@phdthesis{Ibrahim2024, author = {Ibrahim, Eslam Samir Ragab}, title = {Unraveling the function of the old yellow enzyme OfrA in \(Staphylococcus\) \(aureus\) stress response}, doi = {10.25972/OPUS-28960}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-289600}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {Biological systems are in dynamic interaction. Many responses reside in the core concepts of biological systems interplay (competition and cooperation). In infection situation, the competition between a bacterial system and a host is shaped by many stressors at spatial and temporal determinants. Reactive chemical species are universal stressors against all biological systems since they potentially damage the basic requirements of these systems (nucleic acids, proteins, carbohydrates, and lipids). Either produced endogenously or exogenously, reactive chemical species affect the survival of pathogens including the gram-positive Staphylococcus aureus (S. aureus). Therefore, bacteria developed strategies to overcome the toxicity of reactive species. S. aureus is a widely found opportunistic pathogen. In its niche, S. aureus is in permanent contact with surrounding microbes and host factors. Deciphering the deterministic factors in these interactions could facilitate pinpointing novel bacterial targets. Identifying the aforementioned targets is crucial to develop new strategies not only to kill the pathogenic organisms but also to enhance the normal flora to minimize the pathogenicity and virulence of potential pathogens. Moreover, targeting S. aureus stress response can be used to overcome bacterial resistance against host-derived factors. In this study, I identify a novel S. aureus stress response factor against reactive electrophilic, oxygen, and hypochlorite species to better understand its resilience as a pathogen. Although bacterial stress response is an active research field, gene function is a current bottleneck in characterizing the understudied bacterial strategies to mediate stress conditions. I aimed at understanding the function of a novel protein family integrated in many defense systems of several biological systems. In bacteria, fungi, and plants, old yellow enzymes (OYEs) are widely found. Since the first isolation of the yellow flavoprotein, OYEs are used as biocatalysts for decades to reduce activated C=C bonds in α,β-unsaturated carbonyl compounds. The promiscuity of the enzymatic catalysis is advantageous for industrial applications. However, the physiological function of OYEs, especially in bacteria, is still puzzling. Moreover, the relevance of the OYEs in infection conditions remained enigmatic.   Here, I show that there are two groups of OYEs (OYE flavin oxidoreductase, OfrA and OfrB) that are encoded in staphylococci and some firmicutes. OfrA (SAUSA300_0859) is more conserved than OfrB (SAUSA300_0322) in staphylococci and is a part of the staphylococcal core genome. A reporter system was established to report for ofrA in S. aureus background. The results showed that ofrA is induced under electrophilic, oxidative, and hypochlorite stress. OfrA protects S. aureus against quinone, methylglyoxal, hydrogen peroxide, and hypochlorite stress. Additionally, the results provide evidence that OfrA supports thiol-dependent redox homeostasis. At the host-pathogen interface, OfrA promotes S. aureus fitness in murine macrophage cell line. In whole human blood, OfrA is involved in S. aureus survival indicating a potential clinical relevance to bacteraemia. In addition, ofrA mutation affects the production of the virulence factor staphyloxanthin via the upper mevalonate pathway. In summary, decoding OfrA function and its proposed mechanism of action in S. aureus shed the light on a conserved stress response within multiple organisms.}, subject = {Staphylococcus aureus}, language = {en} } @phdthesis{Mohammadi2019, author = {Mohammadi, Milad}, title = {Role of oxidized phospholipids in inflammatory pain}, doi = {10.25972/OPUS-19240}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-192402}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2019}, abstract = {Introduction: During inflammation, reactive oxygen species (ROS) such as Hydrogen peroxide accumulate at the inflammation site and by oxidizing lipids, they produce metabolites such as 4-hydroxynonenal (4-HNE) and oxidized phospholipids (OxPLs). Transient receptor potential ankyrin 1 (TRPA1) and vanilloid 1 (TRPV1) are ligand gated ion channels that are expressed on nociceptors and their activation elicits pain. Hydrogen peroxide and 4-HNE are endogenous ligands for TRPA1 and their role in inflammatory pain conditions has been shown. OxPLs play a major pro-inflammatory role in many pathologies including atherosclerosis and multiple sclerosis. E06/T15 is a mouse IgM mAb that specifically binds oxidized phosphatidylcholine. D-4F is an apolipoprotein A-I mimetic peptide with a very high affinity for OxPLs and possess anti-inflammatory properties. E06 mAb and D-4F peptide protect against OxPLs-induced damage in atherosclerosis in vivo. Methods: To investigate the role of ROS and their metabolites in inflammatory pain, I utilized a combination of diverse and complex behavioral pain measurements and binding assays. I examined E06 mAb and D-4F as local treatment options for hypersensitivity evoked by endogenous and exogenous activators of TRPA1 and TRPV1 as well as in inflammatory and OxPL-induced pain models in vivo. 4-HNE, hydrogen peroxide as ROS source and mustard oil (AITC) were used to activate TRPA1, while capsaicin was used to activate TRPV1. Results: Intraplantar injection of oxidized 1-palmitoyl-2-arachidonoyl-sn-glycero-3-phosphocholine (OxPAPC) into rats' hind paw elicited thermal and mechanical hypersensitivity. Genetic and pharmacological evidence in vivo confirmed the role of TRPA1 in OxPLs-induced hypersensitivity. OxPLs formation increased in complete Freund's adjuvant (CFA)-induced inflamed rats' paw. E06 mAb and D-4F prevented OxPAPC-induced mechanical and thermal hypersensitivity (hyperalgesia) as well as CFA-induced mechanical hypersensitivity. Also, all irritants induced thermal and mechanical hypersensitivity as well as affective-emotional responses and spontaneous nocifensive behaviors. E06 mAb blocked prolonged mechanical hypersensitivity by all but hydrogen peroxide. In parallel, D-4F prevented mechanical hypersensitivity induced by all irritants as well as thermal hypersensitivity induced by capsaicin and 4-HNE. In addition, competitive binding assays showed that all TRPA1/V1 agonists induced prolonged formation of OxPLs in the paw tissue explaining the anti-nociceptive properties of E06 mAb and D-4F. Finally, the potential of gait analysis as a readout for non-provoked pain behavioral measurements were examined. Conclusion and implications: OxPLs were characterized as novel targets in inflammatory pain. Treatment with the monoclonal antibody E06 or apolipoprotein A-I mimetic peptide D-4F are suggested as potential inflammatory pain medications. OxPLs' role in neuropathic pain is yet to be investigated.}, language = {en} } @phdthesis{Nazeer2010, author = {Nazeer, Ahmed}, title = {Physiological and molecular basis of Azospirillum-Arabidopsis Interaction}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-51673}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2010}, abstract = {The present study was aimed at revealing the early signalling events during the interaction of the diazotrophic soil bacterium Azospirillum brasilense with its host plant Arabidopsis thaliana. Furthermore, taking advantage of the micro array technique, a comprehensive overview of Arabidopsis genes has been undertaken which are affected upon association with A. brasilense The characterization of the early responses of Arabidopsis plants upon inoculation with Azospirillum brasilense strain Sp7 clearly indicated parallels with the initial events in plant pathogen interaction. For instance, not only bacterial preprations (lysates) form Azospirillum elicited an apoplastic alkalinization of the culture medium, but also the live bacteria, which were even more effective. Besides, in a luminol based assay, the bacterial lysates triggered production of the reactive oxygen species (ROS) in the Arabidopsis leaf discs. Interestingly, the elongation factor receptor mutants (efr) were completely insensitive to Azospirillum, suggesting elongation factor Tu (EF-TU) recognition as elicitor by Arabidopsis. This hypothesis was further validated with a bioinformatic approach. The N terminus initial 26 amino acids from Azospirillum EF-TU gene (elf26) showed more similarity to the elf26 sequences of bacteria like Agrobacterium tumefaciens which elicit responses in the plants through EF-TU rather than Pseudomonas syringae where the potent elicitor is flagellin 22. Universal transcriptome profiling of Arabidopsis thaliana seedlings upon inoculation with Azospirillum brasilense over a time course of six, twenty four and ninty six hours revealed very little genetic responses in the early time points. However, a bulk of genes was differentially regulated in 96 hours post inoculation (96hpi). The nature of these genes indicated that the bacterial treatment, among others, greatly affect the processes like cell wall modification, hormone metabolism, stress and secondary metabolism. Additionally expression levels of a numer of transcription factors (TFs) related to basic helix loop helix (BHLH) and MYB domain containing TF families were altered with Azospirillum inoculation. Particularly the BHLH TFs were among the most highly regulated genes. The array results from Azospirillum treated plants were further compared with the already available data emnating from treatment with flagellin 22 (flg22), oligogalacturonides (OGs) and Agrobacterium tumefaciens. Noteworthy, very different set of genes were affected upon inoculation with Azospirillum in relation to other treatments. Secondly a cluster of proteins involved in the biosynthesis of aliphatic glucosinolates (GSL) were uniquely induced upon Sp7 exposure. Genes operating in flavonoid biosynthesis also showed a distinct regulation trend in the comparative analysis. Taken together, the study in question provides insights into the early signalling events in the context of Azospirillum-Arabidopsis association and the bacterial signals recognized by the plants. The array data, at the same time, elucidates the genetic factors of Arabidopsis triggered upon association with Azospirillum brasilense.}, subject = {Azospirillum brasilense}, language = {en} } @phdthesis{JurakBegonja2007, author = {Jurak Begonja, Antonija}, title = {NO/cGMP and ROS Pathways in Regulation of Platelet Function and Megakaryocyte Maturation}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-21954}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2007}, abstract = {Blutpl{\"a}ttchen spielen unter physiologischen Bedingungen eine wichtige Rolle bei der Erhaltung der H{\"a}mostase. So verhindern sie ein andauerndes Bluten von Wunden, indem sie in Blutgef{\"a}ssen zwischen normalen Zellen des Endothels und besch{\"a}digten Bereichen unterscheiden und sich dort gezielt anheften k{\"o}nnen. Das Zusammenspiel der Pl{\"a}ttchenagonisten und den dazugeh{\"o}rigen Rezeptoren wird durch intrazellul{\"a}re Signalmolek{\"u}le kontrolliert, die die Aktivierung der Blutpl{\"a}ttchen regulieren. {\"A}usserst wichtige intrazellulare Signalmolek{\"u}le stellen dabei die zyklischen Nukleotide cGMP und cAMP dar, die bei der Hemmung der Pl{\"a}ttchen beteiligt sind. Die Bildung von cGMP und cAMP in den Blutpl{\"a}ttchen wird durch die aus dem Endothel freigesetzten Molek{\"u}le NO und Prostacyclin (PGI2) stimuliert, die ihrerseits Blutpl{\"a}ttchen hemmen, indem sie Proteinkinase G (PKG) und Proteinkinase A (PKA) aktivieren. Neuerdings wird vorgeschlagen, dass es sich bei ROS („reactive oxygen species") um einen neuen Modulator bei der Signaltransduktion zwischen verschiedenen Zelltypen handelt. Die hier zusammengefasste Arbeit beschreibt die Rolle der ROS-Produktion bei der Aktivierung von Blutpl{\"a}ttchen, die Beziehung zwischen dem NO/cGMP/PKG I Signalweg und der ROS bzw. MAP-Kinase Signaltransduktion, und die Rolle von zyklischen Nukleotiden bei der Entwicklung von Megakaryozyten und Blutpl{\"a}ttchen. Werden Blutpl{\"a}ttchen durch unterschiedliche Einfl{\"u}sse aktiviert, so produzieren sie {\"u}ber die Aktivierung von NAD(P)H-Oxidase nur intrazellul{\"a}res aber nicht extrazellul{\"a}res ROS. Dabei beinflusst das in den Blutpl{\"a}ttchen produzierte ROS signifikant die Aktivierung von \&\#945;IIb\&\#946;3 Integrin, nicht jedoch die Sekretion von alpha- bzw. dichten Granula oder die Gestalt der Blutpl{\"a}ttchen. Die Thrombin-induzierte Integrin \&\#945;IIb\&\#946;3-Aktivierung ist nach Behandlung der Blutpl{\"a}ttchen mit Hemmstoffen der NAD(P)H-Oxidase oder Superoxid-F{\"a}ngern signifikant reduziert. Diese Inhibitoren reduzieren auch die Aggregation der Blutpl{\"a}ttchen bzw. die Thrombusbildung auf Kollagen, wobei diese Effekte unabh{\"a}ngig vom NO/cGMP Signalweg vermittelt werden. Sowohl ADP, das von dichten Granula der Blutpl{\"a}ttchen sezerniert wird und zur Aktivierung von P2Y12-Rezeptoren f{\"u}hrt, als auch die Freigabe von Thromboxan A2 stellen wichtige, vorgeschaltete Vermittler bei der p38 MAP Kinase-Aktivierung durch Thrombin dar. Jedoch spielt die p38 MAP-Kinase-Aktivierung keine signifikante Rolle bei der Thrombin-induzierten Kalzium-Mobilisierung, P-Selektin Exprimierung, \&\#945;IIb\&\#946;3 Integrin Aktivierung oder Aggregation der Blutpl{\"a}ttchen. Abschliessend kann festgestellt werden, dass sich die Aktivierung der PKG insgesamt klar hemmend auf die p38 and ERK MAP-Kinasen in menschlichen Blutpl{\"a}ttchen auswirkt. Desweiteren zeigt diese Studie, dass zyklische Nukleotide nicht nur die Blutpl{\"a}ttchen hemmen, sondern auch einen Einfluss auf die Entwicklung der Megakaryozyten und Blutpl{\"a}ttchen haben, aber auf unterschiedliche Weise. cAMP ist an der Differenzierung von embryonalen h{\"a}matopoietischen Zellen zu Megakaryozyten beteiligt, wobei cGMP keine Rolle bei diesem Prozess spielt. W{\"a}hrend PKA in embryonalen Zellen schon vertreten ist, steigt beim Reifungsprozess der Megakaryozyten die Expression von Proteinen, die bei der cGMP Signalverbreitung („soluble guanylyl cyclase", sGC; PKG) mitwirken, stetig an. In der letzten Phase der Reifung von Megakaryozyten, die durch die Freisetzung der Blutpl{\"a}ttchen charakterisiert ist, zeigen cGMP und cAMP leicht divergierende Effekte: cGMP verst{\"a}rkt die Bildung von Blutpl{\"a}ttchen, w{\"a}hrend cAMP dieselbe reduziert. Dies deutet auf einen fein abgestimmten Prozess hin, abh{\"a}ngig von einem Stimulus, der von den benachbarten Zellen des Sinusoid-Endothels stammen k{\"o}nnte. Die Ergebnisse dieser Dissertation tragen zu einen besseren Verst{\"a}ndnis der Regulation von Blutpl{\"a}ttchen sowie der m{\"o}glichen molekularen Mechanismen bei, die eine Rolle bei der Reifung von Megakaryozyten im vaskularen Mikroumfeld des Knochenmarks innehaben.}, subject = {Thrombozyt}, language = {en} }