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Das Bovine Virale Diarrhoe Virus (BVDV) gehört zum Genus Pestivirus innerhalb der Familie der Flaviviridae. BVDV verursacht eine gefährliche Durchfallerkrankung bei Rindern,
besonders Kälbern, die Bovine Virusdiarrhoe (Mucosal Disease). BVDV gehört zu den einzelsträngigen RNA-Viren und ist eng verwandt mit dem Erreger der Klassischen Schweinepest sowie der Border Disease der Schafe. Wie andere Pestiviren, ist BVDV ein behülltes Virus, auf dessen Hülle drei Strukturproteine (Erns, E1 und E2) zu finden sind. In dieser Arbeit wurden die Glykoproteine E1 und E2 genauer charakterisiert, um Hinweise auf den Mechanismus der Knospung (Budding) von Pestiviren zu erhalten. Dazu ist die subzelluläre Lokalisation, die Topologie sowie der Retentionsmechanismus für E1 und E2 genauer untersucht worden. Die subzelluläre Lokalisation der Hüllproteine wurde mit Hilfe von Kolokalisationsanalysen mit spezifischen Kompartimentmarkerproteinen bestimmt. Sowohl als Einzelexpression als auch nach Expression als E1-E2-Vorläuferprotein zeigte sich eine Anreicherung der beiden Proteine vorwiegend im ER. Die Lokalisationsanalyse E2s in mit verschiedenen BVDV-Stämmen infizierten Zellen zeigte ein sehr ähnliches Bild wie die Einzelexpression. Die, die intrazelluläre Retention vermittelnden, Regionen wurden zunächst mit CD72-Fusionsproteinen eingegrenzt und zeigten, dass die Transmembrandomänen der Proteine für die Retention entscheidend waren.
Anhand verschiedenster Mutanten, welche Substitutionen, Insertionen und Deletionen im Bereich des C-Terminus von CD72-E1 bzw. E2 (ohne CD72-Fusionspartner) beinhalteten,
konnten einzelne Aminosäuren identifiziert werden, die essentiell für die Retention sind oder diese zumindest beeinflussen. Für E2 konnte das Arginin an Position 355 als wichtig für die Retention bestätigt und weiterführend untersucht werden. Mit Mutationen des Glutamins an Position 370 konnte außerdem der modulierende Effekt des cytoplasmatischen Rests auf die Retention E2s gezeigt werden. Die Retention von E1 ist unabhängig von der Länge der TMD und wird durch mehrere polare Aminosäuren (K174, R177, Q182) beeinflusst. Die Topologieuntersuchungen
für E1 und E2 nach Einzelexpression mit Tag-markierter Proteinvarienten zeigte, dass die reifen Proteine eine einspännige Transmembrandomäne mit dem N-Terminus auf der luminalen und dem C-Terminus auf der cytosolischen Seite des ERs besitzen.
Phylogeny of the Koi herpesvirus and development of a vaccine against the Koi herpesvirus disease
(2019)
The aim of this presented dissertation was a stable, live attenuated and protective KHV usable as vaccine. Moreover this vaccine should by cost effective and easy to apply. Differentiation of infected and vaccinated animals was preferred by genetic and / or serological means. After achieving an attenuated virus, whole genome sequencing should be done to examine the genetic of the vaccine as one feature of biosafety. Besides biosafety additional knowledge on the virulence of Alloherpesviruses, especially of KHV was anticipated. Additionally the diagnostics of KHV and KHVD should be improved to increase reliability and to gain more insights into the relationship of different KHVs and hopefully to detect the source of an outbreak.
Die Afrikanische Schweinepest (ASP) ist eine Viruserkrankung, die Mitglieder der Suidae-Familie wie Buschschweine, Warzenschweine, Hausschweine und Wildschweine befällt. Das Virus wird durch direkten Kontakt zwischen infizierten und naiven Tieren, durch Zecken der Gattung Ornithodoros oder durch Kontakt mit kontaminiertem Material übertragen. Während die Krankheit bei Warzenschweinen und Buschschweinen im Allgemeinen asymptomatisch verläuft, verursacht die ASP eine hohe Mortalität bei Hausschweinen und Wildschweinen. Daher ist die jüngste Ausbreitung von ASP in Europa eine ernste Bedrohung für die Schweinehaltung in der EU. Bis heute ist keine wirksame Behandlung oder Impfung verfügbar. Und es liegen nur wenige Informationen über Virus-Wirt-Wechselwirkungen vor, die als Grundlage für die Etablierung antiviraler Strategien verwendet werden könnten.
Das Virus der afrikanischen Schweinepest (African swine fever virus, ASFV) ist der einzige bekannte Vertreter der Familie der Asfarviridae. Das DNA-Genom des ASFV kodiert für über 150 Gene. Über die Expressionsprodukte ist wenig bekannt, nur wenige virale Proteine sind bisher funktionell charakterisiert. Die Morphogenese von ASFV ist sehr komplex. So entstehen neben den zweifach umhüllten reifen extrazellulären Virionen auch einfach umhüllte intrazelluläre Partikel, die die die Präparation reiner extrazellulären Virionen erschweren.
In früheren in vitro Studien wurde die Zusammensetzung der extrazellulären Viruspartikel mittels 2D-Gelelektrophorese analysiert. Die Reinigung erfolgte über ein im Jahre 1985 veröffentlichtes Reinigungsprotokoll, welches auf einer Percolldichtegradientenzentrifugation und einer Gelchromatographie basierte. Das Protokoll wurde für die Reinigung des auf Vero-zellen adaptierten Virusstamm Ba-71V etabliert. In einer frühen MS Studie wurden 54 Proteine in ASFV Partikeln detektiert, 15 davon Wirtsproteine. Der Einbau von Aktin, α-Tubulin und β-Tubulin ins Virion konnte ebenfalls bestätigt werden. Systematische massenspektrometrische Untersuchungen zur Charakterisierung des Proteoms der ASF Virionen lagen zu Beginn der vorliegenden Dissertation nicht vor, erst während der Anfertigung des Manuskripts wurde eine solche Studie durch Alejo et al. veröffentlicht.
Im Rahmen dieser Arbeit wurde ein auf einer Dichtegradientenzentrifugation ohne nachfolgende Gelchromatographie beruhendes Reinigungsprotokoll entwickelt und die Zusammensetzung reifer ASF Viruspartikel mittels MALDI-TOF/TOF Massenspektrometrie analysiert. Zur Anzucht einer GFP-positiven ASFV OUR T88/3 Mutante wurde die vom Wildschwein abstammende Zelllinie WSL-HP verwendet. Wesentliche Schritte der Reinigung waren eine niedertourige Zentrifugation zur Entfernung zellulärer Verunreinigungen, gefolgt von einer Sedimentation des Virus durch ein Saccharosekissen und einem Proteaseverdau. Final wurde die Präparation über einen selbstgenerierenden Optiprep™ Dichtegradienten gereinigt. Die Titerausbeute lag zwischen 30 und 70 %, die spezifische Infektiosität bei 2,4 x 109 TCID50/mg. Elektronenmikroskopische Untersuchungen zeigten, dass die Präparation zwar Virionen enthielt, aber auch, dass die Fixierung mit Glutaraldehyd die Stabilität der Virionen beeinträchtigt.
In der massenspektrometrischen Analyse wurden 29 der 33 bekannten ASFV Strukturproteine bestätigt. Von den neu identifizierten Strukturproteinen konnten vier (pK145R, pC129R, pE146L und pI73R) in allen drei Replikaten und sechs in zwei von drei Replikaten (p5, CP123L, CP312R, E184L, M1249L und M2248R) bestätigt werden. Ein weiteres bis dato nicht charakterisiertes Protein, p285L, konnte als mögliches neues Strukturprotein identifiziert werden. 152 Wirtsproteine wurden im Virion detektiert, darunter hauptsächlich Membranproteine oder Proteine des Zytoskeletts. Daneben wurde eine Reihe an phospholipidbindenden Proteine gefunden. Unter den identifizierten Proteinen waren fünf aus dem glatten ER und einige Vertreter der Hitzeschockproteine.
Im zweiten Teil dieser Arbeit sollte das intrazelluläre Proteom des ASFV identifiziert werden.
Für diese Untersuchungen wurden drei empfänglichen Zelllinien verwendet, die vom Wildschwein abstammenden Linie WSL-HP, Vero Zellen, die in der Vergangenheit für viele Studien herangezogen wurde und die menschliche Linie HEK-293, die aus einem weiteren nicht empfänglichen Wirt stammt.
Der in dieser Studie verwendete Virusstamm ASFV OUR T88/3 besitzt 157 ORFs. In früheren Studien konnte die Existenz eines Proteins für 44 ORFs bestätigt werden. Für weitere 69 ORFs wurden Transkripte, nicht aber die korrespondierenden Proteine, beschrieben, sodass für 44 ORFs kein Nachweis der Expression vorlag.
In der massenspektrometrischen Analyse wurden je Wirtszelle rund 1000 Proteine identifiziert. Insgesamt belief sich die Zahl der identifizierten ASFV Proteine auf 94, davon 88 in WSL-HP, 83 in Vero und 57 in HEK-293 Zellen. 54 ASFV Proteine wurden in allen drei Zelllinien detektiert. Für 34 der identifizierten ASFV Proteine war bisher nur die Existenz des Transkripts beschrieben, für 23 weitere weder die Existenz eines Proteins noch eines Transkripts. Für 44 der 94 identifizierten Proteine wurde das N-terminales Peptid detektiert. Bei fünf der MGF-110 Proteinen (1L, 2L, 4L, 5L und 14L) und den Proteinen pI329L und pCP123L wurde die Abspaltung der vorhergesagten Signalsequenz experimentell bestätigt.
Die MS Analysen wurden unter Verwendung des emPAI auch quantitativ ausgewertet.
Die geringe Zahl detektierter ASFV Proteine in HEK-293 Zellen korrelierte mit dem geringeren Anteil an ASFV Proteinen im Gesamtproteingehalt der Zelle (6,3 Mol%). Allerdings wurden einige Proteine in HEK-293 Zellen ähnlich stark oder sogar stärker exprimiert als in Vero bzw. WSL-HP Zellen. Die Abundanz einzelner ASFV Proteine variierte in den verschiedenen Zelllinien. Einige wurden jedoch durchgehend stark exprimiert wie z.B. das Strukturprotein p11.5. Einige bisher nicht charakterisierte Proteine, wie z.B. pK145R, pI73R und pC129R, wurden überraschenderweise ebenfalls in allen Zellen stark exprimiert und sind somit möglicherweise Träger wichtiger viraler Funktionen, die weiter untersucht werden sollten.
Hepeviruses are small viruses with a RNA-genome of positive polarity that form the family Hepeviridae. The family includes two genera: members of the genus Piscihepevirus were detected in fish species and members of the genus Orthohepevirus were found in different mammal and bird species. The genus Orthohepevirus contains four different species, namely Orthohepevirus A, B, C and D. The species Orthohepevirus A contains five human pathogenic genotypes, with three of them being zoonotic. The species Orthohepevirus C contains mammal-associated pathogens, which were identified in rats and carnivores. The human pathogenic genotypes are responsible for a self-limiting acute hepatitis in humans, which could become chronically in immunocompromised individuals. The main route of transmission is the consumption of undercooked meat and direct contact with HEV-positive excreta or blood. In Germany, hepatitis E is a notifiable disease since 2001 with an increased number of cases per year. Rats are the reservoir of rat-associated HEV (ratHEV), but also the zoonotic HEV-3 genotype was detected in rats. The European rabbit (Oryctolagus cuniculus) was identified as a reservoir host of a subgenotype of human pathogenic HEV-3 (HEV-3ra).
For the development of small mammal animal models, the objective of this study was to evaluate different small mammal populations for novel hepeviruses and to study the presence of HEV and sequence divergence of ratHEV and rabbitHEV in rat and rabbit populations from Europe.
Approximately 3000 rodents from Germany and the Czech Republic were screened by broad spectrum HEV-RT-PCR. As a result, 13 common voles (Microtus arvalis) and one bank vole (Myodes glareolus) were detected to be HEV-RNA positive. Comparison of the obtained sequences, complete genome determination and phylogenetic analysis indicated the finding of a novel common vole-associated HEV (cvHEV), which shows a high sequence divergence towards other members of the species Orthohepevirus C, but shares a high sequence similarity to a HEV-genome derived from a kestrel (Falco tinnunculus). The finding of cvHEV-RNA in a bank vole might be caused by a spillover infection. The cvHEV genome shares the hepevirus-typical open reading frames, but also has unique cvHEV-specific attributes in its genome.
The investigation of 420 Norway rats (Rattus norvegicus) and 88 Black rats (Rattus rattus) identified HEV-RNA in Norway rats from eight of nine and Black rats from two of four European countries. In a single Norway rat from Belgium, a HEV-3-strain with high sequence similarities to rabbitHEV (HEV-3ra), was detected. The investigation of zoo animals revealed a ratHEV spillover infection in a Syrian brown bear (Ursus arctos syriacus). This infection was most likely caused by ratHEV-infected free-living, wild rats from the same zoo.
Investigation of wild rabbit populations trapped in and around Frankfurt am Main, Germany, showed anti-HEV antibodies (34.7%) and rabbitHEV-RNA (25%). A high sequence similarity of rabbitHEV in the animals trapped at the urban site was observed, whereas a high sequence divergence was seen for the animals trapped at the rural trapping sites.
In conclusion, hepeviruses are widespread among different small mammal populations in Europe. The broad geographical distribution of these hepeviruses should be taken into account in further public health risk assessments. Further investigations are needed to characterize the presence of cvHEV in more detail, especially by taking the population dynamics of common voles into account. The detected HEV-strains could be taken as basis for the establishment of novel HEV-animal models, which might replace the so far used swine and non-human primate models.
The advances in high-throughput sequencing technologies have revolutionized the possibilities for pathogen identification in cases of unknown disease origin. Diagnostic metagenomics allows the unbiased and simultaneous detection of almost all nucleic acids in a clinical sample, with the potential to provide pivotal insights into otherwise undeterminable causes of human or animal disease.
In this thesis, possibilities, pitfalls and the suitability of Ion Torrent and Illumina sequencing platforms for comprehensive use in diagnostic metagenomics were assessed and optimized procedures developed. Clinical field samples, undiagnosable by standard diagnostics, were taken as real-life examples for the investigations. The results show that cross-contamination due to index swapping and run-to-run-carryover constitute a major issue on Illumina platforms, severely compromising the correct interpretation of results for clinical specimens. In contrast, Ion Torrent platforms did not display any form of cross-contamination, however, the commercial library preparation method is less efficient. Combining the advantages of both platforms, customized Y adapters, facilitating highly efficient library preparation, were developed for Ion Torrent sequencing and applied in further experiments. The obstacles of strongly degraded RNA in formalin-fixed paraffin-embedded samples were identified and the workflow adapted to meet the requirements of smaller fragments. Additionally, it was shown that adequate sampling is a very important step, if not the most important step, in the workflow, as well as subsequent validation of the obtained results in terms of causation. The achievements in this study allow other researchers the application of a sensitive and optimized diagnostic metagenomics workflow.
Furthermore, the investigations on the clinical samples resulted in the discovery of a novel respirovirus with putative zoonotic potential, the first description of Borna disease virus 1 in human organ transplant recipients, and the discovery of a very distantly related novel ovine picornavirus. These discoveries build a basis for further research and expand the knowledge regarding new and emerging viruses.
Herstellung sicherer und wirksamer Lebendvakzine gegen die Koi Herpesvirus Infektion von Karpfen
(2019)
Das Koi Herpesvirus (KHV, Cyprinid herpesvirus 3) verursacht eine tödliche Erkrankung bei Kois und Karpfen. Um sichere und wirksame Lebendvirusimpfstoffe zu erhalten, haben wir Einzel- und Doppeldeletionsmutanten von KHV erzeugt, aus deren Genom die für die beiden Nukleotidstoffwechselenzyme Thymidinkinase (TK, ORF55) und Desoxyuridin-Triphosphatase (DUT, ORF123) codierenden Leserahmen gezielt entfernt worden waren. Die Mutationen wurden durch homologe Rekombination in den zellkulturadaptierten aber noch virulenten Stamm KHV-T eingeführt. Umfangreiche in vitro Tests zeigten, dass die Deletion der TK- und DUT- Gene die KHV-Replikation in Zellkultur (CCB Zellen) nicht erkennbar beeinträchtigt. In vivo Tests an Jungkarpfen zeigten jedoch eine im Vergleich zum Ausgangsvirus signifikant reduzierte Virulenz der Einzelgen-Deletionsmutanten eine fast vollständige Attenuierung der Doppelmutante. Dennoch waren alle immunisierten Karpfen gegen eine letale Belastungsinfektion mit virulentem KHV geschützt. Mittels einer neu entwickelten Triplex-Real-Time-PCR und aus Kiementupferproben isolierter DNA war es möglich, mit TK-negativem KHV immunisierte und Wildtyp- infizierte Karpfen zu differenzieren. Daher könnte die Doppelmutante KHV- TΔDUT/TK als genetischer Marker-Impfstoff geeignet sein.
In einer zweiten Studie wurde die Funktion von vier immunogenen Hüllglykoproteinen der ORF25-Genfamilie (ORF25, ORF65, ORF148 und ORF149) von KHV untersucht. Hierbei wurde festgestellt, dass alle vier Gene für die Virusreplikation in Zellkultur entbehrlich sind. Während die Deletion von ORF65 keinen erkennbaren Einfluss auf die Virusvermehrung hatte, führte die Deletion von ORF148 sogar zu einer leicht erhöhten Replikationsrate. Im Gegensatz dazu bewirkten Deletionen von ORF25 oder ORF149 einen verzögerten Eintritt in die Wirtszellen und damit auch eine verlangsamte Vermehrung und Ausbreitung der Viren. Interessanterweise führte die gemeinsame Deletion der Gene ORF148 und
ORF149 zu einem wildtypähnlichen Wachstumsverhalten, das auf gegensätzlicher Funktionen der beiden Proteine hindeutete. Elektronenmikroskopische Untersuchungen von CCB-Zellen, die mit den verschiedenen Glykoproteindeletionsmutanten infiziert waren, zeigten keine Auswirkungen auf die Bildung und Reifung der Virionen im Zellkern oder im Zytoplasma, oder die Virusfreisetzung. Im Tierversuch erwiesen sich KHV-Mutanten mit Deletionen der Gene ORF148 und/oder ORF149 als geringfügig, aber für eine Verwendung als Lebendvirus-Impfstoff nicht ausreichend abgeschwächt. Überlebende Fische waren jedoch gegen Belastungsinfektionen ebenso gut geschützt wie Wildtyp-infizierte Karpfen, so dass die Deletion dieser antikörperinduzierenden Proteine zur Entwicklung von KHV-Markerimpfstoffen beitragen könnte, die eine serologische Differenzierung von Wildtyp-infizierten und geimpften Fischen erlauben (DIVA- Prinzip). In einer dritten Studie wurden durch serielle Zellkulturpassage von virulentem KHV und anschließende in vivo Infektionsversuche Hinweise darauf gefunden, dass das bislang nicht näher charakterisierte, neben dem ORF149 Gen lokalisierte ORF150 für einen weiteren Virulenzfaktor von KHV codiert. Möglicherweise könnte also durch eine kombinierte Deletion der im Rahmen dieser Arbeit untersuchten KHV-Gene ein sicherer und wirksamer, genetisch und serologisch differenzierbarer Markerimpfstoff hergestellt werden.
Streptococcus pneumoniae is one of the leading human pathogen causing morbidity and mortality worldwide. The pneumococcus can cause a variety of different diseases ranging from mild illnesses like otitis media and sinusitis to life-threatening diseases such as pneumonia, meningitis and sepsis. Mostly affected are infants, elderly and immune-suppressed patients. Although, there are vaccines against pneumococci available, still hundreds of thousands of people got infected each year. These vaccines are targeting the pneumococcal polysaccharide capsule. Because of the high number of different serotypes, it is not possible to generate a vaccine against all present serotypes. In the last years a shift to non-vaccine serotypes was noticed. This strengthens the need for the development of vaccines which do not target polysaccharides. Thus, proteins came into focus as potential new vaccine candidates or targets for drug treatment, because several proteins are highly conserved among different strains or even genera. Proteome analyses can give insights into the protein composition in a certain state of a bacterium. So, targets can be identified, which are especially expressed under infection-relevant conditions. Iron limitation is one of these conditions and the knowledge on iron acquisition in pneumococci is still limited. Iron is an essential trace element and as redox-active catalyst or as cofactor involved in various key metabolic pathway in nearly all living organisms and thus also in bacteria. For instance, iron is necessary during biosynthesis of amino acids and in electron transport as well as in DNA replication. Within the human host iron is extremely limited due to its high insolubility under physiological conditions, which is part of the nutritional immunity of its human host. Hence, bacteria had to evolve mechanism to overcome iron starvation. In this thesis the adaptation process triggered by iron limitation in the S. pneumoniae serotype 2 strain D39 was investigated in a global mass spectrometry-based proteome analysis.
In preceding growth experiments the pneumococcal growth was adapted to the needs of proteomic workflows. In order to investigate the pneumococcal response to iron limitation, the organic iron-chelating agent 2,2’-bipyridine (BIP) was applied. For the quantification of changes in protein abundances comparing stress to control conditions the very reliable and robust metabolic labeling technique Stable Isotope Labeling with Amino Acids in Cell Culture (SILAC) was used. This method requires the bacterial cultivation in a chemically defined medium, for which reason modified RPMI 1640 medium was chosen. A pooled protein extract with heavy labeled amino acids was applied as an internal standard, which included proteins expressed under control and stress condition, to control, BIP and BIP-iron-complex (BIP control experiment) samples. Samples were analyzed by liquid chromatography coupled directly to a tandem mass spectrometer. It is described that under iron-restricted conditions proteins associated to pathogenesis are higher abundant in pathogenic bacteria like Staphylococcus aureus. Hence, similar observations were expected also for the proteomic adaptation of S. pneumoniae, but the first results showed a reduction in protein abundance of virulence factors. In order to explain these results inductively-coupled-plasma mass spectrometry was executed to determine the iron concentration of chemically defined medium (CDM) used in this experiment. The analysis revealed a relatively low iron concentration of approximately 190 µg l-1. Therefore, the iron concentration of the complex medium THY, in which pneumococci are usually grown, was investigated. THY contains four-fold (740 µg l-1) more iron than the CDM. Subsequently, an additional iron limitation approach was carried out in THY. As SILAC is not applicable in complex media like THY, MaxLFQ was applied as quantification method in this case. Because two different media were used, an additional comparative proteome analysis with regard to the two investigated media was executed.
Comparing the protein composition in both cultivation media it became clear that pneumococci exhibit a totally different proteome depending on the medium. Major differences were found in metabolisms of amino acids, vitamins and cofactors as well as in pathogenesis-associated proteins. These differences have to be taken into account during the analyses of both iron limitation approaches. Overall, more proteins were identified and quantified in CDM samples. The pneumococcal adaptation to iron limitation in both media was different; especially, the alterations in protein abundances of virulence factors. In contrast to the iron limitation in CDM, proteins involved in pathogenesis were higher abundant under iron limitation in THY, which was the expected result. Because of proteomic changes of cell division and lipid metabolism involved proteins in iron-limited pneumococci in CDM, electron microscopic pictures were taken in order to proof cell morphology. The pictures showed an impaired cell division in iron-limited CDM, but not in THY medium. However, both datasets have similarities as well. Thus, the iron uptake protein PiuA is strongly increased in iron-restricted conditions and the abundance of the iron storage protein Dpr is significantly decreased in both datasets. Notably, PiuA and Dpr seem to have important roles during the pneumococcal adaptation to iron-restricted environments.
One the basis of these results, it could be shown that the proteomic response of pneumococci to iron limitation is strongly dependent to the initial iron concentration of the environment. Hence, pneumococci will adapt differently to varying niches and thus potential vaccine candidates should be expressed independently of the localization within the human host.
Das gram-negative Stäbchenbakterium Burkholderia pseudomallei, Erreger der Melioidose, ist ein fakultativ intrazelluläres Pathogen. Ein detailliertes Wissen über das Proteom dieses Pathogens liefert eine wichtige Grundlage für das Verständnis der Pathomechanismen. Im Rahmen dieser Arbeit wurden detailierte „reference maps“ des intra- und extrazellulären Proteoms von B. pseudomallei Stamm E8 erstellt. Es wurden hierbei insgesamt 353 intrazelluläre und 154 extrazelluläre Proteine identifiziert und anschließend einer funktionellen Klassifizierung unterzogen. Die „reference maps“ stellen ein wichtiges Werkzeug für weitere vergleichende Proteomanalysen dar. In weiterführenden Experimenten wurde das Proteom dreier Wildtypstämme verglichen. Hierbei zeigten sich insgesamt nur geringe Unterschiede zwischen den drei analysierten Stämmen E8, E212 und K96423. Die Proteomanalysen bestätigten die Ergebnisse der Genotypisierung – beide Ansätze ergaben eine engere Verwandtschaft der Stämme E212 und K96423 als mit Stamm E8.
Im Infektionsverlauf von B. pseudomallei ist das sonst aerob lebende Bakterium in der Lage sich auch unter anaroben Bedingungen auszubreiten. Über die anaerobe Physiologie von B. pseudomallei ist bisher wenig bekannt. Es konnte ein Screeningsystem entwickelt werden, mit dem aus insgesamt 2344 Transposonmutanten 16 Mutanten mit reduziertem Wachtum unter anaeroben Bedingungen identifiziert wurden. Die vier Mutanten mit dem am stärksten verringerten Wachstum wurden für weitere Analysen im Rahmen dieser Arbeit ausgewählt. Drei der Mutanten hatten Molybdän bezogene Gendefekte und bei einer Mutante betraf der Gendefekt eine putative Sensor-Kinase. Die untersuchten Mutanten konnten erfolgreich komplementiert werden und somit polare Effekte ausgeschlossen werden. Die Komplentanten wiesen wieder dem Wildtyp entsprechendes anaerobes Wachstum auf und wiesen auch bei allen weiteren Experimenten, wie z.B. Infektionsversuchen, die Eigenschaften des Wildtyps auf. Dass unter den 2344 gescreenten Transposon Mutanten drei der vier auffälligsten Mutanten Molybdän bezogene Gendefekte aufwiesen, unterstreicht die Wichtigkeit von Molybdän und im Zusammenhang damit der anaeroben Nitratreduktase. Die Attenuierung der drei Mutanten im C57BL/6-Maus-Infektionsmodell deutet auf die Wichtigkeit des anaeroben Stoffwechsels bei chronischen Infektionsverläufen von B. pseudomallei hin. Bei der weiteren näher untersuchten Mutante liegt ein Defekt einer putativen Sensorkinase vor. Diese gehört zu einem Zwei-KomponentenSignaltransduktionssystem, welches Homologien zum RegB-RegA-System aufweist. Es konnte gezeigt werden, dass die hier untersuchte Sensorkinase einen entscheidenen Einfluss auf die Virulenz von B. pseudomallei hat. Der exakte Mechanismus der Attenuierung durch die Mutation von BPSL0201 bleibt vorerst jedoch noch ungeklärt.
Zusammenfassend lässt sich sagen, dass mit dem hier entwickelten Screeningsystem erfolgreich Transposonmutanten identifiziert werden konnten, welche ein reduziertes Wachstum unter anaeroben Bedingungen aufweisen. Durch die anschließende Charakterisierung konnten tiefere Einblicke in den anaeroben Lebensstil von B. pseudomallei gewonnen werden. Die Ergebnisse deuten auf einen Zusammenhang zwischen der Fähigkeit des anaeroben Wachstums von
B. pseudomallei und der vollen Virulenz hin. Die gewonnenen Erkenntnisse stimulieren weitere Untersuchungen im Hinblick auf den Einfluss des anaeroben Wachstums von B. pseudomallei bei der Pathogenese der Melioidose.
Reversible posttranslational modifications play an important role during the regulation of many central processes in bacterial cells. Protein phosphorylation, in particular, can influence signal transduction processes and thus enables a distinct reaction of the cell to different stress and environmental conditions. In the case of the human pathogen Staphylococcus aureus, protein phosphorylation is involved in the adaptation to changing conditions during colonisation of human hosts. For this reason, the investigation of phosphorylations in S. aureus allows a better understanding of pathophysiology and virulence of this organism. Apart from stable phosphorylations at the amino acids serine, threonine and tyrosine, insights into energy-rich phosphorylations, for instance at arginine residues, gain more and more scientific attention. For this reason, one purpose of this study was the investigation of incidence and physiological relevance of this protein modification at a global scale. Firstly, the analysis of this modification was methodically optimised resulting in the identification of eight arginine phosphorylations in wild type cells of S. aureus COL. Secondly, the deletion mutant ΔptpB missing the gene that codes for an arginine phosphatase, was analysed. The characterisation of PtpB in vitro proved its activity and specificity towards arginine phosphorylations. This enabled the global analysis of the phosphoproteome with a focus on arginine phosphorylations. In addition to the optimisation of the phosphopeptide enrichment as part of the sample preparation, the data analysis process was adapted to the special challenges of energy-rich phosphorylations. Here, classical database search was extended by spectral library based analyses. In addition, synthetic peptides allow the generation of high quality mass spectra and the verification of database based evaluation strategies to ensure the quality of the spectral library. Next, S. aureus COL was cultivated under various conditions and several subcellular fractions were analysed with the aim to cover a broad part of the proteome. The combination of the spectra of synthetic peptides, the spectra of non-phosphorylated peptides from extensive cultivation experiments and the spectra of enriched phosphopeptides rendered the construction of a spectral library possible. This contained 2,270 proteins out of which 392 were found to be phosphorylated. A comparison of the database based analysis with spectral library based analysis showed the advantages of the latter when comparing the reproducibility of biological replicates. Thereby a permanent issue in phosphoproteomics was investigated. Hence, spectral libraries were used for the analysis of the phosphoproteome of S. aureus under control and stress conditions. 215 arginine phosphosites were identified within the mutant under control conditions and 117 under oxidative stress conditions. Oxidative stress was chosen because phenotypic characterisation of the mutant revealed that the most distinct growth changes in comparison with the wild type occurred after oxidative stress. These phenotypic changes were quantitatively approached in the last part of this work. Total proteome quantification of the wild type and mutant under control and stress conditions revealed an influence of the ptpB deletion on amino acid metabolism, oxidative stress response and virulence. The quantification of phosphopeptides by means of a combination of spectral library with Census based analysis finally confirmed the observations made during total proteome quantification.
Phenolics and its derivatives are aromatic compounds with a wide range of industrial applications. Gallic acid, protocatechuic acid, catechol or pyrogallol are only a few examples of industrially relevant aromatics. The production of bulk fine chemicals primarily for chemical and pharmaceutical industry has put a strong emphasis on optimizing manufacturing conditions. Commercial production of many chemicals is still based on organic chemical synthesis using petroleum derivatives as starting material. Since these processes are considered environmentally unfriendly and posing an irresponsible strain on limited fossil resources, much attention is paid to the development of new microbial factories for the bioproduction of industrially relevant chemicals using renewable sources or organic pollutants as starting material. Arxula adeninivoras is a non-conventional yeast possessing attractive properties for industrial application such as thermo- and osmotolerance. Another major advantage of this organism is its broad substrate spectrum with tannin at the forefront. The present project is dedicated to the study of the tannic acid degradation pathway in A. adeninivorans. Two genes encoding enzymes annotated as gallic acid decarboxylase (AGDC1) and catechol-1,2-dioxygenase (ACDO1) have been selected and investigated. Both enzymes were characterized and their function in tannin catabolism analyzed.
The proteasome is a major part of the ubiquitin-proteasome-system playing an important role in cell homeostasis due to its protein quality control function. Moreover, the proteasome is involved in cell cycle regulation and in the regulation of transcription factors. Upon induction of interferons, or treatment with lipopolysaccharides, an isoform of the standard-proteasome is composed, named immunoproteasome (i-proteasome). The i-proteasome is constitutively expressed in immune cells and deficiency of proteolytic subunits of this multiprotein complex has been associated with a poor outcome during infectious diseases. I-proteasome-deficiency has been shown to result in reduced MHC class I presentation. Using mice which are deficient for all three proteolytic active subunits LMP2, MECL-1 and LMP7, we could demonstrate that i-proteasome-deficiency lead to an altered recruitment of immune cells to the CNS when challenged with the intracellular parasite Toxoplasma gondii, resulting in increased frequencies of neutrophils and other cells of myeloid origin. The shift to reduced frequencies of CD45highCD11blow lymphocytes can be further explained by a decreased migratory capacity of i-proteasome-deficient CD8+ T cells. In contrast to previous studies using other pathogens, effector function of CD8+ as well as CD4+ T cells, measured by frequencies of IFNγ, TNF, IL-2 and granzyme B producing cells, were not impaired in these mice, whereas induction of CD4+ Tregs was strongly reduced. In addition, we found that parasite control was comparable to control mice and that i-proteasome deletion caused an overall pro-inflammatory cytokine milieu within the brain. Our results indicate that i-proteasome-deficiency lead to prolonged tissue inflammation during T. gondii infection which could be an explanation for the more severe course of disease observed in these mice.
The Src homology domain containing phosphatase 2 (SHP2) is a tyrosine phosphatase modulating several signaling pathways and therefore has an influence in cell cycle, differentiation, proliferation and cell activation. However, SHP2 is assumed to play a negative role during T-cell activation as the phosphatase has been shown to inhibit T-cell receptor-induced signaling cascades. Although, various gain-of-function mutations in the SH2 or PTP domain of this phosphatase, such as D61Y, have been associated with myeloproliferative diseases such as juvenile myelomonocytic leukemia (JMML), effects of such mutations on T cells have not been addressed in scientific literature so far. Therefore, in the second part of this thesis we could demonstrate that D61Y mutation in the SH2 domain of SHP2 did not cause JMML pathology when only introduced into T cells. Especially in aged mice, T cells of SHP2 mutant mice showed an increased expression of cell adhesion molecule CD44. In accordance with these findings, we observed increased influenza A virus-specific T cells in the bone marrow of SHP2 D61Y mutant mice, indicating a role of the phosphatase in memory formation or maintenance of CD8+ Tem. Although SHP2D61Y mice revealed a comparable viral clearance, IFNγ production of virus experienced CD4+ and CD8+ T cells was diminished compared to control mice, underlining a negative involvement of the phosphatase in the JAK/STAT1 signaling axis as suggested before by studies using mice with SHP2-/- T cells.
The bacterium Staphylococcus aureus is a notorious pathogen that causes dangerous and difficult-to-treat infections. This applies especially to methicillin-resistant S. aureus, better known as MRSA. MRSA infections were originally associated with healthcare settings as a consequence of clinical antibiotic therapy. However, in recent years MRSA infections have become more common among healthy individuals in the community. The community-associated (CA-)MRSA lineages are generally more aggressive than hospital-associated (HA-) lineages. Therefore, it is alarming that such CA-MRSA lineages are now emerging in hospitals. This raises the fundamental question of how CA-MRSA adapts to this new niche. Further, since the originally distinguishing features of CA- and HA-MRSA are losing discriminative value, it is important from a healthcare perspective to identify novel distinctive markers for early recognition and elimination of hospital-adapted CA-MRSA. In the present PhD research, these challenges were tackled with a ‘multi-omics’ approach focused on the USA300 lineage of MRSA, originally identified as CA, but now also causing hospital outbreaks. The results show that hospital-adapted USA300 isolates produce an altered spectrum of virulence factors, changed their metabolism, and exploit human immune cells as a protective environment against antibiotics. Importantly, hospital-adapted CA-MRSA strains can be recognized through distinctive patterns of gene expression and secreted virulence factors. Altogether, these observations show that the epidemic behaviour of MRSA is a multi-factorial trait, and they provide new insights into the missing links between epidemiology and pathophysiology of S. aureus. Moreover, they highlight the benefits of multi-omics technologies for protecting patients and frail individuals against the aggressive CA-MRSA.
Type I interferonopathies cover a phenotypically heterogeneous group of rare genetic diseases including the recently described proteasome-associated autoinflammatory syndromes (PRAAS). By definition, PRAAS are caused by inherited and/or de novo loss-of-function mutations in genes encoding proteasome subunits such as PSMB8, PSMB9, PSMB7, PSMA3, or proteasome assembly factors including POMP and PSMG2, respectively. Disruption of any of these subunits results in perturbed intracellular protein homeostasis including accumulation of ubiquitinated proteins which is accompanied by a type I interferon (IFN) signature. The observation that, similarly to pathogens, proteasome dysfunctions are potent type I IFN inducers is quite unexpected and, up to now, the underlying molecular mechanisms of this process remain largely unknown. One promising candidate for triggering type I IFN under sterile conditions is the unfolded protein response (UPR) which is typically initiated in response to an accumulation of unfolded and/or misfolded proteins in the endoplasmic reticulum (ER) (also referred to as ER stress). The recent observation that the UPR is engaged in subjects carrying POMP mutations strongly suggests its possible implication in the cause-and-effect relationship between proteasome impairment and interferonopathy onset. The purpose of this present review is therefore to discuss the possible role of the UPR in the pathogenesis of PRAAS. We will particularly focus on pathways initiated by the four ER-membrane proteins ATF6, PERK, IRE1-α, and TCF11/Nrf1 which undergo activation under proteasome inhibition. An overview of the current understanding of the mechanisms and potential cross-talk between the UPR and inflammatory signaling casacades is provided to convey a more integrated picture of the pathophysiology of PRAAS and shed light on potential biomarkers and therapeutic targets.
Summary
The susceptibility of Candida albicans biofilms to a non‐thermal plasma treatment has been investigated in terms of growth, survival and cell viability by a series of in vitro experiments. For different time periods, the C. albicans strain SC5314 was treated with a microwave‐induced plasma torch (MiniMIP). The MiniMIP treatment had a strong effect (reduction factor (RF) = 2.97 after 50 s treatment) at a distance of 3 cm between the nozzle and the superior regions of the biofilms. In addition, a viability reduction of 77% after a 20 s plasma treatment and a metabolism reduction of 90% after a 40 s plasma treatment time were observed for C. albicans. After such a treatment, the biofilms revealed an altered morphology of their cells by atomic force microscopy (AFM). Additionally, fluorescence microscopy and confocal laser scanning microscopy (CLSM) analyses of plasma‐treated biofilms showed that an inactivation of cells mainly appeared on the bottom side of the biofilms. Thus, the plasma inactivation of the overgrown surface reveals a new possibility to combat biofilms.
The spatio-temporal reduction and oxidation of protein thiols is an essential mechanism in signal transduction inall kingdoms of life. Thioredoxin (Trx) family proteins efficiently catalyze thiol-disulfide exchange reactions andthe proteins are widely recognized for their importance in the operation of thiol switches. Trx family proteinshave a broad and at the same time very distinct substrate specificity–a prerequisite for redox switching. Despiteof multiple efforts, the true nature for this specificity is still under debate. Here, we comprehensively compare theclassification/clustering of various redoxins from all domains of life based on their similarity in amino acidsequence, tertiary structure, and their electrostatic properties. We correlate these similarities to the existence ofcommon interaction partners, identified in various previous studies and suggested by proteomic screenings. Theseanalyses confirm that primary and tertiary structure similarity, and thereby all common classification systems, donot correlate to the target specificity of the proteins as thiol-disulfide oxidoreductases. Instead, a number ofexamples clearly demonstrate the importance of electrostatic similarity for their target specificity, independent oftheir belonging to the Trx or glutaredoxin subfamilies
Prothrombotic and Proinflammatory Activities of the β-Hemolytic Group B Streptococcal Pigment
(2019)
A prominent feature of severe streptococcal infections is the profound inflammatory response that contributes to systemic toxicity. In sepsis the dysregulated host response involves both immunological and nonimmunological pathways. Here, we report a fatal case of an immunocompetent healthy female presenting with toxic shock and purpura fulminans caused by group B streptococcus (GBS; serotype III, CC19). The strain (LUMC16) was pigmented and hyperhemolytic. Stimulation of human primary cells with hyperhemolytic LUMC16 and STSS/NF-HH strains and pigment toxin resulted in a release of proinflammatory mediators, including tumor necrosis factor, interleukin (IL)-1β, and IL-6. In addition, LUMC16 induced blood clotting and showed factor XII activity on its surface, which was linked to the presence of the pigment. The expression of pigment was not linked to a mutation within the CovR/S region. In conclusion, our study shows that the hemolytic lipid toxin contributes to the ability of GBS to cause systemic hyperinflammation and interferes with the coagulation system.
The deep-sea tubeworm Riftia pachyptila lacks a digestive system but completely relies on bacterial endosymbionts for nutrition. Although the symbiont has been studied in detail on the molecular level, such analyses were unavailable for the animal host, because sequence information was lacking. To identify host-symbiont interaction mechanisms, we therefore sequenced the Riftia transcriptome, which served as a basis for comparative metaproteomic analyses of symbiont-containing versus symbiont-free tissues, both under energy-rich and energy-limited conditions. Our results suggest that metabolic interactions include nutrient allocation from symbiont to host by symbiont digestion and substrate transfer to the symbiont by abundant host proteins. We furthermore propose that Riftia maintains its symbiont by protecting the bacteria from oxidative damage while also exerting symbiont population control. Eukaryote-like symbiont proteins might facilitate intracellular symbiont persistence. Energy limitation apparently leads to reduced symbiont biomass and increased symbiont digestion. Our study provides unprecedented insights into host-microbe interactions that shape this highly efficient symbiosis.
Clostridioides difficile is an intestinal human pathogen that uses the opportunity of a depleted microbiota to cause an infection. It is known, that the composition of the intestinal bile acid cocktail has a great impact on the susceptibility toward a C. difficile infection. However, the specific response of growing C. difficile cells to diverse bile acids on the molecular level has not been described yet. In this study, we recorded proteome signatures of shock and long-term (LT) stress with the four main bile acids cholic acid
(CA), chenodeoxycholic acid (CDCA), deoxycholic acid (DCA), and lithocholic acid (LCA). A general overlapping response to all tested bile acids could be determined particularly in shock experiments which appears plausible in the light of their common steroid structure. However, during LT stress several proteins showed an altered abundance
in the presence of only a single or a few of the bile acids indicating the existence of specific adaptation mechanisms. Our results point at a differential induction of the groEL and dnaKJgrpE chaperone systems, both belonging to the class I heat shock genes. Additionally, central metabolic pathways involving butyrate fermentation and the reductive Stickland fermentation of leucine were effected, although CA caused a
proteome signature different from the other three bile acids. Furthermore, quantitative proteomics revealed a loss of flagellar proteins in LT stress with LCA. The absence of flagella could be substantiated by electron microscopy which also indicated less
flagellated cells in the presence of DCA and CDCA and no influence on flagella formation by CA. Our data break down the bile acid stress response of C. difficile into a general and a specific adaptation. The latter cannot simply be divided into a response to primary and secondary bile acids, but rather reflects a complex and variable adaptation process enabling C. difficile to survive and to cause an infection in the intestinal tract.