Global ETD Search

111	Une nouvelle stratégie de vaccination contre Salmonella Enteritidis, chez le poulet de chair : «les vésicules externes de membrane bactérienne» Maduro, Lila 12 1900 (has links) No description available. Salmonella Enteritidis (SE) Vaccin Volaille Outer Membrane Vesicles (OMVs) Vaccination Poultry
112	Busca por alvos de regulação pelo segundo mensageiro c-diGMP em Pseudomonas aeruginosa / Search for c-di-GMP regulation targets in Pseudomonas aeruginosa Gianlucca Gonçalves Nicastro 24 May 2013 (has links) Recentemente, o bis-(3\',5\')-di-guanosina monofosfato cíclico (c-di-GMP) surgiu como uma importante molécula sinalizadora nas bactérias. Essa molécula foi identificada como uma das responsáveis pelo controle do comportamento bacteriano e está relacionada com a patogenicidade e a adaptação de diversas bactérias, coordenando a expressão de genes envolvidos com virulência, motilidade e formação de biofilme. O mecanismo pelo qual c-diGMP atua vem sendo motivo de estudo de vários grupos de pesquisa nos últimos anos. Já foi demonstrado o papel dessa molécula em diferentes etapas do controle da expressão gênica. Acredita-se que a manipulação dos níveis de c-di-GMP pode ser uma nova abordagem terapêutica contra bactérias patogênicas. Pseudomonas aeruginosa é uma proteobactéria do grupo gama, que atua como um patógeno oportunista, causando infecções em pacientes imunocomprometidos, sendo o maior causador de infecções crônicas em pacientes portadores de fibrose cística. O genoma de P. aeruginosa PA14 apresenta vários genes que codificam proteínas envolvidas no metabolismo e/ou ligação de c-di-GMP, o que pode indicar um amplo papel regulatório deste nucleotídeo nessa bactéria. Uma associação infundada entre níveis elevados de c-di-GMP e a resistência aos antibióticos é geralmente assumida, já que altos níveis de c-di-GMP levam à formação de biofilme, que é comprovadamente um modo de crescimento mais resistente. Nesse trabalho, utilizando uma abordagem proteômica, mostramos que Pseudomonas aeruginosa PA14 regula a expressão de cinco porinas em resposta a variações nos níveis de c-di-GMP, independentemente dos níveis de mRNA. Uma dessas porinas, OprD, é responsável pela entrada do antibiótico β-lactâmico imipenem na célula e é menos abundante em condições de alto c-di-GMP. Também demonstramos que linhagens com altos níveis de c-di-GMP apresentam uma vantagem competitiva de crescimento em relação a linhagens com níveis mais baixo de c-di-GMP quando crescidas em meio contendo imipenem. Em contraste, observamos que células planctônicas com elevados níveis c-di-GMP são mais sensíveis a tobramicina. Em conjunto, estes resultados mostram que c-di-GMP pode regular a resistência a antibióticos em sentidos opostos, e independentemente do crescimento em biofilme / Following the genomic era, a large number of genes coding for enzymes predicted to synthesize and degrade 3\'-5\'-cyclic diguanylic acid (c-di-GMP) was found in most bacterial genomes and this dinucleotide emerged as an important intracellular signal molecule controlling bacterial behavior. Diverse molecular mechanisms have been described as targets for c-di-GMP, but several questions remain to be addressed. An association between high c-di-GMP levels and antibiotic resistance is largely assumed, since high c-di-GMP upregulates biofilm formation and the biofilm mode of growth leads to enhanced antibiotic resistance; however, a clear understanding of this correlation is missing. Pseudomonas aeruginosa is a versatile gamma-proteobacterium that behaves as an opportunistic pathogen to a broad range of hosts. The ability of P. aeruginosa to form biofilms contributes to its virulence and adaptation to different environments. The P. aeruginosa PA14 genome presents several genes encoding proteins involved in metabolism or binding to c-di-GMP, which may indicate a wide regulatory role of this nucleotide in this bacterium. Here, using a proteomic approach, we show that Pseudomonas aeruginosa PA14 regulates the amount of five porins in response to c-di-GMP levels, irrespective of their mRNA levels. One of these porins is OprD, decreased in high c-di-GMP conditions, which is responsible for the uptake of the β-lactam antibiotic imipenem. We also demonstrate that this difference leads strains with high c-di-GMP to be more resistant to imipenem even when growing as planktonic cells, giving them a competitive advantage over cells with low c-di-GMP. Contrastingly, we found that planktonic cells with high c-di-GMP levels are more sensitive to aminoglycosides antibiotics. Together, these findings show that c-di-GMP levels can regulate the antibiotic resistance to different drugs in opposite ways and irrespective of a biofilm mode of growth. c-di-GMP Expressão gênica Porinas de membrana externa Pseudomonas aeruginosa Resistência a antibióticos Antibiotic resistance c-di-GMP Gene expression Outer membrane porins Pseudomonas aeruginosa
113	Multirésistance des entérobactéries aux antibiotiques et modulation de l’influx et de l’efflux membranaires chez Escherichia coli ST131 / Multidrug-resistance among Enterobacteriaceae and modulation of influx and efflux in Escherichia coli ST131 Pantel, Alix 09 December 2015 (has links) La diffusion des entérobactéries multirésistantes aux antibiotiques (MDR) à l’échelle mondiale constitue une menace de santé publique majeure. Résistantes à au moins trois classes d’antibiotiques, les entérobactéries MDR entrainent des infections échappant aux traitements de première intention. La première partie de ce travail s’intéresse à l’épidémiologie moléculaire des souches d’entérobactéries MDR isolées dans les infections et les colonisations des patients hospitalisés en Languedoc-Roussillon, en France, et dans un pays où cette épidémiologie est encore peu connue, l’Algérie. Nous avons montré, dans notre région et au niveau national, que la résistance aux carbapénèmes était essentiellement liée à des modifications de la perméabilité membranaire (87,4% des entérobactéries résistantes, au niveau national). Dans la deuxième partie de ce travail, nous avons étudié les modulations de la perméabilité membranaire et de l’efflux chez Escherichia coli ST131, l’exemple-type d’un clone MDR. Nous avons montré que ce clone mondial présentait une remarquable adaptabilité à la pression antibiotique. Cette adaptabilité avait un impact significatif sur la virulence et le fitness de E. coli. Les capacités de formation de biofilm et la virulence chez Caenorhabditis elegans étaient augmentées chez les souches de phénotypes « efflux ». Inversement, les souches de phénotypes « imperméabilité » présentaient un faible potentiel de virulence, associé à une diminution significative de la formation de biofilm et de la mobilité par swimming. / The spread of multidrug-resistant (MDR) Enterobacteriaceae is a major public health threat worldwide. Resistant to at least three classes of antibiotics, MDR Enterobacteriaceae cause infections for which first-line treatments are inefficient. The first part of this work focused on the molecular epidemiology of MDR Enterobacteriaceae strains isolated in infections and colonizations of patients hospitalized in Languedoc-Roussillon, in France and in Algeria, a country where few data are currently available. We showed in our region and nationally, that resistance to carbapenems was mainly due to changes in membrane permeability (87.4% of resistant Enterobacteriaceae, nationally).In the second part of this work, we studied the modulation of membrane efflux and permeability in the quintessential example of an international MDR high-risk clone, Escherichia coli ST131. We showed that this global clone had a remarkable adaptability to antibiotic pressure. This adaptability had a significant impact on the virulence and the fitness of E. coli. The biofilm formation and virulence capacities in Caenorhabditis elegans model were increased in strains overexpressing an efflux system. Conversely, the strains with altered porins expression had a low potential virulence, associated with a significant reduction in biofilm formation and swimming mobility. Multirésistance aux antibiotiques Escherichia coli ST131 Entérobactéries Pompes d'efflux Perméabilité membranaire Virulence Multidrug-Resistance Escherichia coli ST131 Enterobacteriaceae Efflux pumps Outer membrane permeability Virulence
114	Imunogenicidade de antígenos de vesículas de membrana externa (OMVs) de Neisseria meningitidis B associada a lípide catiônico (DDA-BF). / Immunogenicity of Neisseria meningitidis B outer membrane vesicles (OMVs) associated with cationic lipid (DDA-BF). Fabiana Mahylowski Rinaldi 28 April 2014 (has links) Neisseria meningitidis é um diplococo Gramnegativo, aeróbio e encapsulado, causador mais comum de meningite e septicemia. Este agente é o principal causador de infecções bacterianas invasivas no mundo. Apesar de existirem 13 sorogrupos de N. meningitidis, apenas 6 são capazes de causar infecção: A, B, C, W135, X e Y. O sorogrupo B difere dos outros sorogrupos patogênicos por sua cápsula polissacáride ter composição idêntica ao ácido policiálico, presente em muitas glicoproteínas humanas, particularmente encontrados no tecido cerebral fetal, e bioquimicamente homóloga com a estrutura molecular de adesão do neurônio. Sendo assim, a cápsula polissacáride não pode ser usada em vacinas conjugadas, pois pode causar autoimunidade, sendo pouco imunogênica. Doenças meningocócicas causadas pelos sorogrupos A, C, Y e W135 podem ser prevenidas pelas vacinas que contêm polissacarídeos capsulares específicos conjugados. Para que uma vacina seja eficaz contra o sorogrupo B, é importante que esta abranja todos os sorotipos e seja capaz de promover imunidade duradoura, principalmente em crianças abaixo de dois anos, as mais acometidas. Vacinas baseadas em vesículas de membrana externa (OMVs, do inglês Outer Membrane Vesicles) de N. meningitidis B são amplamente estudadas. No presente estudo, OMVs de meningococo B (B:4:P1.9) foram associadas a um lipídio catiônico, o dioctadecildimetilamônio (DDA-BF) em preparação antigênica testada em camundongos fêmeas não isogênicos, e comparamos os títulos de anticorpos IgG, IgG1, IgG2a e IgG2b com os anticorpos produzidos por camundongos imunizados com a mesma OMVS associada ao hidróxido de alumínio, por ELISA. As análises foram realizadas com soros de cada animal colhidos individualmente, após 60 dias de imunização. A avidez dos anticorpos também foi analisada por ELISA. Immunoblot e Dot-ELISA avaliaram a reação específica entre a cepa homóloga usada na imunização e a reação a antígenos cruzados com outras cepas de meningococo. A hipersensibilidade tardia (HTT) foi comparada entre os dois grupos experimentais, após o desafio com cepa homóloga em uma das patas, depois de 24 horas da injeção, após 14 dias da primeira dose de imunização. / Neisseria meningitidis is an encapsulated Gram-negative aerobic diplococcus, the most commom meningitidis and sepsis agent , and the major bacterial invasive disease agent worldwide. Infections are caused by only 6 of 13 pathogenic serogroups: A,B,C, W135 and Y. Meningococcal serogroup B differs from the other pathogenic serogroups because it has a capsular polysaccharide identical to the polysialic acid present in many human glycoproteins, in particular, it is similar to carbohydrates found in fetal brain tissue. This is the reason that it does not allow the use of polysaccharide protein in conjugate vaccine, and for its low immunogenic. An effective meningococcal B vaccine development should cover all serotypes and be able to promote long term immunity, mainly in children under 2 years, the most affected age. Meningococcal outer membrane vesicles (OMVs) vaccines are widely studied. In this present study, meningococcal serogroup B OMVs (B:4:P1.9) was associated with a cationic lipid, dioctadecyldimetylammonium (DDA-BF) in an antigenic preparation tested in female outbred mice. Individual serum was collected, and antibodies titles IgG, IgG1, IgG2a were compared with animals immunized with OMVs and aluminium hydroxide, analyzed by ELISA. Analyses were carried out 60 days after first immunization. Antibodies avidity index were also analyzed by ELISA. Immunoblot and Dot-ELISA were carried out to evaluate specific reaction for homologous stranis and cross-reactive antigens present in other meningococcal strains. Delayed type hypersensitivity (DTH) was compared between two experimental groups, 24 hours before injection of homologous strain challenge. Neisseria meningitidis B Adjuvante Avidez DDA-BF Vacinas meningocócicas Vesículas de membrana externa Neisseria meningitidis B Adjuvant Avidity DDA-BF Meningococcal Outer membrane vesicles
115	Imunização nasal com antígenos de membrana externa de Neisseria meningitidis B selecionados para a maior expressão do imunotipo de LPS 3, 7, 9 com anticorpos monoclonais e Bordetella pertussis como adjuvante em camundongos neonatos. / Nasal immunization with outer membrane antigens of Neisseria meningitidis B selected for the highest expression of the immunotype of LPS 3,7,9 with monoclonal antibodies and Bordetella pertussis as adjuvants in neonates mice. Maria Verônica dos Santos 07 October 2008 (has links) O habitat natural da Neisseria meningitis é a nasofaringe humana e a transmissão da bactéria é por contato direto ou por inalação de partículas durante a fase de transmissão N. meningitis é uma bactéria Gram-negativa responsável por uma significante mortalidade em todo o mundo. Embora existam vacinas polissacárides contras os sorogrupos A, C, W135 e Y , não há uma vacina adequada para crianças menores de 4 anos para o sorogrupo B. Estudos estão sendo direcionadas para pesquisa de antígenos vacinais que são derivados da proteínas de membrana externa(NOMV). Entretanto vacinas baseadas em NOMV são consideradas pouco imunogênicas , fazendo com que o uso de adjuvantes seja necessário. Este estudo investiga a imunogenicidade da NOMV de N. meningitidis administrada pela via intranasal/intramuscular em camundongos neonatos BALC/c, usando proteína de membrana externa (NOMC) obtido de uma cepa epidêmica de N. meningitidis B:4:P1:15. As cepas usadas para imunização dos camundongos foram selecionadas por colony-blot, usando anticorpo monoclonal anti L3,7,9 para maior expressão do LPS contra o imunotipo L3,7,9 presente na cepa (B:4:P1:15 3,7,9). Como adjuvantes de mucosa foram utilizados Bordetella pertussis (células íntegras) ou sobrenadante de cultura com 48 horas ou hidróxido de alumínio [Al(OH)3]. O soro dos camundongos imunizados foram analisados pelo método de ELISA à fim de se comparar os diferentes adjuvantes utilisados. O índice de avidez também foi determinado. IgG e IgM foram detectados nos soros dos camundongos após imunização, com índices de intermediária e alta avidez. Todos os adjuvantes foram capazes de aumentar a resposta imune contra NOMV de N.meningitidis. A via intranasal foi adequada para sensibilizar as células do sistema imune que foram rapidamente estimuladas pela via intramuscular usando os adjuvantes utilizados na presente investigação. Dados sugerem que o estudo da NOMV é importante na indução da imunidade de mucosa para N. meningitidis B, e que a qualidade e magnitude da resposta imune gerada pelas vacinas de mucosa são influenciadas tanto pelo adjuvante como pelo antígeno. Concluímos que NOMV juntamente com adjuvantes de mucosa tem considerável potencial no desenvolvimento de vacinas contra o meningococo do sorogrupo B. / The natural habitat of Neisseria meningitidis is the human nasopharynx, and the bacterium is transmitted by direct mouth-to-mouth contact or by the inhalation of released mucous particles during close contact. N meningitidis is a Gram-negative bacterium responsible for significant mortality worldwide. While effective polysaccharide-based vaccines exist against serogroups A, C, W135, and Y, no similar vaccine is suitable for children under 4 years against disease caused by serogroup B strains. Current studies are searching for vaccinal antigens that are derived from the native outer membrane (NOMV). However, vaccines based on NOMV are considered weak, making the use of adjuvants necessary. This study investigated the immunogenicity of NOMV of N. meningitidis administered intranasal/intramuscular in neonate BALB/c mice, using the native outer membrane complex (NOMC) obtained from an epidemic strain of N. meningitidis B:4:P1.15. The strains used for immunization of mice were selected by colony-blot, using anti L3,7,9 monoclonal antibodies, for the highest expression of LPS among the immunotypes (B:4:P1:15 L9á). As mucosal adjuvants, we used Bordetella pertussis (whole cells) or the supernatant of 48 h culture of this bacterium, followed by an intramuscular dose of the same protein adsorbed onto , B. pertussis (whole cells) or 48-h B. pertussis culture supernatant or aluminum hydroxide [Al(OH)3]. Sera of immunized mice were evaluated by ELISA in order to compare the different adjuvants used. We also determined their avidity index. IgG and IgM were detected in the serum of mice after immunization, with avidity indices that ranged from intermediate to high. All adjuvants were capable of increasing the immune response against NOMV of N. meningitidis in the homologous prime/boost schedule used. The intranasal route was suitable for sensitizing the cells of the immune system which were quickly stimulated by the intramuscular route using the adjuvants analysed in the present invertigation. Data suggest that the NOMV studied is important in the induction of mucosal immunity to N. meningitidis B, and that the quality and magnitude of the immune responses generated by mucosal vaccines are influenced by the adjuvant as well as the antigen. In conclusion, nasal delivery of NoMV with mucosal adjuvants has considerable potential in the development of a mucosal vaccine against serogroup B meningococci. Bordetella pertussis Neisseria meningiditis Camundongos Complexo de membrana externa Imunização nasal Lipopolissacaríde (LPS) Bordetella pertussis Neisseria meningiditis Lipolysaccharide (LPS) Nasal immunization Native outer membrane complex (NOMC) Neonate mice
116	Estudo da imunogenicidade da proteína de classe 3 (PorB) purificada da membrana externa de Neisseria miningitidis: imunização intranasal/intramuscular em camundongos adultos e neonatos utilizando Bordetella pertussis como adjuvante. / Study of the immunogenecity of the class 3 proteins (PorB) purified from the outer mebrane of Neisseria meningitidis: intranasal and intramuscular immunization in adult and neonate mice using Bordetella pertussis as adjuvant. Mariana Lopes Teixeira Raphael 28 March 2008 (has links) As proteínas de classe 3 são candidatas na preparação de uma vacina contra a doença meningocócica. O objetivo deste estudo é determinar a imunogenicidade da proteína de classe 3 purificada da cepa de Neisseria meningitidis do sorogrupo B juntamente com a capacidade adjuvante de whole cells de Bordetella pertussis. Foram imunizados camundongos BALB/c neonatos em um intervalo de 3 a 12 dias entre 1 e 4 doses da proteína de classe 3 mais adjuvante, pela via intranasal e no 21º dia pela via intramuscular com a proteína de classe 3 emulsificada com hidróxido de alumínio. Os resultados demonstraram que após 2 doses pela via intranasal e 1 dose pela via intramuscular houve rápido estímulo das células imunes nos camundongos adultos BALB/c e neonatos BALB/c e outbred. Todos os soros foram analisados por ELISA e immunoblot. O adjuvante B. pertussis administrado pelas vias intranasal ou intramuscular, aumentou a resposta imune comparada com os controles. Anticorpos bactericidas e de alta afinidade foram produzidos. / Proteins of class 3 sound candidates in the preparation of vaccine against meningococcal illness. The aim of this study was to determine the immunogenicity of class 3 proteins purified of Neisseria meningitidis of the serogroup B along with whole cells of Bordetella pertussis as adjuvant. BALB/c and outbred neonate mice between 3 and 12 days old were immunized with 1 to 4 doses of the purified class 3 proteins with or without adjuvant given by the intranasal route, and on the 21st day the animals received an intramuscular dose of the class 3 proteins with or without aluminum hydroxide. The results demonstrated that after 2 doses by the intranasal route and 1 dose intramuscular there was a rapid stimulation of the immune cells in BALB/c adult mice as well as BALB/c and outbred neonates mice. All sera were analyzed by ELISA and immunoblot. The adjuvant B. pertussis used in the present investigation and given via the intranasal or intramuscular route increased the immune response compared with the controls. High affinity and bactericidal antibodies were produced. Neisseria meningitidis Adjuvantes Camundongos neonatos e adultos Imunização intranasal Proteína de mebrana externa Resposta imune humoral Neisseria meningitidis Adjuvants Humoral immune response Nasal immunization Neonates and adults mice Outer membrane protein
117	Estudo da imunogenicidade de antígenos de Neisseria meningitidis: utilização de toxóide como adjuvante, vetorizado em lipossomas, no modelo camundongo. / Neisseria meningitidis antigens immune response study: toxoid as mice model adjuvant encapsulated in liposomes. Tulio Nakazato da Cunha 09 December 2008 (has links) N.meningitidis é diplococcus gram-negativo, patógeno estritamente humano que similarmente a outras bactérias é circundado por membrana externa, com lipídios, proteínas (OMP) e lipopolissacárides. Ela tem sido uma das principais causas da meningite e de outras infecções invasoras no mundo. Este trabalho buscou usar o toxóide STX2 de E.coli como adjuvante para um possível e futuro modelo vacinal e como estimulante antigênico, proteínas da membrana externa do meningococo (OMP) transportados em lipossomas. Observaram-se diferenças na produção de anticorpos IgG obtidas entre os camundongos após cada uma das 3 sangrias mas, não quanto ao índice de avidez. A nova preparação antigênica desencadeou um alto título, mesmo após um ano da 1ª imunização, estimulou a produção de anticorpos para outros sítios de ligação e serviu como proteção ao LPS residual dos processos com deoxicolato da OMP, diminuindo toxicidade da preparação IM reduzindo os riscos para idosos e crianças muito pequenas e também, em imunizações de longo termo, com grande vantagem aos sistemas tradicionais. / N.meningitidis is diplococcus gram-negative strict human patogen that similarly to other bacteria are surrounded by external membrane with lipids, proteins (OMP) and LPS. It has been one of the main causes of the meningitidis and other invading infections in the world. This work searched to use STX2 toxoid of E.coli as adjuvant for a possible and future vaccine model and as antigenic stimulant proteins of the external membrane of meningococci (OMP) carried in liposomes. Differences in the production of IgG antibodies gotten between the mice each one of the 3 bleedings had been observed after but not how much to the avidity index. The new antigenic preparation unchained one high heading exactly after one year of 1st immunization stimulated the production of antibodies for other sites of linking and served as protection to the residual LPS of the processes with deoxicolate of the OMP diminishing toxicity of IM preparation reducing the aged risks for and very small children e also, in immunizations of long term with great advantage to the traditional systems. Escherichia coli Lipossoma Meningite Modelo camundongos Toxóide como adjuvante Escherichia coli Liposome Meningitis Mouse model Outer membrane antigens of Neisseria Toxoid as Adjuvant-antigen
118	Growth rate control of periplasmic product retention in Escherichia coli Bäcklund, Emma January 2008 (has links) The recombinant product is secreted to the periplasm in many processes where E. coli is used as host. One drawback with secretion is the undesired leakage of the periplasmic products to the medium. The aim of this work was to find strategies to influence the periplasmic retention of recombinant products. We have focused on the role of the specific growth rate, a parameter that is usually controlled in industrial bioprocesses. The hypothesis was that the stability of the outer membrane in E. coli is gained from a certain combination of specific phospholipids and fatty acids on one side and the amount and specificity of the outer membrane proteins on the other side, and that the specific growth rate influences this structure and therefore can be used to control the periplasmic retention. We found that is possible to control the periplasmic retention by the growth rate. The leakage of the product increased as the growth rate increased. It was however also found that a higher growth rate resulted in increased productivity. This resulted in equal amounts of product inside the cells regardless of growth rate. We also showed that the growth rate influenced the outer membrane composition with respect to OmpF and LamB while OmpA was largely unaffected. The total amount of outer membrane proteins decreased as the growth rate increased. There were further reductions in outer membrane protein accumulation when the recombinant product was secreted to the periplasm. The lowered amount of outer membrane proteins may have contributed to the reduced ability for the cell to retain the product in the periplasm. The traditional way to control the growth rate is through a feed of substrate in a fed-batch process. In this work we used strains with a set of mutations in the phosphotransferase system (PTS) with a reduced uptake rate of glucose to investigate if these strains could be used for growth rate control in batch cultivations without the use of fed-batch control equipment. The hypothesis was that the lowering of the growth rate on cell level would result in the establishment of fed-batch similar conditions. This study showed that it is possible to control the growth rate in batch cultivations by using mutant strains with a decreased level of substrate uptake rate. The mutants also produced equivalent amounts of acetic acid as the wild type did in fed-batch cultivation with the same growth rate. The oxygen consumption rates were also comparable. A higher cell density was reached with one of the mutants than with the wild type in batch cultivations. It is possible to control the growth rate by the use of the mutants in small-scale batch cultivations without fed-batch control equipment. / QC 20101108 Escherichia coli fed-batch outer membrane proteins recombinant proteins specific growth rate periplasmic retention phosphotransferase system high cell density cultivation acetate formation Industrial Biotechnology Industriell bioteknik
119	Characterization of a fourU RNA thermometer in the <i>ompA</i> gene of <i>Shigella dysenteriae</i> Kevin, Gross 04 June 2013 (has links) No description available. Biomedical Research Biology Shigella shigellosis S. dysenteriae RNA thermometer FourU FourU RNA thermometer OmpA thermoregulation temperature-dependent regulation Outer membrane protein A
120	STRUCTURAL INSIGHT INTO THE BIOGENESIS OF OUTER MEMBRANE PROTEINS IN PATHOGENIC NEISSERIA Evan M Billings (18424239) 23 April 2024 (has links) <p dir="ltr">The obligate human pathogen, <i>Neisseria gonorrhoeae </i>(Ngo), has continued to acquire widespread antibiotic resistance. Ngo is the causative agent of the sexually transmitted disease gonorrhea, and can cause additional complications such as endocarditis, septicemia, and infertility if left untreated. The Centers for Disease Control and Prevention (CDC) now recommends a treatment option of a single drug of last resort, ceftriaxone, leaving a need for novel therapeutics against this pathogen.</p><p dir="ltr">Like many bacterial pathogens, Ngo is Gram-negative consisting of both an inner membrane (IM) and outer membrane (OM). The transmembrane proteins in the IM have primarily an α-helical fold, while the transmembrane proteins in the OM have a β-barrel fold. These β-barrel outer membrane proteins (OMPs) have essential functions in regulating the homeostasis and nutrient acquisition of the cell, in addition to promoting virulence in pathogenic strains. These OMPs are folded and inserted into the outer membrane by the β-barrel assembly machinery (BAM) complex. In <i>E. coli,</i> BAM consists of five proteins: BamA, an OMP itself, and four lipoproteins, BamB, C, D, and E.</p><p dir="ltr">Here we present our work toward the structural characterization of BAM from Ngo (<i>Ng</i>BAM) using cryo-EM. Ngo lack a homolog of BamB and may function as a four component complex. To better understand the mechanism for how <i>Ng</i>BAM is able to mediate OMP biogenesis despite lacking a component that is critical in <i>E. coli</i>, we determined the cryo-EM structure of <i>Ng</i>BAM, which revealed several distinct features including that the barrel domain of BamA being observed in the inward-open conformation. We also investigated <i>Ng</i>BAM as a therapeutic target, by studying its interaction with a novel broad spectrum antibiotic darobactin. We first showed darobactin is effective against the laboratory strains of NgoFA19 and ATCC-49226. We also show it is effective against the human isolate WHOX, with a comparable MIC to ceftriaxone. To structurally characterize the mechanism of inhibition by darobactin, we used cryo-EM to determine the structures of <i>Ng</i>BAM bound to two darobactin compounds. In these structures, darobactin binding was accompanied by large conformational changes in <i>Ng</i>BamA. To further probe the effects of darobactin on the conformational plasticity of <i>Ng</i>BAM we performed experiments using double electron-electron resonance spectroscopy, which showed distance changes between the engineered site labels consistent with the conformational changes observed in our structural observation. In addition, narrowing of the peak distributions indicated that darobactin binding was reducing the overall conformational heterogeneity of the complex. Taken together, the work presented here contributes to the understanding of how <i>Ng</i>BAM functions in folding and inserting OMPs and provides a foundation for future structure based drug design of darobactin and other potential compounds.</p> BAM cryo-EM Neisseria gonorrhoeae structural biology outer membrane proteins (OMPs) beta barrel membrane proteins protein folding gram-negative bacteria antibiotic

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