 f{\"u}r die Regulation der Transporter in spezifischen Phasen des Zellzyklus wichtig sein.},
  subject      = {RS1},
  language  = {en}
}
@phdthesis{Engelmann2023,
  author    = {Engelmann, Daria Marie},
  title     = {Regulation of Mammalian Phosphoglycolate Phosphatase},
  doi       = {10.25972/OPUS-19957},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-199577},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2023},
  abstract  = {Mammalian phoshoglycolate phosphatase (PGP, also known as AUM) belongs to the ubiquitous HAD superfamily of phosphatases. As several other members of HAD phosphatases, the Mg2+-dependent dephosphorylation is conducted via a nucleophilic attack from a conserved aspartate residue in the catalytic cleft. The protein structure of PGP could not yet be solved entirely. Only a hybrid consisting of the PGP cap and the PDXP core (pyridoxal phosphatase, closest enzyme paralog) was crystallizable so far. PGP is able to efficiently dephosphorylate 2-phosphoglycolate, 2-phospho-L-lactate, 4-phospho-D-erythronate, and glycerol-3-phosphate in vitro which makes them likely physiological substrates. The first three substrates can be derived from metabolic side reactions (during glycolysis) and inhibit key enzymes in glycolysis and pentose phosphate pathway, the latter is situated at the intersection between glycolysis and lipogenesis. 2-phosphoglycolate can also be released in the context of repair of oxidative DNA damage. The activity of purified PGP can be reversibly inhibited by oxidation - physiologically likely in association with epidermal growth factor (EGF) signal transduction. In fact, an association between persistently lacking PGP activity (via downregulation) and the presence of hyperphosphorylated proteins after EGF stimulation has been identified. Reversible oxidation and transient inactivation of PGP may be particularly important for short-term and feedback regulatory mechanisms (as part of the EGF signaling). Furthermore, cellular proliferation in PGP downregulated cells is constantly reduced. Whole-body PGP inactivation in mice is embryonically lethal. Despite the many well-known features and functions, the knowledge about PGP is still incomplete. In the present work the influence of reactive oxygen species (ROS) on PGP activity in cells und a possible connection between oxidative stress and the proliferation deficit of PGP downregulated cells was investigated. For the experiments, a spermatogonial cell line was used (due to the high PGP expression in testis). PGP activity can be reversibly inhibited in cellular lysates by H2O2 (as a ROS representative). Reversible oxidation could thus indeed be physiologically important. More oxidative DNA damage (by bleomycin) showed no PGP-dependent effects here. EGF stimulation (as an inducer of transient and well-controlled ROS production), low concentrations of menadione (as an oxidant) and N-acetylcysteine (as an antioxidant) were able to approximate the proliferation rate in PGP downregulated cells to that of control cells. The redox regulation of PGP could thus have an influence on cellular proliferation as a feedback mechanism - a mechanism that could not take place in PGP downregulated cells. However, the connections are probably even more complex and cannot be elucidated by a sole examination of the proliferation rate. The present results can thus only be regarded as preliminary experiments. For a better understanding of the features and functions of PGP, this work then focused on specific regulation of enzyme activity by pharmacologically applicable small molecules. Four potent inhibitors had previously been identified in a screening campaign. In this work, three of these four inhibiting compounds could be further characterized in experiments with highly purified, recombinant murine and human PGP. Compounds \#2 and \#9 showed competitive inhibition properties with a markedly rising KM value with little or no change in vmax. The results were consistent for all tested protein variants: the murine and the human PGP as well as a PGP/PDXP hybrid protein. Compound \#1 was the most potent and interesting PGP-inhibitory molecule: less change in KM and a constant decrease in vmax as well as a lower impact on the PGP/PDXP hybrid hint at a mixed mode of inhibition as a combination of competitive and non-competitive inhibition. The characterization of the potential inhibitors can serve as a basis for further structural analysis and studies on the complex physiological role of PGP.},
  subject      = {Phosphoglykolatphosphatase},
  language  = {en}
}
@phdthesis{Dunkel2013,
  author    = {Dunkel, Nico},
  title     = {Regulation of virulence-associated traits of the human fungal pathogen Candida albicans by nitrogen availability},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-83076},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2013},
  abstract  = {Nitrogen-regulated pathogenesis describes the expression of virulence attributes as direct response to the quantity and quality of an available nitrogen source. As consequence of nitrogen availability, the opportunistic human fungal pathogen Candida albicans changes its morphology and secretes aspartic proteases [SAPs], both well characterized virulence attributes. C. albicans, contrarily to its normally non-pathogenic relative Saccharomyces cerevisiae, is able to utilize proteins, which are considered as abundant and important nitrogen source within the human host. To assimilate complex proteinaceous matter, extracellular proteolysis is followed by uptake of the degradation products through dedicated peptide transporters (di-/tripeptide transporters [PTRs] and oligopeptide transporters [OPTs]). The expression of both traits is transcriptionally controlled by Stp1 - the global regulator of protein utilization - in C. albicans. The aim of the present study was to elucidate the regulation of virulence attributes of the pathogenic fungus C. albicans by nitrogen availability in more detail. Within a genome wide binding profile of Stp1, during growth with proteins, more than 600 Stp1 target genes were identified, thereby confirming its role in the usage of proteins, but also other nitrogenous compounds as nitrogen source. Moreover, the revealed targets suggest an involvement of Stp1 in the general adaption to nutrient availability as well as in the environmental stress response. With the focus on protein utilization and nitrogen-regulated pathogenesis, the regulation of the major secreted aspartic protease Sap2 - additionally one of the prime examples of allelic heterogeneity in C. albicans - was investigated in detail. Thereby, the heterogezygous SAP2 promoter helped to identify an unintended genomic alteration as the true cause of a growth defect of a C. albicans mutant. Additionally, the promoter region, which was responsible for the differential activation of the SAP2 alleles, was delimited. Furthermore, general Sap2 induction was demonstrated to be mediated by distinct cis-acting elements that are required for a high or a low activity of SAP2 expression. For the utilization of proteins as nitrogen source it is also crucial to take up the peptides that are produced by extracellular proteolysis. Therefore, the function and importance of specific peptide transporters was investigated in C. albicans mutants, unable to use peptides as nitrogen source (opt1Δ/Δ opt2Δ/Δ opt3Δ/Δ opt4Δ/Δ opt5Δ/Δ ptr2Δ/Δ ptr22Δ/Δ septuple null mutants). The overexpression of individual transporters in these mutants revealed differential substrate specificities and expanded the specificity of the OPTs to dipeptides, a completely new facet of these transporters. The peptide-uptake deficient mutants were further used to elucidate, whether indeed proteins and peptides are an important in vivo nitrogen source for C. albicans. It was found that during competitive colonization of the mouse intestine these mutants exhibited wild-type fitness, indicating that neither proteins nor peptides are primary nitrogen sources required to efficiently support growth of C. albicans in the mouse gut. Adequate availability of the preferred nitrogen source ammonium represses the utilization of proteins and other alternative nitrogen sources, but also the expression of virulence attributes, like Sap secretion and nitrogen-starvation induced filamentation. In order to discriminate, whether ammonium availability is externally sensed or determined inside the cell by C. albicans, the response to exterior ammonium concentrations of ammonium-uptake deficient mutants (mep1Δ/Δ mep2Δ/Δ null mutants) was investigated. This study showed that presence of an otherwise suppressing ammonium concentration did not inhibit Sap2 proteases secretion and arginine-induced filamentation in these mutants. Conclusively, ammonium availability is primarily determined inside the cell in order to control the expression of virulence traits. In sum, the present work contributes to the current understanding of how C. albicans regulates expression of virulence-associated traits in response to the presence of available nitrogen sources - especially proteins and peptides - in order to adapt its lifestyle within a human host.},
  subject      = {Candida albicans},
  language  = {en}
}