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Characterization of a secreted escherichia coli 086a:K61 protease that inactivates human coagulation FVTilley, Derek 01 August 2011 (has links)
Background: Escherichia coli (E.coli) O86a:K61 belongs to the Enteropathogenic E. coli (EPEC) group of pathogens. Acute gastroenteritis affects 2-4 billion people annually and EPEC is associated with 10-40% of hospitalized diarrhea cases globally. Coagulation Factor (F) V circulates as an inactive procofactor (Mr 330kDa) which upon thrombin activation to the active cofactor, FVa, functions in prothombinase to accelerate prothrombin to thrombin conversion by 300,000-fold. The ability of E.coli O86a:K61 to cause intestinal hemorrhage is of interest because previous research demonstrated that during E.coli O86a:K61 sepsis in baboons, a dose-dependent inactivation of FV was observed as the bacterial dose increased. These results suggested a secreted E.coli protease may have mediated this effect on FV. This research has focused on the purification, identification, and characterization of a secreted E. coli O86a:K61 protease that inactivates FV. The final partially-purified protease inactivated FV to a 250kDa product by immunoblotting, and possessed a 900-fold increase in specific activity versus FV in human plasma compared to the culture supernatant. At least 3 proteins were observed upon SDS-PAGE. Proteolytic inactivation of FV was activated by up to 500-fold with β-mercaptoethanol and 2-fold with 1M urea. The protease was heat stable retaining all of its activity versus FV after 1h at 70°C or 80°C, and partial activity (50%) at 95°C. Proteolysis of FV was blocked by 90% with alpha-1-protease inhibitor; however, the protease was resistant to 1.5 mM PMSF, and unaffected by E64, or iodoacetamide. FV is a major regulator of the coagulation process and its inactivation by the secreted E.coli protease would be expected to result in a net bleeding tendency which may contribute to the mucosal hemorrhage observed in humans with associated hemorrhagic colitis. Proteolytic inactivation of FV is predicted to result in decreased bacterial containment by host fibrin thereby increasing pathogen survival and growth. FV inactivation by the secreted E.coli protease may be part of a novel pathogenic virulence mechanism that deregulates the blood coagulation process to enhance bacterial infectivity and transmission. / UOIT
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Caracterização e análise de vesículas de membrana externa de Neisseria meningitidis em cultura de células de Gliobastoma NG97 / Characterization and analysis of OMVs produced by Neisseria meningitides against tumor Glioblastoma cell line NG97Izidoro Junior, Mario Sérvulo, 1986- 02 January 2013 (has links)
Orientador: Marcelo Lancellotti / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-21T23:54:54Z (GMT). No. of bitstreams: 1
IzidoroJunior_MarioServulo_M.pdf: 2227378 bytes, checksum: fe650bf0745300591928bae4fac67e46 (MD5)
Previous issue date: 2013 / Resumo: Embora comensal da nasofaringe humana, algumas linhagens de Neisseria meningitidis ocasionalmente ultrapassam a mucosa respiratória e a barreira hematoencefálica causando doenças como meningite e septicemia. Sabe-se também que bactérias em geral possuem taxia por células cancerígenas, isto é, possuem uma predileção por infectar células tumorais. Desta forma, neste trabalho produzimos OMV de diversas linhagens de Neisseria meningitidis e analisamos as principais características físico-químicas destas vesículas e, além disso, também verificamos as principais interações desta micropartícula com a linhagem celular NG97, uma linhagem de glioblastoma, tecido pelo qual tal bactéria é conhecida por infectar em casos patológicos, por testes morfológicos in vitro e também analisamos as citocinas inflamatórias através de quantificação relativa por Real time PCR. O grande achado deste trabalho é que a utilização de ultrafiltração substituindo a ultracentrifugação na produção de OMVs é viável, menos trabalhosa e mais rápida que os métodos descritos na literatura. Além disso, as vesículas extraídas por tal processo apresentam tamanhas e cargas superficiais como os encontrados na literatura sendo que cada cepa produz diferentes quantidades de OMVs para um mesmo tempo. Ainda, observou-se que as OMVs obtidas de linhagens atenuadas para os fatores de virulência causaram menores alterações morfológicas na linhagem NG97 do que as OMVs obtidas a partir de linhagens selvagens. A influência de tais fatores de virulência, que auxiliam na interação das células do parasita com as células do hospedeiro, também foi observada na análise das citocinas inflamatórias produzidas, onde foram constatados que na ausência da pilina (proteína responsável pela aderência da bactéria com células epiteliais e endoteliais) a produção de citocinas foi praticamente nula quando comparada com suas diferentes linhagens onde este fator de virulência é presente. Para um possível uso destas vesículas como sistemas lipossomais de entrega de drogas, acredita-se que quanto mais inócua a vesícula for maior seria a biodisponibilidade da molécula antitumoral a ser entregue, como é o caso da OMV produzida pela cepa C2135 ?pilE que, além disso, possui um tamanho menor de 200nm sendo capaz de penetrar nas junções celulares da massa tumoral / Abstract: Neisseria meningitidis is a human nasopharyngeal commensal, however, some strains occasionally exceed the respiratory mucosa and the blood brain barrier causing diseases such as meningitis and septicemia. It is well established that bacteria has a natural predilection to infect cancer cells. Thus, this study produced OMVs from different strains of Neisseria meningitidis and analyzed physicochemical characteristics of these vesicles such as size and surface charge, and also, the main interactions between this nanoparticle and NG97 cell line by in vitro morphological tests and the analyze of the production of inflammatory cytokines by relative quantification Real time PCR. The major finding of this study is that the use of ultrafiltration substituting ultracentrifugation on OMVs production makes the extraction viable, less laborous and faster than previous methods. Furthermore, the vesicles extracted by this process exhibited similar sizes and surface charges when compared to the literature and each strain produces different amounts of OMVs when comparing the same production time. In this work, we also observed that the OMVs generated by attenuated strains for virulence factors induced less morphological changes in the NG97 cells than OMVs generated from wild type strains. This trend where virulence factors which assist the parasite-host cells interaction was also observed in the analysis of cytokines produced. It was observed in the absence of pilin (protein responsible for adherence of the bacteria to epithelial and endothelial cells) the production of cytokines was much lower when compared with the different strains where this virulence factor is present. For a possible use of these lipossomal vesicles as delivery systems for drugs, it is believed that the more innocuous the greater the bioavailability of the antitumor molecule to be delivered, as in the case of OMV produced by the strain C2135 ?pilE, moreover, having a size around 200 nm fits perfectly between the cell junctions allowing the nanoparticle to reach the tumor mass, but further studies are required to confirm this hypothesis / Mestrado / Bioquimica / Mestre em Biologia Funcional e Molecular
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Investigations of enterotoxigenic E. Coli (ETEC) intestinal colonization in neonatal mice and human shedding of panchol, a new live attenuated oral cholera vaccineWang, Bryan 14 March 2024 (has links)
BACKGROUND: Vibrio cholerae and Enterotoxigenic E. Coli (ETEC) are enteropathogens that are global causes of cholera and traveler’s diarrhea which are responsible for millions of diarrhea cases every year. ETEC and cholera are primarily found in Sub-Saharan Africa and Asia, particularly in nations with inadequate sanitation systems or little access to clean water. Infants and children are most vulnerable to these diseases, as severe infections can lead to stunting and death. The incidence of cholera and ETEC diarrhea have increased, due in part to changing weather patterns. At present, robust animal models for studies of ETEC colonization are lacking to study colonization and bottlenecks. The only licensed vaccines against cholera in endemic countries are killed whole cells, however, new live attenuated oral cholera vaccines (OCV) are in development and offer significant advantages. PanChol is a live attenuated OCV entering phase I trials.
SPECIFIC AIMS: To propel studies of ETEC pathogenesis, I attempted to create a suckling mouse model of this globally important pathogen. To accomplish this goal, I constructed barcoded ETEC libraries that enabled me to determine founding population sizes along with intestinal ETEC burdens. To better understand PanChol, a new live attenuated OCV, I studied the shedding of the vaccine in the first 3 human volunteers to ingest this novel agent.
METHODS: Triparental mating of donor strains MFDλpir pJMP1039 and MFDλpir pSM1 with recipient ETEC strains enabled construction of barcoded libraries. Neonatal CD-1 and C57BL/6 mice were infected with 104-107 CFU of wild-type ETEC to develop an infant mouse model. Founding population sizes of ETEC strains were compared via sequencing and STAMPR analysis while CFU burdens were determined via plating. Shedding of PanChol was done through enumeration of serial dilutions of fecal samples. Serotyping of shed PanChol was carried out using anti-Ogawa and anti-Inaba antisera.
RESULTS: There were marked differences in ETEC small intestinal colonization in different mouse strains. Outbred CD-1 suckling mice only colonized with a 107 dose. In contrast, colonization of ETEC was approximately 106 CFU/small intestine at inocula sizes of 105 or greater in C57BL/6 mice. Laboratory studies using simulated bottlenecks made by serial dilutions established that the barcoded libraries accurately reflect founding population sizes up to 105 CFU. There was no difference in founding population sizes at the same inoculum size between WT ETEC and a hypervesiculation ∆mlaE mutant, though the founding population size increased with increasing input. PanChol retained the Hikojima serotype and shedding occurred in all volunteers with maximum colonization occurring 3 days post administration of 106 CFU.
CONCLUSIONS: C57BL/6 P5 mice can serve as a new model to study ETEC intestinal colonization. Hypervesiculating ETEC did not produce a difference in founding population or colonization at the same input as WT ETEC strains. PanChol shows great promise as a viable OCV with shedding at 106 input and no serotype reversion.
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Cinética do cultivo em biorreator de Niesseria meningitidis sorogrupo B / Bioreactor cultivation kinetics of group B Neisseria meningitidisSantos, Silvia 13 August 2007 (has links)
Neisseria meningitidis B libera vesículas de membrana externa, conhecidas pela sigla OMV. Essas possuem os mesmos componentes da membrana externa da bactéria e podem ser utilizadas como antígenos em vacinas contra a meningite B. As vesículas devem, também, expressar proteínas da membrana externa (OMP) e proteínas reguladoras do íon ferro (IRP). O objetivo deste trabalho é estudar a cinética de crescimento bacteriano, consumo das fontes de carbono e nitrogênio - especialmente os limitantes de crescimento ? e produção de OMV visando melhorar a produção desse antígeno. Realizaram-se cultivos descontínuos em biorreator, com duração de 20 h, empregando meio de Catlin com limitação de ferro e modificações nas concentrações de lactato, aminoácidos e glicerol. As condições do cultivo foram: 4,2 L de meio, temperatura de 36°C, pressão de 0,5 atm, vazão de ar 1 L/min, agitação entre 250-850 rpm, controle de oxigênio dissolvido em 10% de saturação. Constatou-se que o lactato é a principal fonte de carbono limitante, embora somente se tem a hipótese de que o glicerol age como protetor mecânico. O ácido L-glutâmico é a principal fonte de nitrogênio consumida durante o cultivo. As OMV começaram a ser liberadas quantitativamente no início da fase estacionária de crescimento. Sendo que a melhor condição para a produção de OMV, valor 162,3 mg/L, é aquela em que as concentrações iniciais de lactato e aminoácidos foram duplicadas, 15,00 g/L e 2,93 g/L respectivamente. Através da análise do padrão eletroforético, confirmou-se a presença das principais proteínas de superfície, inclusive das IRPs. A integridade da OMV foi constatada por microscopia eletrônica. Assim, o antígeno obtido mostra-se passível de utilização na composição de vacina anti-meningocócica. / Neisseria meningitidis B liberates outer membrane vesicles known by the abbreviation OMV. These vesicles have the same components of the outer membrane of the bacteria and may be used as antigens in vaccines against meningitis B. The vesicles must also express outer membrane proteins (OMP) and iron regulated proteins (IRP). The aim of this paper is to study bacterial growth kinetics, carbon and nitrogen sources consumption ? specially those which limit growth ? and OMV production, seeking to improve the production of this antigen. Discontinuous bioreactor cultivations were carried out for a period of 20 hours in Catlin medium with iron restriction and modifications in lactate, amino acid, and glycerol concentrations. Cultivation conditions were: 4,2 L of medium, temperature at 36ºC, 0,5 atm, air flow rate of 1 L/min, agitation between 250-850 rpm, and dissolved oxygen control at 10% of saturation. It was verified that lactate is the main limiting carbon source, although there is just a hypothesis that glycerol acts as a mechanic protector. The L-glutamic acid is the main source of nitrogen consumed during the cultivation. The OMV started to be liberated quantitatively at the beginning of the stationary phase of growth. The best condition for production of OMV, value 162,3 mg/L, is that where the initial concentrations of lactate and amino acids were duplicated, 15,00 g/L and 2,93 g/L, respectively. Through an analysis of the electroforetic pattern, the presence of the main surface proteins was confirmed, including the IRPs. The integrity of the OMV was testified by electronic microscopy. So, the antigen thus obtained may be used in the antimeningococcal vaccine composition.
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Estudo da utilização de nanotubos de carbono como adjuvante em Vacinas de membrana externa de Neisseria meningitidis = Analysis of the use of carbon nanotubes as adjuvant in outer membrane vaccines from Neisseria meningitidis / Analysis of the use of carbon nanotubes as adjuvant in outer membrane vaccines from Neisseria meningitidisMattos, Ives Bernardelli de, 1985- 23 August 2018 (has links)
Orientador: Marcelo Lancellotti / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-23T11:46:02Z (GMT). No. of bitstreams: 1
Mattos_IvesBernardellide_M.pdf: 15060536 bytes, checksum: 32a633419d15c105fec735cb5753d5b2 (MD5)
Previous issue date: 2012 / Resumo: O resumo poderá ser visualizado no texto completo da tese digital quando liberada / Abstract: The abstract is available with the full electronic document when available / Mestrado / Bioquimica / Mestre em Biologia Funcional e Molecular
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Cinética do cultivo em biorreator de Niesseria meningitidis sorogrupo B / Bioreactor cultivation kinetics of group B Neisseria meningitidisSilvia Santos 13 August 2007 (has links)
Neisseria meningitidis B libera vesículas de membrana externa, conhecidas pela sigla OMV. Essas possuem os mesmos componentes da membrana externa da bactéria e podem ser utilizadas como antígenos em vacinas contra a meningite B. As vesículas devem, também, expressar proteínas da membrana externa (OMP) e proteínas reguladoras do íon ferro (IRP). O objetivo deste trabalho é estudar a cinética de crescimento bacteriano, consumo das fontes de carbono e nitrogênio - especialmente os limitantes de crescimento ? e produção de OMV visando melhorar a produção desse antígeno. Realizaram-se cultivos descontínuos em biorreator, com duração de 20 h, empregando meio de Catlin com limitação de ferro e modificações nas concentrações de lactato, aminoácidos e glicerol. As condições do cultivo foram: 4,2 L de meio, temperatura de 36°C, pressão de 0,5 atm, vazão de ar 1 L/min, agitação entre 250-850 rpm, controle de oxigênio dissolvido em 10% de saturação. Constatou-se que o lactato é a principal fonte de carbono limitante, embora somente se tem a hipótese de que o glicerol age como protetor mecânico. O ácido L-glutâmico é a principal fonte de nitrogênio consumida durante o cultivo. As OMV começaram a ser liberadas quantitativamente no início da fase estacionária de crescimento. Sendo que a melhor condição para a produção de OMV, valor 162,3 mg/L, é aquela em que as concentrações iniciais de lactato e aminoácidos foram duplicadas, 15,00 g/L e 2,93 g/L respectivamente. Através da análise do padrão eletroforético, confirmou-se a presença das principais proteínas de superfície, inclusive das IRPs. A integridade da OMV foi constatada por microscopia eletrônica. Assim, o antígeno obtido mostra-se passível de utilização na composição de vacina anti-meningocócica. / Neisseria meningitidis B liberates outer membrane vesicles known by the abbreviation OMV. These vesicles have the same components of the outer membrane of the bacteria and may be used as antigens in vaccines against meningitis B. The vesicles must also express outer membrane proteins (OMP) and iron regulated proteins (IRP). The aim of this paper is to study bacterial growth kinetics, carbon and nitrogen sources consumption ? specially those which limit growth ? and OMV production, seeking to improve the production of this antigen. Discontinuous bioreactor cultivations were carried out for a period of 20 hours in Catlin medium with iron restriction and modifications in lactate, amino acid, and glycerol concentrations. Cultivation conditions were: 4,2 L of medium, temperature at 36ºC, 0,5 atm, air flow rate of 1 L/min, agitation between 250-850 rpm, and dissolved oxygen control at 10% of saturation. It was verified that lactate is the main limiting carbon source, although there is just a hypothesis that glycerol acts as a mechanic protector. The L-glutamic acid is the main source of nitrogen consumed during the cultivation. The OMV started to be liberated quantitatively at the beginning of the stationary phase of growth. The best condition for production of OMV, value 162,3 mg/L, is that where the initial concentrations of lactate and amino acids were duplicated, 15,00 g/L and 2,93 g/L, respectively. Through an analysis of the electroforetic pattern, the presence of the main surface proteins was confirmed, including the IRPs. The integrity of the OMV was testified by electronic microscopy. So, the antigen thus obtained may be used in the antimeningococcal vaccine composition.
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