Global ETD Search

1	Evaluating the antibody response against OspA, OspC, and OspE recombinant proteins over time in Borrelia burgdorferi positive serum samples Dillon, Bridget 01 January 2014 (has links) Lyme disease is the most common tick-borne illness in North America. It can be hard to detect using blood tests, especially in the early stage. Due to the number of significant complications from untreated or undertreated Lyme disease, better methods need to be found to detect the disease. Some surface lipoproteins may be used to detect early disease due to their early expression. Others are maintained for the duration of the infection and can be used to detect chronic Lyme disease. Antibody responses to OspA, OspC and OspE were measured in sera from experimentally infected dogs. The response to OspA was only detectable in a few samples and did not appear to be sensitive for mammalian infections. A protein construct based on multiple epitopes of OspC was used to detect an antibody response starting three weeks after initial infection, and remained detectable for three months. As the response to OspC decreased, OspE could be used to detect an antibody response from three to six months after the initial infection. Because of the strength and the differences in timing of the antibody responses, OspC and OspE could be used to design an accurate blood test for Lyme disease that also indicates early and late stages of infection based on the results. OspA OspC OspE Borrelia burgdorferi Diseases
2	Development of Novel Chimeric Epitope Based Diagnostic Antigens and Vaccines for Lyme Disease Oliver, Lee D, Jr. 01 January 2015 (has links) Lyme disease (LD) is the leading arthropod-borne disease in North America with 300-600,000 cases each year. There are currently no approved human LD vaccines. Outer surface protein C (OspC) has emerged as a leading vaccine candidate and an attractive diagnostic marker due to its antigenicity and expression early in infection. Several chimeric, epitope based OspC derived proteins were generated. The constructs were found to be highly immunogenic in mice and vaccination induced complement-dependent bactericidal antibodies. These results suggest that a broadly protective polyvalent OspC epitope based vaccine can be produced. Currently, LD diagnostic approaches are unreliable and unable to differentiate between early and late stage disease. An Ab response to OspE family proteins occurs later in infection. The two-Ag diagnostic assay using chimeric OspC proteins and a site-directed mutant of an OspE paralog, accurately differentiated between early and late infection in experimentally infected canines and humans. Lyme Disease diagnostics OspC OspE BBL39 Two-tiered testing Pathogenic Microbiology
3	Identifying Factors Controlling Cell Shape and Virulence Gene Expression in Borrelia Burgdorferi Grothe, Amberly Nicole 08 1900 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / Lyme disease is a multi-system inflammatory disorder that is currently the fastest growing arthropod-borne disease in the United States. The Lyme disease pathogen, Borrelia burgdorferi, exists within an enzootic cycle consisting of Ixodes tick vectors and a variety of vertebrate hosts. Borrelia lies within a distinct clade of microorganisms known as spirochetes which exhibit a unique spiral morphology. The underlying genetic mechanisms controlling for borrelial morphologies are still being discovered. One flagellar protein, FlaB, has been indicated to affect both spiral shape and motility of the organisms and significantly impacts the organism’s ability to establish infection. Due to the potential connection between morphological characteristics and pathogenesis, we sought to screen and identify morphological mutants in an attempt to identify genes associated with morphological phenotypes of Borrelia burgdorferi. Among Borrelia’s unique features is the presence of abundant lipoproteins making up its cellular membrane as opposed to the typical lipopolysaccharides. These proteins confer a wide variety of functions to the microorganism, among which include the abilities to circulate between widely differing hosts and to establish infection. Two important outer surface proteins, OspC and OspA, are found to be inversely expressed throughout the borrelial life cycle. OspC, in particular, becomes highly expressed during tick-feeding and transmission to the mammalian host. It has been found to be essential for establishment of infection. A global regulatory pathway has been shown to control for OspC, however there are missing links in this pathway between the external stimuli (such as temperature, pH, and cell density) and the regulatory pathway. We have performed a screening process to identify OspC expression mutants in order to identify novel genes associated with this pathway. Lyme Disease Borrelia burgdorferi Mutant library Virulence factors Morphology OspC Bacteriology
4	Immunreaktionen im zentralen Nervensystem bei Stimulation mit Bestandteilen von Borrelia burgdorferi / Immunoreactions in the central nervous system by stimulation with proteins from Borrelia burgdorferi Heinz, Torsten Joseph 08 January 2014 (has links) No description available. 610 CNS Stimulation; OspC; VlsE GOK-MEDIZIN
5	Determinação do perfil fenotípico e genotípico de amostras de Staphylococus aureus resistentes à meticilina (MRSA) e sensíveis a antibióticos não ß-lactâmicos em cinco hospitais no município do Rio de Janeiro / Determination of phenotypic and genotypic profile of samples of Staphylococus aureus resistant methicillin and susceptible to antibiotics not ß-lactamics in five hospitals in Rio de Janeiro City Alexandra Vidal Pedinotti Zuma 27 March 2013 (has links) Staphylococcus aureus resistente à meticilina (MRSA) é um dos principais microrganismos envolvidos nas Infecções relacionadas à Assistência à Saúde (IrAS). Porém, um clone de MRSA, o CA-MRSA, emergiu na comunidade e atualmente vem sendo agente de IrAS. O objetivo desta dissertação é avaliar fenotípica e genotipicamente 111 amostras de Staphylococcus aureus resistentes à meticilina e sensíveis a antibióticos não ß-lactâmicos de pacientes atendidos em cinco hospitais no município do Rio de Janeiro. Utilizando os critérios padronizados pelo CLSI 2012, foram determinadas as susceptibilidades a 11 antimicrobianos pelo método de disco difusão em ágar e concentração inibitória mínima para vancomicina e oxacilina pelo método da microdiluição em caldo. A multirresistência (resistência a 3 ou mais antimicrobianos não ß-lactâmicos) foi observada em 31,5% das amostras, sendo que 53,2% apresentaram resistência ao antimicrobiano clindamicina, uma das opções para o tratamento empírico das infecções de pele/tecidos moles. 86,4% apresentaram concentração inibitória mínima (CIM) para vancomicina ≥ 1,0 g/mL ou seja, elevado percentual de amostras associadas ao fenômeno MIC creep, o qual está associado ao insucesso na terapia antimicrobiana anti-MRSA. Não foi observado até o momento nenhuma amostra com CIM ≥ 4cg/mL para vancomicina, entretanto, já há resistência à linezolida em quatro hospitais do estudo. A tipificação do SCCmec nos permitiu classificar 4,5% das amostras em HA-MRSA e 86,5% em CA-MRSA, nas quais a resistência heterogênea típica à oxacilina foi observada em 57,2%. A toxina de Panton-Valentine (PVL) foi identificada pela metodologia de PCR em 28% das amostras com genótipo CA-MRSA. Os fatores de riscos clássicos, da literatura, relacionados à infecção por HA-MRSA foram também observados nos pacientes com infecção por CA-MRSA portadoras de SCCmec IV e V. No intuito de verificar a existência de similaridades genéticas ou a presença de clone predominante entre as amostras dos cinco hospitais, foi realizada a técnica de eletroforese em gel sob campo pulsado (PFGE) e observou-se diversidade genética assim como a presença de amostras com padrões similares aos clones OSPC (18,5%) e USA400. Não foram encontradas amostras com padrões de eletroforese similares aos clones USA300, USA800 e CEB. É essencial a vigilância da resistência aos antimicrobianos não ß-lactâmicos no CA-MRSA, em especial à vancomicina. A mudança na epidemiologia deste microrganismo vem impactando os padrões característicos dos genótipos limitando os critérios de diferenciação entre eles. Neste contexto, as técnicas moleculares atuam como excelentes ferramentas de caracterização. O conhecimento do patógeno auxilia na elaboração e implementação de medidas preventivas, contribuindo para o controle da doença tanto no ambiente hospitalar quanto na comunidade. / Methicillin-resistant Staphylococcus aureus (MRSA) is a major microrganism involved in healthcare associated infections (HAIs). However, a clone of MRSA, CA-MRSA, has emerged in the community and has been considered agent of HAIs. The goal of this dissertation is to evaluate phenotypically and genotypically 111 samples of methicillin-resistant Staphylococcus aureus susceptible to non ß-lactam antibiotics from patients treated in five hospitals in the city of Rio de Janeiro. Using the Clinical and Laboratory Standards Institute criteria were determined susceptibility to 11 antimicrobials by the disk diffusion method and minimal inhibitory concentration for oxacillin and vancomycin by broth microdilution method. The multidrug resistance (resistance to three or more non ß-lactam antibiotics) was observed in 31.5% of isolates, and 53.2% were resistant to the antimicrobial clindamycin, one of the choices in the empirical treatment of infections of skin / soft tissue. 86.4% showed minimal inhibitory concentration (MIC) for vancomycin ≥ 1.0 mg / mL, representing high percentage of samples associated with the MIC creep phenomenon, which can imply therapeutic failure. The typification of SCCmec enabled us to classify 4,5% of the samples in HA-MRSA and 86.5% in CA-MRSA, among which the typical heterogeneous oxacillin resistance was observed in 57.2%. The Panton-Valentine Leukocidin (PVL) toxin, one of the virulence factors involved in the pathogeneses of MRSA, was present in 28% of samples with genotype CA-MRSA. We performed uptake of demographic and clinical information on patients medical records and verified the presence of classical risk factors for HA-MRSA infection in individuals infected by CA-MRSA carrying SCCmec IV and V. In order to verify the existence of genetic similarities or the presence of predominant clone among the samples of the five hospitals, we applied the technique of pulsed-field gel electrophoresis (PFGE) and observed genetic diversity and the presence of samples with standards similar to OSPC clones (18.5%) and USA400. There were no samples with electrophoresis patterns similar to clone USA300, USA800 and CEB. Surveillance of resistance to non ß-lactam antibiotics is essencial in CA-MRSA, especially vancomycin. The change in the epidemiology of this microrganism has been impacting the characteristic patterns of genotypes limiting criteria of differentiation between them. In this context, molecular techniques serve as excellent characterization tools. Knowledge of pathogen assists in the development and implementation of preventive measures, contributing to disease control both in hospitals and in the community. CA-MRSA Fatores de risco Clone OSPC Clindamicina Vancomicina PVL CA-MRSA risk factors OSPC Clone Clindamycin Vancomycin PVL MICROBIOLOGIA MEDICA
6	Determinação do perfil fenotípico e genotípico de amostras de Staphylococus aureus resistentes à meticilina (MRSA) e sensíveis a antibióticos não ß-lactâmicos em cinco hospitais no município do Rio de Janeiro / Determination of phenotypic and genotypic profile of samples of Staphylococus aureus resistant methicillin and susceptible to antibiotics not ß-lactamics in five hospitals in Rio de Janeiro City Alexandra Vidal Pedinotti Zuma 27 March 2013 (has links) Staphylococcus aureus resistente à meticilina (MRSA) é um dos principais microrganismos envolvidos nas Infecções relacionadas à Assistência à Saúde (IrAS). Porém, um clone de MRSA, o CA-MRSA, emergiu na comunidade e atualmente vem sendo agente de IrAS. O objetivo desta dissertação é avaliar fenotípica e genotipicamente 111 amostras de Staphylococcus aureus resistentes à meticilina e sensíveis a antibióticos não ß-lactâmicos de pacientes atendidos em cinco hospitais no município do Rio de Janeiro. Utilizando os critérios padronizados pelo CLSI 2012, foram determinadas as susceptibilidades a 11 antimicrobianos pelo método de disco difusão em ágar e concentração inibitória mínima para vancomicina e oxacilina pelo método da microdiluição em caldo. A multirresistência (resistência a 3 ou mais antimicrobianos não ß-lactâmicos) foi observada em 31,5% das amostras, sendo que 53,2% apresentaram resistência ao antimicrobiano clindamicina, uma das opções para o tratamento empírico das infecções de pele/tecidos moles. 86,4% apresentaram concentração inibitória mínima (CIM) para vancomicina ≥ 1,0 g/mL ou seja, elevado percentual de amostras associadas ao fenômeno MIC creep, o qual está associado ao insucesso na terapia antimicrobiana anti-MRSA. Não foi observado até o momento nenhuma amostra com CIM ≥ 4cg/mL para vancomicina, entretanto, já há resistência à linezolida em quatro hospitais do estudo. A tipificação do SCCmec nos permitiu classificar 4,5% das amostras em HA-MRSA e 86,5% em CA-MRSA, nas quais a resistência heterogênea típica à oxacilina foi observada em 57,2%. A toxina de Panton-Valentine (PVL) foi identificada pela metodologia de PCR em 28% das amostras com genótipo CA-MRSA. Os fatores de riscos clássicos, da literatura, relacionados à infecção por HA-MRSA foram também observados nos pacientes com infecção por CA-MRSA portadoras de SCCmec IV e V. No intuito de verificar a existência de similaridades genéticas ou a presença de clone predominante entre as amostras dos cinco hospitais, foi realizada a técnica de eletroforese em gel sob campo pulsado (PFGE) e observou-se diversidade genética assim como a presença de amostras com padrões similares aos clones OSPC (18,5%) e USA400. Não foram encontradas amostras com padrões de eletroforese similares aos clones USA300, USA800 e CEB. É essencial a vigilância da resistência aos antimicrobianos não ß-lactâmicos no CA-MRSA, em especial à vancomicina. A mudança na epidemiologia deste microrganismo vem impactando os padrões característicos dos genótipos limitando os critérios de diferenciação entre eles. Neste contexto, as técnicas moleculares atuam como excelentes ferramentas de caracterização. O conhecimento do patógeno auxilia na elaboração e implementação de medidas preventivas, contribuindo para o controle da doença tanto no ambiente hospitalar quanto na comunidade. / Methicillin-resistant Staphylococcus aureus (MRSA) is a major microrganism involved in healthcare associated infections (HAIs). However, a clone of MRSA, CA-MRSA, has emerged in the community and has been considered agent of HAIs. The goal of this dissertation is to evaluate phenotypically and genotypically 111 samples of methicillin-resistant Staphylococcus aureus susceptible to non ß-lactam antibiotics from patients treated in five hospitals in the city of Rio de Janeiro. Using the Clinical and Laboratory Standards Institute criteria were determined susceptibility to 11 antimicrobials by the disk diffusion method and minimal inhibitory concentration for oxacillin and vancomycin by broth microdilution method. The multidrug resistance (resistance to three or more non ß-lactam antibiotics) was observed in 31.5% of isolates, and 53.2% were resistant to the antimicrobial clindamycin, one of the choices in the empirical treatment of infections of skin / soft tissue. 86.4% showed minimal inhibitory concentration (MIC) for vancomycin ≥ 1.0 mg / mL, representing high percentage of samples associated with the MIC creep phenomenon, which can imply therapeutic failure. The typification of SCCmec enabled us to classify 4,5% of the samples in HA-MRSA and 86.5% in CA-MRSA, among which the typical heterogeneous oxacillin resistance was observed in 57.2%. The Panton-Valentine Leukocidin (PVL) toxin, one of the virulence factors involved in the pathogeneses of MRSA, was present in 28% of samples with genotype CA-MRSA. We performed uptake of demographic and clinical information on patients medical records and verified the presence of classical risk factors for HA-MRSA infection in individuals infected by CA-MRSA carrying SCCmec IV and V. In order to verify the existence of genetic similarities or the presence of predominant clone among the samples of the five hospitals, we applied the technique of pulsed-field gel electrophoresis (PFGE) and observed genetic diversity and the presence of samples with standards similar to OSPC clones (18.5%) and USA400. There were no samples with electrophoresis patterns similar to clone USA300, USA800 and CEB. Surveillance of resistance to non ß-lactam antibiotics is essencial in CA-MRSA, especially vancomycin. The change in the epidemiology of this microrganism has been impacting the characteristic patterns of genotypes limiting criteria of differentiation between them. In this context, molecular techniques serve as excellent characterization tools. Knowledge of pathogen assists in the development and implementation of preventive measures, contributing to disease control both in hospitals and in the community. CA-MRSA Fatores de risco Clone OSPC Clindamicina Vancomicina PVL CA-MRSA risk factors OSPC Clone Clindamycin Vancomycin PVL MICROBIOLOGIA MEDICA
7	Generation of a linear epitope based multi-protein chimeric construct for prevention of Lyme disease in humans Izac, Jerilyn R 01 January 2019 (has links) Lyme disease (LD) is the most prevalent vector borne disease is North America with 300,000-600,000 human cases each year. Preventative strategies for LD in humans are poorly developed and largely inadequate. While preventive vaccines for LD are widely used in veterinary medicine, there are no vaccines available for use in humans. The goal of this study was to develop a human vaccine that can elicit antibody responses that kill spirochetes in both the tick and mammalian environments. The approach applied in this study centered on the development of chimeric epitope proteins, referred to as chimeritopes. Chimeritopes consist of a series of epitopes derived from one or more proteins or protein variants. Three chimeritope proteins designated as Chv1, Chv2 and Chv3 were designed. These proteins harbor the same set of 18 linear epitopes derived from 9 different OspC type proteins. They differ in epitope arrangement or by the presence or absence of linkers between specific protein segments. The immunogenicity of each protein was assessed in multiple animal models including mice, rats, and purpose bred beagles. Immunoblot, ELISA, and IFA analyses using sera from immunized animals demonstrated that the Chv proteins elicit IgG responses that recognize a diverse array of OspC type proteins. Anti-Chv and anti-OspA antisera displayed complement dependent bactericidal activity. To assess protective efficacy, purpose bred beagles were immunized with each vaccine formulation and then challenged by infestation with infected ticks. Efficacy was assessed by monitoring seroconversion, cultivation of tissue biopsies, clinical presentation and histopathological analysis of joints and tissues. All dogs vaccinated with the Chv2-OspA combination were fully protected. All dogs in this group were seronegative for LD, biopsy culture negative and did not develop LD associated symptoms including lameness or lesions in tissues or joints. In light of market concerns centered on the use of full length OspA in a human vaccine, epitope mapping was performed to identify a linear epitope that could be employed in development of a possible OspC-OspA chimeritope. A linear epitope, designated as OspA221-240was identified. Antisera to KLH-OspA221-240displayed potent and broad bactericidal activity. Interestingly, the OspA221-240epitope has homology to residues 244 to 263 of OspB suggesting that OspB may also be a potential candidate for inclusion in a human vaccine. This study establishes proof of principle for the use of OspC chimeritopes in LD subunit vaccines and highlights the need to employ a multi-valent, multi-antigen vaccine approach in development of a human LD vaccine. Vaccine Lyme disease Chimeritope OspC OspA Immunology of Infectious Disease Pathogenic Microbiology
8	Mikroglia-Aktivierung durch Bestandteile von <i>Borrelia burgdorferi sensu lato</i> / Microglial activation by proteins of <i>Borrelia burgdorferi sensu lato</i> Töpfer, Martha 22 April 2015 (has links) No description available. 610 Borrelia afzelii Borrelia burgdorferi Borrelia spielmanii p41 OspC Microglia Neuroborreliosis
9	Elucidating the interaction of Borrelia burgdorferi OspC with phagocytes in the establishment of lyme borreliosis Carrasco, Sebastian Eduardo 20 March 2015 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / Lyme disease, the most prevalent vector-borne illness in the United States, is a multisystem inflammatory disorder caused by infection with the spirochete Borrelia burgdorferi (Bb). This spirochete is maintained in nature through an enzootic cycle involving ticks and small mammals. The Bb genome encodes a large number of surface lipoproteins, many of which are expressed during mammalian infection. One of these lipoproteins is the major outer surface protein C (OspC) whose production is induced during transmission as spirochetes transition from ticks to mammals. OspC is required for Bb to establish infection in mice and has been proposed to facilitate evasion of innate immunity. However, the exact biological function of OspC remains elusive. Our studies show the ospC-deficient spirochete could not establish infection in NOD-scid IL2rÎ³null mice that lack B cells, T cells, NK cells, and lytic complement, whereas the wild-type spirochete was fully infectious in these mice. The ospC mutant also could not establish infection in SCID and C3H mice that were transiently neutropenic during the first 48 h post-challenge. However, depletion of F4/80+ phagocytes at the skin-site of inoculation in SCID mice allowed the ospC mutant to establish infection in vivo. In phagocyte-depleted SCID mice, the ospC mutant was capable to colonize the joints and triggered neutrophilia during dissemination in a similar pattern as wild-type bacteria. We then constructed GFP-expressing Bb strains to evaluate the interaction of the ospC mutant with phagocytes. Using flow cytometry and fluorometric assay for phagocytosis, we found that phagocytosis of GFP-expressing ospC mutant spirochetes by murine peritoneal macrophages and human THP-1 cells was significantly higher than parental wild-type Bb strains, suggesting that OspC has an anti-phagocytic property. This enhancement in phagocytosis was not mediated by MARCO and CD36 scavenger receptors and was not associated with changes in mRNA levels of TNFÎ±, IL-1Î², and IL-10. Phagocytosis assays with HL60 neutrophil-like cells showed that uptake of Bb strains was independent to OspC. Together, our findings reveal that F4/80+ phagocytes are important for clearance of the ospC mutant, and suggest that OspC promotes spirochetes' evasion of macrophages in the skin of mice during early Lyme borreliosis. Borrelia burgdorferi EF-Tu Infection Lyme disease OspC Phagocytes Lyme disease Borrelia burgdorferi -- Research Protein C Lyme disease -- Molecular aspects Relapsing fever Spirochetes -- Molecular aspects Bacteria

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