Global ETD Search

81	Characterizarion of the Regulation and Function of Neisseria Gonorrhoeae TonB-dependent Transporters: TdfG, TdfH and TdfJ Jean, Sophonie 01 January 2015 (has links) The obligate human pathogen Neisseria gonorrhoeae successfully overcomes host strategies to limit essential nutrients, termed “nutritional immunity” by expression of TonB-dependent transporters (TdTs): outer membrane receptors that facilitate nutrient transport in an energy-dependent manner. N. gonorrhoeae encodes eight TdTs, five of which facilitate utilization of iron or iron-chelates from host derived proteins including transferrin, lactoferrin and hemoglobin, in addition to siderophores from neighboring bacteria. The transferrin utilization system was previously shown to be critical for establishing infection in human males; demonstrating the possible contributions of TdTs to gonococcal pathogenesis. As such, studies describing the biological function and contribution to pathogenesis of the remaining three uncharacterized TdTs (TdfG, TdfH and TdfJ) are needed. In this study we report that neither TdfG, TdfH nor TdfJ are heme receptors as gonococcal heme utilization occurs passively, independent of energy derived from the TonB system. We also report that TdfH and TdfJ are zinc (Zn) regulated and identify virulence associated regulators that modulate expression of these TdTs, which is in some cases strain-specific. We report that both TdfH and TdfJ contribute to Zn acquisition in N. gonorrhoeae and we characterize TdfH as a calprotectin receptor. Calprotectin, an immune effector protein highly expressed in neutrophils, has antimicrobial activity due to its ability to sequester Zn and Mn. We present evidence that TdfH confers resistance to calprotectin and that TdfH facilitates gonococcal calprotectin binding and Zn accumulation in the presence or absence of calprotectin. Finally, we demonstrate that TdfH expression enhances N. gonorrhoeae NET survival. These studies identify for the first time a novel gonococcal defense strategy to host-mediated nutritional immunity, in which N. gonorrhoeae, via the TdT TdfH, utilizes calprotectin as a Zn source neutralizing its antimicrobial activity. These studies have yielded novel insights into the function and regulation of TdfG, TdfH and TdfJ in N. gonorrhoeae and have laid the framework for future investigation of TdT-mediated Zn acquisition and its role in bacterial pathogenesis. Neisseria gonorrhoeae TonB-dependent transporters regulation zinc heme calprotectin Life Sciences Medicine and Health Sciences
82	DRUG AND VACCINE DEVELOPMENT FOR NEISSERIA GONORRHOEAEA Cash, Devin R 01 January 2016 (has links) Neisseria gonorrhoeae, the causative agent of the STI gonorrhea, is not preventable by vaccination and is rapidly developing resistance to antibiotics. One important strategy for gonococcal survival in the host is iron acquisition in the face of nutritional immunity. To overcome iron limitation, the gonococcus expresses TonB dependent transporters (TdTs), outer membrane proteins that facilitate nutrient acquisition. Of the TdTs, the transferrin (Tf), lactoferrin (Lf), and hemoglobin (Hb) receptors hijack iron directly from host proteins, and studies have already shown that the Tf receptor is essential for the initiation of human infection. Given that the TdTs are virulence factors, they are widely conserved across strains, and are not subject to antigenic variation, they are ideal targets for novel therapeutics and vaccine development. As such, studies exploring these proteins and their potential as vaccine candidates and antimicrobial targets are needed. In this study we report that loops of the Tf receptor protein TbpA are not strongly immunogenic, and the antibodies raised against them are incapable of inhibiting TbpA-Tf interactions on the gonococcal cell surface. We also report that the loop 3 helix motif of TbpA is a critical functional domain for Tf-binding and iron uptake; however, no single residue was identified that was essential for these functions. In addition, we report the development of a platform for the structure-function analysis of HpuA, a member of the poorly studied Hb receptor. We also present evidence that novel small molecules may be able to inhibit TbpA-Tf interaction, presenting the Tf receptor as a novel, species-specific antimicrobial target. Finally, we demonstrated that a novel drug, OSU-03012, has antimicrobial activity against the gonococcus through down-regulation of DnaK, a protein chaperone. These findings suggest that DnaK, a widely conserved protein, may be a universal target for antimicrobial development. These studies provide insight into the structure function relationship of TbpA, the drug potential of DnaK, and lay the framework for future investigations of the TdTs for use in a multi-antigen vaccine. neisseria gonorrhoeae vaccine drug TbpA HpuA DnaK Medical Immunology Medical Microbiology
83	Host-bacteria interactions : Host cell responses and bacterial pathogenesis de Klerk, Nele January 2016 (has links) Helicobacter pylori colonizes the human stomach, where it causes gastritis that may develop into peptic ulcer disease or cancer when left untreated. Neisseria gonorrhoeae colonizes the urogenital tract and causes the sexually transmitted disease gonorrhea. In contrast, Lactobacillus species are part of the human microbiota, which is the resident microbial community, and are considered to be beneficial for health. The first host cell types that bacteria encounter when they enter the body are epithelial cells, which form the border between the inside and the outside, and macrophages, which are immune cells that engulf unwanted material. The focus of this thesis has been the interaction between the host and bacteria, aiming to increase our knowledge of the molecular mechanisms that underlie the host responses and their effects on bacterial pathogenicity. Understanding the interactions between bacteria and the host will hopefully enable the development of new strategies for the treatment of infectious disease. In paper I, we investigated the effect of N. gonorrhoeae on the growth factor amphiregulin in cervical epithelial cells and found that the processing and release of amphiregulin changes upon infection. In paper II, we examined the expression of the transcription factor early growth response-1 (EGR1) in epithelial cells during bacterial colonization. We demonstrated that EGR1 is rapidly upregulated by many different bacteria. This upregulation is independent of the pathogenicity, Gram-staining type and level of adherence of the bacteria, but generally requires viable bacteria and contact with the host cell. The induction of EGR1 is mediated primarily by signaling through EGFR, ERK1/2 and β1-integrins. In paper III, we described the interactions of the uncharacterized protein JHP0290, which is secreted by H. pylori, with host cells. JHP0290 is able to bind to several cell types and induces apoptosis and TNF release in macrophages. For both of these responses, signaling through Src family kinases and ERK is essential. Apoptosis is partially mediated by TNF release. Finally, in paper IV, we showed that certain Lactobacillus strains can reduce the colonization of H. pylori on gastric epithelial cells. Lactobacilli decrease the gene expression of SabA and thereby inhibit the binding mediated by this adhesin. / <p>At the time of the doctoral defense, the following papers were unpublished and had a status as follows: Paper 2: Manuscript. Paper 4: Manuscript.</p> Host-bacteria interaction Helicobacter pylori Neisseria gonorrhoeae Lactobacillus Epithelial cells Macrophages EGR1 Amphiregulin SabA
84	CEACAM3-mediated phagocytosis of human-specific bacterial pathogens involves the adaptor molecule Nck Peterson, Lisa January 2008 (has links) (PDF) Carcinoembryonic antigen-related cell adhesion molecules (CEACAMs) are exploited by human-specific pathogens to anchor themselves to or invade host cells. Interestingly, human granulocytes express a specific isoform, CEACAM3, that can direct efficient, opsonin-independent phagocytosis of CEACAM-binding Neisseria, Moraxella and Haemophilus species. As opsonin-independent phagocytosis of CEACAM-binding Neisseria depends on Src-family protein tyrosine kinase (PTK) phosphorylation of the CEACAM3 cytoplasmic domain, we hypothesized that an SH2-containing protein might be involved in CEACAM3-initiated, phagocytosis-promoting signals. Accordingly, we screened glutathione-S-transferase (GST) fusion proteins containing SH2 domains derived from a panel of signaling and adapter molecules for their ability to associate with CEACAM3. In vitro pull-down assays demonstrated that the SH2 domain of the adapter molecule Nck (GST-Nck SH2), but not other SH2 domains such as the Grb2 SH2 domain, interact with CEACAM3 in a phosphotyrosine-dependent manner. Either deletion of the cytoplasmic tail of CEACAM3, or point-mutation of a critical arginine residue in the SH2 domain of Nck (GST-NckSH2R308K) that disrupts phosphotyrosine binding, both abolished CEACAM3-Nck-SH2 interaction. Upon infection of human cells with CEACAM-binding Neisseria, full-length Nck comprising an SH2 and three SH3 domains co-localized with tyrosine phosphorylated CEACAM3 and associated bacteria as analyzed by immunofluorescence staining and confocal microscopy. In addition, Nck could be detected in CEACAM3 immunoprecipitates confirming the interaction in vivo. Importantly, overexpression of a GFP-fusion protein of the isolated Nck SH2 domain (GFP-Nck-SH2), but not GFP or GFP-Nck SH2 R308K reduced CEACAM3-mediated phagocytosis of CEACAM-binding Neisseria suggesting that the adaptor molecule Nck plays an important role in CEACAM3-initiated signaling leading to internalization and elimination of human-specific pathogens. Adaptorproteine Signaltransduktion Phagozytose Neisseria gonorrhoeae Carcino-embryonales Antigen Angeborene Immunität Src-Proteine Nichtrezeptor-Tyrosinkinasen ddc:610
85	Functional and molecular characterization of FarR – a transcriptional regulator of the MarR family in Neisseria meningitidis / Funktionelle und molekulare Charakterisierung von FarR, einem Transkriptionsregulator der MarR Familie in Neisseria meningitidis Schielke, Stephanie January 2010 (has links) (PDF) Neisseria meningitidis is a facultatively pathogenic human commensal and strictly adapted to its niche within the human host, the nasopharynx. Not much is known about the regulatory processes required for adaptation to this environment. Therefore the role of the transcriptional regulator NMB1843, one of the two predicted regulators of the MarR family in the meningococcal genome, was investigated. As this gene displayed a high sequence homology to FarR, the Fatty acid resistance Regulator in N. gonorrhoeae, we designated the meningococcal protein FarR (NmFarR). Homology modeling of this protein revealed a dimeric structure with the characteristic winged helix-turn-helix DNA binding motif of the MarR family. NmFarR is highly conserved among meningococcal strains and expression of farR during exponential growth is controlled post-transcriptionally, being highest in the late exponential phase. By means of electrophoretic mobility shift assays (EMSAs) the direct and specific binding of FarR to the farAB promoter region was shown, comparable to its homologue in gonococci. As FarR is involved in fatty acid resistance in N. gonorrhoeae, susceptibility assays with the medium chain lauric acid (C12:0), the long chain saturated palmitic acid (C16:0) and the long chain unsaturated linoleic acid (C18:2) were performed, testing a wide variety of strains of both species. In contrast to the unusually susceptible gonococci, a high intrinsic fatty acid resistance was detected in almost all meningococcal isolates. The molecular basis for this intrinsic resistance in N. meningitidis was elucidated, showing that both a functional FarAB efflux pump system as well as an intact lipopolysaccharide (LPS) are responsible for palmitic acid resistance. However, even despite circumvention of the intrinsic resistance, FarR could not be connected with fatty acid resistance in meningococci. Instead, FarR was shown to directly and specifically repress expression of the Neisseria adhesin A (nadA), a promising vaccine candidate absent in N. gonorrhoeae. Microarray analyses verified these results and disclosed no further similarly regulated genes, rendering the FarR regulon the smallest regulon in meningococci reported until now. The exact FarR binding site within the nadA promoter region was identified as a 16 bp palindromic repeat and its influence on nadA transcription was proved by reporter gene fusion assays. This repression was also shown to be relevant for infection as farR deficient mutant strains displayed an increased attachment to epithelial cells. Furthermore, farR transcription was attested to be repressed upon contact with active complement components within human serum. Concluding, it is shown that FarR adopted a role in meningococcal host niche adaptation, holding the balance between immune evasion by repressing the highly antigenic nadA and host cell attachment via this same adhesin. / Neisseria meningitidis ist ein fakultativ pathogener menschlicher Kommensale und eng an die Bedingungen seiner spezifischen Nische, den Nasopharynx, angepasst. Über die regulatorischen Mechanismen, die für diese Anpassung vonnöten sind, ist nicht viel bekannt. Daher wurde die Rolle des Transkriptionsregulators NMB1843 untersucht, eines der beiden prognostizierten Regulatoren der MarR Familie im Meningokokken-Genom. Aufgrund einer hohen Sequenzhomologie dieses Gens zu FarR, dem Fatty acid resistance Regulator in N. gonorrhoeae, nannten wir das Meningokokken-Protein ebenfalls FarR (NmFarR). Homologie-Modellierung dieses Proteins ergab eine dimere Struktur mit dem charakteristischen winged helix-turn-helix DNA-Bindemotiv der MarR Familie. Es wurde gezeigt, dass NmFarR in Meningokokken-Stämmen hochkonserviert ist. Die Expression von farR wird während des exponentiellen Wachstums posttranskriptional kontrolliert und erreicht ihren Höchststand in der spätexponentiellen Phase. Wie bei seinem Homolog in Gonokokken konnte die direkte und spezifische Bindung von FarR an die farAB Promotorregion nachgewiesen werden. Da FarR in N. gonorrhoeae an der Fettsäureresistenz beteiligt ist, wurde die Suszeptibilität einer großen Auswahl von Stämmen beider Spezies gegenüber drei unterschiedlichen Fettsäuren getestet: Laurinsäure (C12:0), Palmitinsäure (C16:0) und Linolsäure (C18:2). Im Gegensatz zu den ungewöhnlich sensitiven Gonokokken konnte eine hohe inhärente Fettsäureresistenz in fast allen Meningokokken-Isolaten beobachtet werden. Nach Analyse der molekularen Grundlage dieser Resistenz konnte gezeigt werden, dass sowohl eine funktionale FarAB Efflux-Pumpe als auch ein intaktes Lipopolysaccharid (LPS) für die Palmitinsäureresistenz verantwortlich sind. Trotz Umgehung der inhärenten Resistenz konnte keine Verbindung von FarR mit Fettsäureresistenz in Meningokokken hergestellt werden. Stattdessen reprimiert FarR direkt und spezifisch die Expression des Neisseria Adhäsins A (nadA), eines vielversprechenden Impfstoffbestandteils. Microarrays bestätigten diese Ergebnisse, zeigten aber keine weiteren ähnlich regulierten Gene auf. Somit ist das FarR-Regulon das bisher kleinste Regulon in Meningokokken. Die genaue FarR-Bindestelle innerhalb des nadA Promotors wurde als ein 16 bp Palindrom identifiziert und dessen Einfluss auf die Transkription von nadA mittels Reportergenanalysen gezeigt. Auch in Infektionsversuchen wurde die Relevanz dieser Repression deutlich, da ein farR-deletierter Stamm eine höhere Adhärenz an Epithelzellen aufwies. Die Transkription von farR sank nach Kontakt mit aktiven Komplementbestandteilen aus humanem Serum. Zusammenfassend wurde gezeigt, dass FarR eine Rolle in der Nischenadaptation von Meningokokken zukommt, indem er zwischen Immunevasion durch Repression des hoch-immunogenen nadA und Wirtszelladhäsion durch eben dieses Adhäsin vermittelt. Transkription <Genetik> Neisseria gonorrhoeae Neisseria meningitidis Adhäsine ddc:570
86	Molecular changes in the topoisomerase genes, gyrA and parC, and their contribution to fluoroquinolone resistance in the pathogenic Neisseria. Hogan, Tiffany Rose, School of Medical Science, UNSW January 2006 (has links) This thesis examined molecular changes in the quinolone-resistance determining regions (QRDRs) of the topoisomerase genes, gyrA and parC of Neisseria gonorrhoeae and Neisseria meningitidis and their contribution to fluoroquinolone resistance (FQR). Initially models of FQR emergence were developed from analysis of resistant mutants generated in vitro. The effects of the nature and order of sequential changes in GyrA and ParC on FQR were explored by correlating QRDR changes with ciprofloxacin minimum inhibitory concentration (MIC) determinations. The in vitro models were validated by comparisons of QRDR changes and MICs in two populations of wild-type FQR N. gonorrhoeae over a wide MIC range (0.09 to 24??g/mL), and in a wild type FQR meningococcus. The in vitro activities of three newer quinolones with differential activity on GyrA and ParC were compared with that of ciprofloxacin. Key findings were that the initial QRDR changes always occurred in gyrA and were the predominant influence on phenotypic expression of FQR. QRDR alterations were acquired sequentially and two GyrA and two ParC changes represented the full complement of changes observed in gonococci and two GyrA and one ParC change those in meningococci. GyrA alterations at Ser-91 in gonococci and Thr???91 in meningococci were pivotal for the development of further resistance. ParC changes required the presence of two GyrA alterations for any major impact on FQR. ParC substitutions, Ser-87???Arg and Glu-91???Gly in gonococci and Cys- 85???Asp and Glu-91???Lys in meningococci led to the expression of the highest FQR levels. Examination of FQR in wild-type meningococci was necessarily restricted, but analyses using the broader MIC range available in in-vitro-derived FQR meningococci (0.09 to 16??g/mL) revealed the first ParC changes in N. meningitidis. The study also redefined QRDR boundaries and described novel mutations within them. The nature of sequence changes in GyrA and ParC in FQR Neisseria also affected the relative activities of the three newer quinolones. Trovafloxacin was the most active quinolone in vitro but MIC differences with ciprofloxacin were mutation-dependent. Grepafloxacin and moxifloxacin were only slightly more active than ciprofloxacin in the presence of multiple QRDR changes. This thesis provides a comprehensive analysis of the relationship between QRDR alterations and FQR in N. gonorrhoeae and offers insights into the potential for FQR development in N. meningitidis. Neisseria gonorrhoeae Neisseria meningitidis Drug resistance in microorganisms
87	Characterisation of alternative sigma factors and the heat shock rsponse in Neisseria gonorrhoeae Laskos, Lina 1973- January 2003 (has links) Abstract not available Heat shock proteins Neisseria gonorrhoeae Bacteria Genetic regulation Stress (Physiology) Transcription factors
88	Biophysical characterization of tryptophan mutants in carbonic anhydrase from Neisseria Gonorrhoeae Dunbring, Daniel January 2007 (has links) <p>In this project the aim has been to study the model protein carbonic anhydrase in Neisseria gonorrhoeae, a bacterium whose carbonic anhydrase has great similarities both structurally and functionally with the human form. By measuring and comparing the wild type of NGCA with mutants lacking one of the four tryptophan residues it can be seen what effect these tryptophans has on stability and activity and then compare with the known data of HCA II to learn more about their differences and similarities. The results from the stability and activity measurements are that the wild type is by far the most stable protein with W141L mutant coming thereafter.</p><p>From Trp-fluorescence and CO2-hydration measurement a clear two-transition steps (N→ I→ U) can be seen. This differs from earlier data where it instead only was a one-transition step for the wild type (N→U). The data is also very reliable and gives in most cases a perfect fit to the line. We also see this two-transition step for the other mutants stable enough, strengthening the theory further.</p><p>One fact that could be drawn from all the measurements is that when an intermediate is formed the ability for the enzyme NGCA to perform it’s catalytically ability is disabled.</p><p>Another thing is that the purification scheme of HCA II is not optimal to be directly applied to NGCA, despite the similarity in secondary and tertiary structure.</p> Carbonic Anhydrase Neisseria Gonorrhoeae Tryptophan Mutation purification Fluorescence CO2 hydration Biochemistry Biokemi
89	Biophysical characterization of tryptophan mutants in carbonic anhydrase from Neisseria Gonorrhoeae Dunbring, Daniel January 2007 (has links) In this project the aim has been to study the model protein carbonic anhydrase in Neisseria gonorrhoeae, a bacterium whose carbonic anhydrase has great similarities both structurally and functionally with the human form. By measuring and comparing the wild type of NGCA with mutants lacking one of the four tryptophan residues it can be seen what effect these tryptophans has on stability and activity and then compare with the known data of HCA II to learn more about their differences and similarities. The results from the stability and activity measurements are that the wild type is by far the most stable protein with W141L mutant coming thereafter. From Trp-fluorescence and CO2-hydration measurement a clear two-transition steps (N→ I→ U) can be seen. This differs from earlier data where it instead only was a one-transition step for the wild type (N→U). The data is also very reliable and gives in most cases a perfect fit to the line. We also see this two-transition step for the other mutants stable enough, strengthening the theory further. One fact that could be drawn from all the measurements is that when an intermediate is formed the ability for the enzyme NGCA to perform it’s catalytically ability is disabled. Another thing is that the purification scheme of HCA II is not optimal to be directly applied to NGCA, despite the similarity in secondary and tertiary structure. Carbonic Anhydrase Neisseria Gonorrhoeae Tryptophan Mutation purification Fluorescence CO2 hydration Biochemistry Biokemi
90	Human B Cell Responses to Infection with Pathogenic and Commensal Neisseria Species So, Nancy Suk Yin 19 November 2013 (has links) The Neisseria genus includes pathogens, Neisseria gonorrhoeae (Ngo) and Neisseria meningitidis, as well as commensals. Ngo, the cause of gonorrhea, induces massive inflammation but a surprising lack of adaptive immune responses. We have observed that Ngo can inhibit both T cell activation and dendritic cell maturation through interaction with the host expressed co-inhibitory receptor carcinoembryonic antigen-related cell adhesion molecule 1 (CEACAM1). Therefore, I wondered whether B cells may also be affected in this manner. Herein, I examine primary human B cell responses to infection with Ngo, as well as the other Neisseria species. B cells infected with Ngo show no sign of inhibition, regardless of their ability to bind CEACAM1, instead responding to gonococci with robust activation and proliferation. There are distinct subsets of B cells found in the periphery and, intriguingly, the IgM memory B cell subset expand and produce polyreactive IgM in response to goncoccal infection. These cells are innate in function, producing low affinity, polyclonal IgM that is protective against bacterial and fungal dissemination. This effect was broadly specific for Neisseria sp., as B cell infection with all commensal Neisseria species examined induced innate B cell responses. Curiously, meningococcal strains avoid inducing the innate B cell responses, making it enticing to hypothesize that its avoidance of such an ancient immune response may contribute to its ability to cause disease in humans. Finally, I tested whether gonococcal Opa protein binding to CEACAM1 affects primary human B cell activation, and show that no inhibition was observed. This absence of co-inhibitory function of neisserial-bound CEACAM1 may reflect inherent differences between distinctive cell types. Combined, the results in this thesis contribute new insight regarding the poorly characterized human IgM memory B cells, as well as to the function of CEACAM1 in lymphocytes. neisseria IgM memory innate B-1 commensal CEACAM1 human B cell lactamica gonorrhoeae meningitidis 0982 0410

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