Refine
Year of publication
- 2014 (4) (remove)
Document Type
- Doctoral Thesis (3)
- Article (1)
Has Fulltext
- yes (4)
Is part of the Bibliography
- no (4)
Keywords
- - (1)
- Heart Failure (1)
- Hefe (1)
- Herzinsuffizienz (1)
- Hyperuricemia (1)
- Komplement (1)
- Pathogenität (1)
- Pneumokokkenoberflächenprotein C (1)
- Proteomanalyse (1)
- Proteomics (1)
Institute
- Institut für Mikrobiologie - Abteilung für Genetik & Biochemie (4) (remove)
Publisher
- S. Karger AG (1)
Transcriptional repression of regulated structural genes in eukaryotes often depends on pleiotropic corepressor complexes. A well-known corepressor conserved from yeast to mammalian systems is Sin3. In addition to Sin3, yeast Cyc8/Tup1 corepressor complex also regulates a diverse set of genes. Both corepressors can be recruited to target genes via interaction with specific DNA-binding proteins, leading to down-regulation of a large number of unrelated structural genes by associated histone deacetylases (HDACs). In vitro interaction studies performed in this work by GST pull-down assays showed that various repressor proteins (such as Whi5, Stb1, Gal80, Rfx1, Ure2, Rdr1, Xbp1, Yhp1, Rox1, Yox1, Dal80 and Mot3) are indeed able to bind pleiotropic corepressors Sin3 and/or Cyc8/Tup1. All repressors interacting with Sin3 contact its paired amphipathic helix domains PAH1 and/or PAH2. Mapping experiments allowed the characterization of minimum repressor domains and to derive a sequence pattern which may be important for repressor interaction with Cyc8 or Sin3. Interactions for some pathway-specific repressors such as Cti6 and Fkh1 have been studied comprehensively; minimal domains of Cti6 and Fkh1 required for interaction with Sin3 have been mapped and subsequently investigated by mutational analysis. In vitro interaction studies could show that amino acids 350-506 of Cti6 bind PAH2 of Sin3. To analyze this Cti6-Sin3 interaction domain (CSID) in more detail, selected amino acids within CSID were replaced by alanine. It turned out that hydrophobic amino acids V467, L481 and L491 L492 L493 are important for Cti6-Sin3 binding. The results of this work also suggest that repression is not executed entirely via Sin3, but rather CSID is also important for contacting pleiotropic corepressor Cyc8. In addition to PAH2 of Sin3, CSID also binds to tetratricopeptide repeats (TPR) of Cyc8. Furthermore, in vitro mapping studies revealed that Fkh1 also binds PAH2 of corepressor Sin3 via its N-terminal domain (aa 51-125). Binding studies with mutagenized Fkh1-Sin3 interaction domain (FSID) showed that Fkh151-125 variants L74A and I78A were unable to bind PAH2 of Sin3. Confirming in vitro studies, Cti6350-506 and Fkh151-125 also displayed in vivo interaction with PAH2 of Sin3 by using the “yeast two -hybrid” system. Chromatin immunoprecipitation (ChIP) analyses have demonstrated Cti6 recruitment to promoters of genes such as RNR3 and SMF3 containing iron responsive elements (IRE). Importantly, Sin3 was also recruited to these promoters but only in the presence of functional Cti6. Similarly, recruitment of Fkh1 and Sin3 to promoters of cell-cycle regulated genes CLB2 and SWI5 was shown. Recruitment of Sin3 was completely Fkh1-dependent. Additional findings of this work shed light on the fact that not only repressor proteins may contact Sin3 but also activator proteins not yet considered for interaction, e. g. specific activators such as Pho4 and Ino2. These findings indicate that Sin3 may fulfill functions beyond acting as a corepressor. In vitro studies on Sin3-Pho4 interaction showed that aa 156-208 of Pho4 are able to bind both PAH1 and PAH2 of Sin3, while an internal region of Ino2 comprising amino acids 119-212 binds to both Sin3 and Cyc8.
Streptococcus pneumoniae (the pneumococcus) is a harmless resident of the human nasopharyngeal cavity, and, in general, every individual is likely to be colonized asymptomatically at least once during life. However, under certain conditions, the bacterium can spread to other tissues and organs causing local, non-invasive infections but also lifethreatening, invasive diseases. Pneumococcal carriage and infection is a highly regulated interplay between pathogen- and host-specific factors and the intimate contact of S. pneumoniae with the surface of the nasopharynx is the crucial step in pneumococcal pathogenesis. Pneumococcal adherence to the respiratory epithelium is mediated by surface-exposed adhesins. These adhesins engage host cell receptors either directly or indirectly by recognizing glycoproteins of the extracellular matrix (ECM) including structural components, such as collagens, laminins, and fibronectins, as well as plasma-derived ECM modulators, like vitronectin and Factor H. Pneumococcal surface protein C (PspC) is a surface-exposed protein and important virulence factor of S. pneumoniae. The multifunctional PspC protein promotes pneumococcal adherence to host cells by interacting with the secretory component of the human polymeric Immunoglobulin receptor of respiratory cells. In addition, PspC facilitates pneumococcal immune evasion by recruiting the complement inhibitor proteins C4b-binding protein (C4BP) and Factor H. Moreover, Factor H bound to the pneumococcal surface promotes bacterial adhesion to human epithelial and endothelial cells. S. pneumoniae also interacts with the human glycoprotein vitronectin. In plasma, monomeric vitronectin regulates thrombosis, fibrinolysis and the terminal complement cascade, while it additionally mediates cell-matrix interactions, cell adhesion and migration in the ECM. It was shown that multimeric, ECM-associated vitronectin facilitates pneumococcal adherence to respiratory epithelial cells. In addition, the interaction of pneumococci with vitronectin promotes their uptake by mucosal epithelial cells via the engagement of the integrin αvβ3 receptor and activation of intracellular signaling pathways culminating in cytoskeletal rearrangements. This study aims to identify and characterize the surface-exposed protein(s) that mediate binding of pneumococci to vitronectin and to elucidate the impact of vitronectin on pneumococcal pathogenesis beyond its function as molecular bridge between pneumococcus and host. Flow cytometric, immunosorbent and surface plasmon resonance experiments revealed that PspC is a vitronectin-binding protein of S. pneumoniae. The specificity of the interaction with vitronectin was confirmed using recombinant PspC proteins and Lactococcus lactis heterologously expressing PspC on their surface. Factor H did not hinder vitronectinbinding to PspC indicating that vitronectin recognizes the central part of PspC. Secretory IgA inhibited but not completely prevented vitronectin-binding to PspC, strongly suggesting that vitronectin binds near, but not directly to, the SC-binding region within the R domain(s) of PspC. In addition, PspC proteins comprising two R domains bound with higher affinity to vitronectin than PspC containing only one R domain, indicating that two interconnected R domains are required for efficient vitronectin-binding. Despite the sequential and structural differences to classical PspC, the PspC-like protein Hic specifically interacted with vitronectin with similar affinity than PspC containing two linked R domains. Binding studies confirmed that Factor H interacts with the very N-terminal region of Hic showing high sequence homology to classical PspC proteins, while vitronectin recognizes an adjacent region in the N-terminal region of Hic. The studied PspC proteins bound to both soluble and immobilized vitronectin, and the C-terminal heparin-binding domain (HBD3) was identified as PspC-binding motif in soluble vitronectin. However, in its immobilized form, vitronectin likely exposes additional binding sites for PspC since a region N-terminally to the identified HBD3 conferred binding of PspC. Vitronectin inhibits the terminal complement pathway, thereby preventing proinflammatory immune reactions and tissue damage. In general, pneumococci are protected from opsonization and MAC-dependent lysis by their capsule. However, pneumococci in close contact to human cells can become susceptible to complement attack due to reduced amounts of capsule. In addition, they can be severely affected by TCC-induced inflammatory responses. Vitronectin bound to PspC significantly inhibited the formation of terminal complement complexes. Thus, the interaction of PspC with vitronectin might aid in immune evasion of S. pneumoniae by inhibiting complement-mediated lysis and/or suppressing proinflammatory events. In conclusion, the results revealed the multifunctional PspC and Hic as vitronectin-binding proteins and proposed a novel role for the specific interaction of S. pneumoniae with vitronectin in regulating the complement cascade, beside its function as molecular bridge to the respiratory epithelium.
Die chronische Herzinsuffizienz (HI) bezeichnet das Unvermögen des Herzens, die vom Körper benötigte Blutmenge bedarfsgerecht zu befördern und stellt in der Allgemeinbevölkerung das Endstadium vieler Herzerkrankungen dar. Trotz großer Fortschritte in der medikamentösen Therapie ist die Prognose der HI auch heute noch schlecht. Der progrediente Verlauf erstreckt sich von einer kompensierten Herzhypertrophie mit aufrechterhaltener Pumpfunktion bis hin zu einer massiven Ventrikeldilatation mit stark eingeschränkter Herzfunktion und weist dementsprechend eine schlechte Prognose auf. Die zellulären Veränderungen auf Protein- und Genexpressionsebene während der Progression einer HI sind sehr komplex und trotz ausgiebiger wissenschaftlicher Arbeiten nicht ausreichend geklärt. Dabei ist es von entscheidender Bedeutung, in welcher Phase der Erkrankung spezifische Änderungen in der Genregulation entstehen und inwiefern sich diese auf den Phänotyp auswirken. Auf Grund dessen beschäftigt sich die vorliegende Arbeit mit den zeitabhängigen Veränderungen auf mRNA-und Proteinebene während der Progression der HI. Um alle Stadien beginnend von einer subklinischen Organschädigung bis hin zur Ausbildung einer HI experimentell untersuchen zu können, wurde zunächst ein Mausmodell etabliert, welches durch eine chronische Nachlasterhöhung mittels Einengung des Aortenlumens eine Myokardschädigung durch eine arterielle Hypertonie simuliert (transverse aortic constriction, TAC). Die Herzfunktion der Mäuse wurde an den postoperativen Tagen 4, 14, 21, 28, 42, und 56 durch Messungen im Kleintier-MRT (Magnetresonanztomografie) evaluiert. Dabei konnte gezeigt werden, dass sich die linksventrikuläre Ejektionsfraktion (LVEF) TAC-operierter Mäuse vom postoperativen Tag 4 zu 14 verschlechtert, bis Tag 42 auf einem konstanten Niveau hält und bis Tag 56 nochmals stark absinkt. Im Gegensatz dazu zeigten Sham-operierte Mäuse über den gesamten Zeitraum eine stabile LVEF. Ein vergleichbarer stufenartiger Verlauf konnte bei den Parametern der linksventrikulären Masse und den endsystolischen bzw. enddiastolischen Volumina beobachtet werden. Zusätzlich konnte durch histologische Untersuchungen zu den verschiedenen postoperativen Zeitpunkten eine verstärkte Fibrosierung des Herzgewebes nach der TAC-OP aufgezeigt werden. Für die longitudinalen Transkriptom- und Proteomuntersuchungen wurden die Herzen (jeweils linke und rechte Ventrikel) nach den MRT-Messungen entnommen, gruppen- und zeitpunktspezifisch gepoolt und einer Microarray- bzw. massenspektrometrischen Analyse unterzogen. Auf Transkriptomebene zeigten sich vor allem an den Tagen 4 und 56 starke TAC-induzierte Veränderungen im Expressionsmuster, wohingegen der Zeitraum zwischen 14 und 42 Tagen weniger differenziell exprimierte Gene aufwies. Der Verlauf der Erkrankung konnte anhand bereits bekannter Hypertrophie- und HI-marker sehr gut charakterisiert werden. So zeigten Nppa (ANP) und Nppb (BNP) im linken Ventrikel bereits kurz nach Aortenstenose stark erhöhte Expressionslevel, die über die gesamte Versuchsdauer erhalten blieben. Weiterhin wurde die Expression von Genen reguliert, die an kardialen Remodelingprozessen maßgeblich beteiligt sind, wie beispielsweise Acta1 (a-Aktin), Myh7 (b-Myosin Heavy Chain) und Postn (Periostin). Im Vergleich beider Ventrikel zeigte der rechte Ventrikel bezüglich der Anzahl der regulierten Gene als auch bei der Expression HI-assoziierter Gene eine verzögerte und weniger stark ausgeprägte Reaktion. In den linken Ventrikeln wurden vor allem die Gene reguliert, deren Genprodukte der extrazelluären Matrix angehören. Eine Validierung der Microarray-Ergebnisse mittels realtime-PCR konnte die Richtigkeit der Analysemethode sehr präzise bestätigen. Da diese anhand ausgewählter Gene auf Einzeltierebene durchgeführt wurde, konnte zusätzlich auf Korrelation zwischen mRNA-Expression und den kardialen Funktionsparametern getestet werden. Wie erwartet spiegelten die Epressionslevel der HI-assozierten Markergene Nppa (ANP), Nppb (BNP) und Myh7 (b-Myosin Heavy Chain) die progressive Verschlechterung der Herzfunktion wider. Zusätzlich konnten durch die Validierung und Korrelationsanalysen weitere interessante Kandidatengene, wie beispielsweise Sfrp2 (Secreted frizzled-related protein 2) und Wisp2 (WNT1-inducible signaling pathway protein 2) für weiterführende Studien identifiziert werden. Auch auf Proteomebene konnten vergleichbare Ergebnisse erzielt werden. Auch hier zeigte der linke Ventrikel eine deutlich ausgeprägtere Reaktion auf die Drucküberlastung, der rechte Ventrikel antwortete deutlich schwächer und verzögert. Änderungen im Proteinmuster nach TAC waren in den linken Ventrikeln vor allem an den Tagen 14, 21 und 28 stark ausgeprägt. Ingenuity Pathway Analysen der veränderten Proteine weisen auf Veränderungen im Kalzium-, Rho A- und PKA-Signaling vor allem zu den frühen Zeitpunkten hin, wohingegen zu späteren Zeitpunkten hauptsächlich metabolische Prozesse betroffen waren.
Purines of exogenous and endogenous sources are degraded to uric acid in human beings. Concentrations >6.8 mg uric acid/dl serum cause hyperuricemia and its symptoms. Pharmaceuticals and the reduction of the intake of purine-rich food are used to control uric acid levels. A novel approach to the latter proposition is the enzymatic reduction of the purine content of food by purine-degrading enzymes. Here we describe the production of recombinant guanine deaminase by the yeast Arxula adeninivorans LS3 and its application in food. In media supplemented with nitrogen sources hypoxanthine or adenine, guanine deaminase (AGDA) gene expression is induced and intracellular accumulation of guanine deaminase (Agdap) protein occurs. The characteristics of the guanine deaminase isolated from wild-type strain LS3 and a transgenic strain expressing the AGDA gene under control of the strong constitutive TEF1 promoter were determined and compared. Both enzymes were dimeric and had temperature optima of 55°C with high substrate specificity for guanine and localisation in both the cytoplasm and vacuole of yeast. The enzyme was demonstrated to reduce levels of guanine in food. A mixture of guanine deaminase and other purine degradation enzymes will allow the reduction of purines in purine-rich foods.