ABSTRACT
Meningococcus serogroup B (MenB), clonal complex 32 (cc 32), was the Brazilian epidemic strain of meningococcal disease (MD) in the 1990’s. Currently, meningococcus serogroup C (MenC), cc 103, is responsible for most of the cases of the disease in Brazil. The aim of this study was to investigate the seroprevalence of bactericidal antibody (SBA) against representative epidemic strains of MenC, (N753/00 strain, C:23:P1.22,14-6, cc103) and MenB, (Cu385/83 strain, B:4,7:P1.15,19, cc32) in students and employees of a university hospital in the State of Rio Grande do Sul (RS, Brazil). A second MenC strain (N79/96, C:2b:P1.5-2,10, cc 8) was used as a prototype strain of Rio de Janeiro’s outbreak that occurred in the 1990’s. Our previous study showed a 9% rate of asymptomatic carriers in these same individuals. A second goal was to compare the SBA prevalence in meningococcal carriers and non-carriers. Fifty-nine percent of the studied population showed protective levels of SBA titers (log2≥2) against at least one of the three strains. About 40% of the individuals had protective levels of SBA against N753/00 and Cu385/83 strains. Nonetheless, only 22% of the individuals showed protective levels against N79/96 strain. Significantly higher antibody levels were seen in carriers compared to non-carriers (P≤0.009). This study showed that, similar to other States in Brazil, a MenC (23:P1.22,14-6, cc103) strain with epidemic potential is circulating in this hospital. Close control by the Epidemiological Surveillance Agency of RS of the number of cases of MD caused by MenC strains in the State is recommended to prevent a new disease outbreak.
Subject(s)
Humans , Male , Female , Adult , Middle Aged , Young Adult , Antibodies, Bacterial/blood , Neisseria meningitidis, Serogroup B/immunology , Neisseria meningitidis, Serogroup C/immunology , Brazil , Hospitals, University , Immunoblotting/methods , Meningococcal Infections/immunology , Neisseria meningitidis, Serogroup B/isolation & purification , Neisseria meningitidis, Serogroup C/isolation & purification , Seroepidemiologic Studies , Serogroup , Serum Bactericidal Antibody Assay , Statistics, NonparametricABSTRACT
El objetivo del estudio fue determinar los epítopes T de cuatro de las proteínas antigénicas más frecuentes de la membrana externa de Neisseria meningitidis B e identificar los sitios más relevantes donde existe mimetismo molecular para estos epítopes en seres humanos. Para ello se realizó un estudio in silico (estudios que usan herramientas bioinformáticas) usando las bases de datos SWISS-PROT/TrEMBL SYFPEITHI y FASTA, las cuales se emplearon para la determinación de las secuencias proteicas, la predicción de los epítopes T CD4 y CD8, y la determinación del mimetismo molecular en humanos, respectivamente. Se encontró similitud molecular en varias proteínas humanas presentes en diferentes órganos y tejidos, entre ellos: hígado, piel y epitelios, cerebro, sistema linfático y testículos, destacando las encontradas en estos últimos, ya que ellas mostraron la frecuencia más alta de secuencias miméticas. Este hallazgo ayuda a comprender el éxito de N. meningitidis B para colonizar tejidos humanos, el fracaso de ciertas vacunas contra esta bacteria e incluso ayuda a explicar posibles reacciones autoimmunes asociadas a la infección o vacunación.
The objective of the study was to determine the T-cell epitopes of four of the most frequent antigenic proteins of the outer membrane of Neisseria meningitidis B, and to identify the most relevant sites for molecular mimicry with T-cell epitopes in humans. In order to do so, an in silico study -a type of study that uses bioinformatic tools- was carried out using SWISS-PROT/TrEMBL, SYFPEITHI and FASTA databases, which helped to determine the protein sequences, CD4 and CD8 T-cell epitope prediction, as well as the molecular mimicry with humans, respectively. Molecular similarity was found in several human proteins present in different organs and tissues such as: liver, skin and epithelial tissues, brain, lymphatic system and testicles. Of these, those found in testicles were more similar, showing the highest frequency of mimetic sequences. This finding shed light on the success of N. meningitidis B to colonize human tissues and the failure of certain vaccines against this bacterium, and it even helps to explain possible autoimmune reactions associated with the infection or vaccination.
Subject(s)
Humans , Antigens, Bacterial/immunology , Computer Simulation , Epitopes, T-Lymphocyte/immunology , Molecular Mimicry , Neisseria meningitidis, Serogroup B/immunology , ProteomeABSTRACT
Neisseria meningitidis é uma das principais causas de meningite bacteriana e septicemia em todo o mundo, acometendo principalmente crianças menores de 4 anos. Atualmente, não existe uma vacina universal contra o meningococo B (MenB). A imunidade protetora contra o meningococo caracteriza-se pela presença e persistência de anticorpos bactericidas, porém pouco se sabe sobre os mecanismos de desenvolvimento desta memória sorológica. Avaliamos em modelo animal e em humanos, a geração e manutenção das células secretoras de anticorpos (ASC) e dos linfócitos B de memória (LBm) após vacinação contra MenB. Utilizamos como referência a vacina diftérica (dt ou DTP), considerada ter ótima eficácia em humanos. Para o estudo em modelo animal, grupos de 6 a 8 camundongos suíços, fêmeas, de 5 a 6 semanas, foram imunizados com 3 doses da vacina VA-MENGOC-BC ou DTP, via intramuscular, com intervalo de 2 semanas entre as doses. Aproximadamente 2, 4 ou 6 meses após a última dose, os animais receberam a dose reforço. A vacina anti-MenB induziu uma resposta primária de ASC maior que a resposta à dose reforço. Ao contrário, a resposta de ASC à vacina dT foi maior após o booster. A resposta de LBm anti-MenB permaneceu constante (média de 1%) ao longo de todo o estudo, mas a resposta ao toxóide diftérico (TD) foi maior após o booster (média de 1,9%) que após a imunização primária. A concentração de IgC, anticorpos bactericidas e opsonizantes contra MenB foi dose-dependente e foi reativada após a administração das doses reforços. Esses resultados sugerem que os LBm presentes no baço foram responsáveis pela forte resposta de anticorpos observada após a dose reforço. Para o TD, ambas ASC e LBm foram importantes na manutenção da memória sorológica. Para o estudo em humanos, seis voluntários foram imunizados com 3 doses da vacina VA-MENGOC-BC, via intramuscular, com intervalo de 6 a 7 semanas entre as doses. Seis meses após a imunização primária, os indivíduos receberam uma dose...
Neisseria meningitides is one of the leading causes of bacterial meningitis and septicemia worldwide, particularly in children less than four years old. Currently, there is no universal vaccine agoinst serogroup B meningococcus (MenB). Protective immunity against meningococcus is characterized by the presence and persistence of bactericidal antibody, but little is known about the mechanisms of development of the serological memory. In this study, we evaluated in animal model and in humans the generation and maintenance of antibody secreting cells (ASC) and memory B cell after vaccination against MenB. We used the diphtheria vaccine (dT or DTP) as a reference for efficacy in humans. Five to six-week old female Swiss mice in groups of 6 to 8 were immunized with three intramuscular injections of VA-MENGOC-BC or DTP vaccine 2 weeks apart. Approximately 2, 4 or 6 months after the last dose, mice received a booster injection of the vaccine. Vaccination against MenB induced a higher ASC primary response compared with the booster response. In contrast, ASC response to dT was higher after booster than after primary immuinization. Memory B-cell to MenB remained at constant levels (mean of 1%) during the whole study, but the response to diphtheria toxoid (TD) was higher after boosting (mean of 1.9%) when compared with the primary response. IgG, bactericidal and opsonic antibody concentrations to MenB was dose-dependent and was reactivated after booster doses. These data suggest that spleen memory B-cells were responsible for the strong boosting antibody response to MenB. For TD, both ASC and memory B-cell were important for maintenance of the serological memory. For the human study, six volunteers were immunized with three intramuscular injections of VA-MENGOC-BC 6 to 8 weeks apart. Six months after the last dose, subjects received a booster dose. Another group of volunteers (n=5) were immunized with a booster dose of dT vaccine. Three doses of vaccine...