The safety and immunogenicity of two Zika virus mRNA vaccine candidates in healthy flavivirus baseline seropositive and seronegative adults: the results of two randomised, placebo-controlled, dose-ranging, phase 1 clinical trials.

BACKGROUND: Developing a safe and immunogenic vaccine against Zika virus remains an unmet medical need. We did two phase 1 studies that evaluated the safety and immunogenicity of two mRNA-based Zika virus vaccines (mRNA-1325 and mRNA-1893) in adults. METHODS: Two randomised, placebo-controlled, dose-ranging, multicentre, phase 1 trials, one of mRNA-1325 (mRNA-1325 trial) and one of mRNA-1893 (mRNA-1893 trial), were done. For both studies, eligible participants were healthy adults (aged 18-49 years) who were flavivirus seronegative or flavivirus seropositive at baseline. Participants in the mRNA-1325 trial, which was done at three centres in the USA, were randomly assigned centrally (1:4), using a randomisation table, to the placebo group or one of three mRNA-1325 dose groups (10, 25, or 100 µg). All participants received two doses. The mRNA-1325 vaccine encoded the premembrane and envelope E structural proteins (prME) from a Micronesia 2007 Zika virus isolate. Participants in the mRNA-1893 trial, which was done at three centres in the USA and one centre in Puerto Rico, were randomly assigned (1:4) to the placebo group or one of four mRNA-1893 dose groups (10, 30, 100, or 250 µg) using centralised interactive response technology. All participants in the mRNA-1893 trial received dose one on day 1 and then dose two on day 29. The mRNA-1893 vaccine encoded the prME from the RIO-U1 Zika virus isolate. Safety was the primary outcome of each study, which was evaluated in the respective safety populations (mRNA-1325 trial: participants who received at least one dose and provided safety data; mRNA-1893 trial: participants who received at least one dose) and the solicited safety population (mRNA-1893 trial only: received at least 1 dose and contributed solicited adverse reaction data). Endpoints in both trials included solicited adverse reactions within 7 days after vaccination and unsolicited adverse events within 28 days after vaccination. The secondary outcome of both trials was immunogenicity assessed by Zika virus-specific neutralising antibodies (nAbs) in the per-protocol populations in either trial (participants with no major protocol deviations received full dose[s] of assigned dose level within the acceptable time window, had samples drawn within acceptable time window, and had prevaccination and corresponding post-vaccination serum samples for testing). These were descriptive studies, with no formal hypothesis testing in either trial. Both trials are registered with ClinicalTrials.gov, NCT03014089 (mRNA-1325 trial) and NCT04064905 (mRNA-1893 trial). FINDINGS: The mRNA-1325 trial was done from Dec 14, 2016, to Aug 16, 2018. 90 participants were enrolled: 53 (59%) participants were women and 37 (41%) were men; 84 (93%) were White; and 74 (82%) were not Hispanic or Latino. All three dose levels of mRNA-1325 (10, 25, and 100 µg) were generally well tolerated, but the vaccine elicited poor Zika virus-specific nAb responses. At 28 days after dose two, geometric mean titres (GMTs) were highest for mRNA-1325 10 µg (10·3 [95% CI 5·9-18·2]). The mRNA-1893 trial was done from July 23, 2019, to March 22, 2021. 120 participants (70 [58%] women and 50 [42%] men) were enrolled, most participants were White (89 [74%]), and not Hispanic or Latino (91 [76%]). In the mRNA-1893 trial, solicited adverse reactions in participants who received a vaccine were mostly grade 1 or 2 and occurred more frequently at higher dose levels and after dose two. No participants withdrew due to an unsolicited treatment-emergent adverse event and most of these events were not treatment related. On day 57, all evaluated mRNA-1893 dose levels induced robust Zika virus-specific nAb responses, independent of flavivirus serostatus, that persisted until month 13. At day 57 in participants who were flavivirus seronegative, plaque reduction neutralisation titre test nAb GMTs were highest for mRNA-1893 100 µg (454·2 [330·0-619·6]); in participants who were flavivirus seropositive, GMTs were highest for mRNA-1893 10 µg (224·1 [43·5-1153·5]) and mRNA-1893 100 µg (190·5 [19·2-1887·2]). INTERPRETATION: These findings support the continued development of mRNA-1893 against Zika virus, which was well tolerated at all evaluated dose levels and induced strong Zika virus-specific serum nAb responses after two doses, regardless of baseline flavivirus serostatus. FUNDING: Biomedical Advanced Research and Development Authority and Moderna.

Enfermedad meningocócica: un estudio de caso control en Ciudad Habana, noviembre 2003-julio 2005 / Meningococcal Disease: a case control study in the City of Havana, November 2003- July 2005

Cuba ejecuta un programa de inmunización antimeningocócica desde 1991. El propósito de este estudio fue identificar posibles factores asociados a la ocurrencia de casos en grupos de vacunados. Un total de nueve casos con enfermedad meningocócica (EM) en Ciudad Habana se registraron en el período noviembre de 2003- julio 2005 en menores de 20 años, pero se estudiaron solo 7, por encontrarse uno fuera del país y otro fallecido. Se seleccionaron aleatoriamente 34 controles comunitarios para comparar con los casos e identificar algunos factores de riesgo asociados y evaluar los anticuerpos bactericidas y ELISA existentes contra la proteína de membrana externa del serogrupo B. El 100% de los casos estudiados presentó la forma meníngea, con una estadía hospitalaria promedio de 9,8 días y una letalidad de 14,3 por ciento (1/7). En el análisis bivariado se encontró la no lactancia materna asociada (OR 3,17 IC95 por ciento = 0,44-27,85) a la ocurrencia de la enfermedad, sin significación estadística (p>0,05) por el pequeño universo de estudio. Finalmente, la regresión logística multivariada indicó asociación con la no lactancia materna (OR 3,22 IC95 por ciento = 0,52-19,52) con la ocurrencia de la enfermedad, pero igualmente esta no fue significativa. La prueba de Mann Whitney para la comparación de los títulos de anticuerpos para el antígeno B en casos y controles mostró una diferencia muy significativa (p< 0,01) a favor de los enfermos, por la respuesta de la memoria inmune a la infección natural. La vacuna cubana es protectora para la enfermedad meningocócica serogrupo BC. En el 57 por ciento de los casos de EM los síntomas comenzaron como promedio cuatro años después de la aplicación de la segunda dosis de la vacuna(AU)

Cuba has carried out a meningococcal immunization program since 1991. Current article aims at knowing the factors associated to meningococcal disease (MD) in vaccinated persons. The universe were the nine cases under 20 years old registered as MD from November 2003 to July 2005 in the City of Havana and 34 community controls to compare to the cases and to identify associated risk factors and to evaluate existing bactericide and ELISA antibodies against the outer membrane protein from serogroup B. Only seven cases were studied because one was out of the country and the other was a dead case. The 100% of studied cases showed the meningitis form, with an average hospital stay of 9.8 days and a lethality of 14,3 percent (1/7). Bivariate analysis showed no maternal nursing (OR 3.17 IC 95 percent = 0,44-27.85) associated to the occurrence of the disease. But it was not significant (p>0.05) due to the study universe. Multivariate analysis found out association with no maternal nursing (OR 3.22 IC95 percent = 0.52-19.52) but it also was not significant. Mann Whitney test to compare antibody titers against B antigen in both groups, showed a very significant difference (p<0.01) for the immune memory response to natural infection. The Cuban vaccine protects from MD caused by serogroup BC. The onset symptoms of the illness occurred with an average of four years after the second dose of the vaccine in 57 percent of the cases(AU)

Variation in the Neisseria meningitidis FadL-like protein: an evolutionary model for a relatively low-abundance surface antigen.

The molecular diversity of a novel Neisseria meningitidis antigen, encoded by the ORF NMB0088 of MC58 (FadL-like protein), was assessed in a panel of 64 diverse meningococcal strains. The panel consisted of strains belonging to different serogroups, serotypes, serosubtypes and MLST sequence types, of different clinical sources, years and countries of isolation. Based on the sequence variability of the protein, the FadL-like protein has been divided into four variant groups in this species. Antigen variants were associated with specific serogroups and MLST clonal complexes. Maximum-likelihood analyses were used to determine the relationships among sequences and to compare the selection pressures acting on the encoded protein. Furthermore, a model of population genetics and molecular evolution was used to detect natural selection in DNA sequences using the non-synonymous : synonymous substitution (d(N) : d(S)) ratio. The meningococcal sequences were also compared with those of the related surface protein in non-pathogenic commensal Neisseria species to investigate potential horizontal gene transfer. The N. meningitidis fadL gene was subject to only weak positive selection pressure and was less diverse than meningococcal major outer-membrane proteins. The majority of the variability in fadL was due to recombination among existing alleles from the same or related species that resulted in a discrete mosaic structure in the meningococcal population. In general, the population structuring observed based on the FadL-like membrane protein indicates that it is under intermediate immune selection. However, the emergence of a new subvariant within the hyperinvasive lineages demonstrates the phenotypic adaptability of N. meningitidis, probably in response to selective pressure.

Clonal Distribution of Disease-Associated and Healthy Carrier Isolates of Neisseria meningitidis between 1983 and 2005 in Cuba

In response to epidemic levels of serogroup B meningococcal disease in Cuba during the 1980s, the VA-MENGOC-BC vaccine was developed and introduced into the National Infant Immunization Program in 1991. Since then the incidence of meningococcal disease in Cuba has returned to the low levels recorded before the epidemic. A total of 420 Neisseria meningitidis strains collected between 1983 and 2005 in Cuba were analyzed by multilocus sequence typing (MLST). The set of strains comprised 167 isolated from disease cases and 253 obtained from healthy carriers. By MLST analysis, 63 sequence types (STs) were identified, and 32 of these were reported to be a new ST. The Cuban isolates were associated with 12 clonal complexes; and the most common were ST-32 (246 isolates), ST-53 (86 isolates), and ST-41/44 (36 isolates). This study also showed that the application of VA-MENGOC-BC, the Cuban serogroup B and C vaccine, reduced the frequency and diversity of hypervirulent clonal complexes ST-32 (vaccine serogroup B type-strain) and ST-41/44 and also affected other lineages. Lineages ST-8 and ST-11 were no longer found during the postvaccination period. The vaccine also affected the genetic composition of the carrier-associated meningococcal isolates. The number of carrier isolates belonging to hypervirulent lineages decreased significantly after vaccination, and ST-53, a sequence type common in carriers, became the predominant ST(AU)

En respuesta a niveles de epidemia de meningitis meningocócica B en Cuba durante la década de 1980, la vacuna VA-MENGOC-BC se ha desarrollado e introducido en el Programa Nacional de Vacunación Infantil en 1991. Desde entonces, la incidencia de enfermedad meningocócica en Cuba ha vuelto a los bajos niveles registrados antes de la epidemia. Un total de 420 cepas de Neisseria meningitidis recogidos entre 1983 y 2005 en Cuba se analizaron escribiendo la secuencia multilocus (MLST). El conjunto compuesto por 167 de las cepas aisladas de casos de la enfermedad y 253 obtenidos a partir de portadores sanos. Mediante el análisis MLST, 63 tipos de secuencias (ST) fueron identificados, y 32 de estos fueron reportados a ser un nuevo ST. Se aislaron y se asociaron con 12 complejos clonales, y los más frecuentes fueron (36 aislamientos) ST-32 (246 aislamientos), ST-53 (86 aislamientos), y ST-41/44. Este estudio también mostró que la aplicación de VA-MENGOC-BC, el cubano al serogrupo B y la vacuna C, la reducción de la frecuencia y la diversidad de hipervirulenta complejos clonales ST-32 (la vacuna contra el serogrupo B de tipo tensión) y ST-41/44 y también afectados otros linajes. Linajes ST-8 y ST 11-ya no se encuentran en el período post-vacunación. La vacuna también se ve afectada por composición genética de la compañía meningocócica asociada a los aislados. El número de la compañía aislados pertenecientes a linajes hipervirulenta disminuyeron significativamente después de la vacunación, y ST-53, un tipo de secuencia común en las compañías, se convirtió en el ST predominante(AU)

The genetic structure of Neisseria meningitidis populations in Cuba before and after the introduction of a serogroup BC vaccine.

We investigated the population genetics in collections of meningococci sampled in Cuba during the period 1983-2005, thereby covering a period before and after the introduction of an antimeningococcal B-C vaccine. A total of 163 case isolates and 210 isolates from healthy carriers were characterized by multilocus sequence typing (MLST) and sequence determination of porA, porB and fetA genes. A total of 56 sequence types (STs) including 28 new STs were identified among these isolates. The analysis of surface antigens revealed variants 3-1 and 3-8 to be prevalent for porB; variant F5-1 was the most common FetA epitope, and variants 19 and 15 corresponded to the prevalent variable regions 1 (VR1) and VR2 PorA epitopes, respectively. The strongest associations between specific surface protein variants and clonal complexes were detected in lineages ST-32 and ST-53. All ST-32 complex isolates possessed porB3 alleles, and the most frequent antigen combination among ST-32 complex isolates was P1.19,15;F5-1. Variants PorB3-64 at PorB and P1.30 at PorA VR2, in combination with the PorA VR1 variants P1.12-1, P1.7 and P1.7-2 as well as the FetA variants F1-2 and F1-7, dominated the ST-53 complex organisms. Furthermore, we observed a statistically significant association between the most frequent porA, porB and fetA alleles and strain invasiveness. Finally, this study showed that the application of VA-MENGOC-BC((R)), the Cuban antimeningococcal vaccine, reduced the number and frequency of the hypervirulent Clonal Complexes ST-32 and ST-41/44, and also impacted on other lineages. The vaccine also affected the genetic composition of the carrier-associated meningococcal isolates. The number of carrier isolates belonging to hypervirulent lineages decreased significantly after vaccination, and ST-53, a sequence type common in carriers, became the predominant ST.

Clonal distribution of disease-associated and healthy carrier isolates of Neisseria meningitidis between 1983 and 2005 in Cuba.

In response to epidemic levels of serogroup B meningococcal disease in Cuba during the 1980s, the VA-MENGOC-BC vaccine was developed and introduced into the National Infant Immunization Program in 1991. Since then the incidence of meningococcal disease in Cuba has returned to the low levels recorded before the epidemic. A total of 420 Neisseria meningitidis strains collected between 1983 and 2005 in Cuba were analyzed by multilocus sequence typing (MLST). The set of strains comprised 167 isolated from disease cases and 253 obtained from healthy carriers. By MLST analysis, 63 sequence types (STs) were identified, and 32 of these were reported to be a new ST. The Cuban isolates were associated with 12 clonal complexes; and the most common were ST-32 (246 isolates), ST-53 (86 isolates), and ST-41/44 (36 isolates). This study also showed that the application of VA-MENGOC-BC, the Cuban serogroup B and C vaccine, reduced the frequency and diversity of hypervirulent clonal complexes ST-32 (vaccine serogroup B type-strain) and ST-41/44 and also affected other lineages. Lineages ST-8 and ST-11 were no longer found during the postvaccination period. The vaccine also affected the genetic composition of the carrier-associated meningococcal isolates. The number of carrier isolates belonging to hypervirulent lineages decreased significantly after vaccination, and ST-53, a sequence type common in carriers, became the predominant ST.

Identification of new meningococcal serogroup B surface antigens through a systematic analysis of neisserial genomes.

The difficulty of inducing an effective immune response against the Neisseria meningitidis serogroup B capsular polysaccharide has lead to the search for vaccines for this serogroup based on outer membrane proteins. The availability of the first meningococcal genome (MC58 strain) allowed the expansion of high-throughput methods to explore the protein profile displayed by N. meningitidis. By combining a pan-genome analysis with an extensive experimental validation to identify new potential vaccine candidates, genes coding for antigens likely to be exposed on the surface of the meningococcus were selected after a multistep comparative analysis of entire Neisseria genomes. Eleven novel putative ORF annotations were reported for serogroup B strain MC58. Furthermore, a total of 20 new predicted potential pan-neisserial vaccine candidates were produced as recombinant proteins and evaluated using immunological assays. Potential vaccine candidate coding genes were PCR-amplified from a panel of representative strains and their variability analyzed using maximum likelihood approaches for detecting positive selection. Finally, five proteins all capable of inducing a functional antibody response vs N. meningitidis strain CU385 were identified as new attractive vaccine candidates: NMB0606 a potential YajC orthologue, NMB0928 the neisserial NlpB (BamC), NMB0873 a LolB orthologue, NMB1163 a protein belonging to a curli-like assembly machinery, and NMB0938 (a neisserial specific antigen) with evidence of positive selection appreciated for NMB0928. The new set of vaccine candidates and the novel proposed functions will open a new wave of research in the search for the elusive neisserial vaccine.

Assessment of vaccine potential of the Neisseria-specific protein NMB0938.

The availability of complete genome sequence of Neisseria meningitidis serogroup B strain MC58 and reverse vaccinology has allowed the discovery of several novel antigens. Here, we have explored the potential of N. meningitidis lipoprotein NMB0938 as a vaccine candidate, based on investigation of gene sequence conservation and the antibody response elicited after immunization in mice. This antigen was previously identified by a genome-based approach as an outer membrane lipoprotein unique to the Neisseria genus. The nmb0938 gene was present in all 37 Neisseria isolates analyzed in this study. Based on amino acid sequence identity, 16 unique sequences were identified which clustered into three variants with identities ranging from 92 to 99%, with one cluster represented by the Neisseria lactamica strains. Recombinant protein NMB0938 (rNMB0938) was expressed in Escherichia coli and purified after solubilization of the insoluble fraction. Antisera produced in mice against purified rNMB0938 reacted with a range of meningococcal strains in whole-cell ELISA and western blotting. Using flow cytometry, it was also shown that anti-rNMB0938 antibodies bound to the surface of the homologous meningococcal strain and activated complement deposition. Moreover, antibodies against rNMB0938 elicited complement-mediated killing of meningococcal strains from both sequence variants and conferred passive protection against meningococcal bacteremia in infant rats. According to our results, NMB0938 represents a promising candidate to be included in a vaccine to prevent meningococcal disease.

Proteomic study via a non-gel based approach of meningococcal outer membrane vesicle vaccine obtained from strain CU385: a road map for discovering new antigens.

This work presents the results from a study of the protein composition of outer membrane vesicles from VA-MENGOC-BC (Finlay Institute, Cuba), an available vaccine against serogroup B Neisseria meningitidis. Proteins were identified by means of SCAPE, a 2DE-free method for proteome studies. More than one hundred proteins were detected by tandem liquid chromatographymass spectrometry analysis of fractions enriched in peptides devoid of histidine or arginine residues, providing a detailed description of the vaccine. A bioinformatic analysis of the identified components resulted in the identification of 31 outer membrane proteins and three conserved hypothetical proteins, allowing the cloning, expression, purification and immunological study of two of them (NMB0088 and NMB1796) as new antigens.

Lipoprotein NMB0928 from Neisseria meningitidis serogroup B as a novel vaccine candidate.

Polysaccharide-based vaccines for serogroup B Neisseria meningitidis have failed to induce protective immunity. As a result, efforts to develop vaccines for serogroup B meningococcal disease have mostly focused on outer membrane proteins (OMP). Vaccine candidates based on meningococcal OMP have emerged in the form of outer membrane vesicles (OMVs) or, more recently, purified recombinant proteins, as alternative strategies for serogroup B vaccine development. In our group, the protein composition of the Cuban OMVs-based vaccine VA-MENGOC-BC was elucidated using two-dimensional gel electrophoresis and mass spectrometry. The proteomic map of this product allowed the identification of new putative protective proteins not previously reported as components of an antimeningococcal vaccine. In the present study, we have determined the immunogenicity and protective capacity of NMB0928, one of those proteins present in the OMVs. The antigen was obtained as a recombinant protein in Escherichia coli, purified and used to immunize mice. The antiserum produced against the protein was capable to recognize the natural protein in different meningococcal strains by whole-cell ELISA and Western blotting. After immunization, recombinant NMB0928 induced bactericidal antibodies, and when the protein was administered inserted into liposomes, the elicited antibodies were protective in the infant rat model. These results suggest that NMB0928 is a novel antigen worth to be included in a broadly protective meningococcal vaccine.

A novel method to screen genomic libraries that combines genomic immunization with the prime-boost strategy.

We employed a prime-boost regimen in combination with the expression library immunization protocol to improve the protective effectiveness of a genomic library used as immunogen. To demonstrate the feasibility of this novel strategy, we used as a prime a serogroup B Neisseria meningitidis random genomic library constructed in a eukaryotic expression vector. Mice immunized with different fractions of this library and boosted with a single dose of meningococcal outer membrane vesicles elicited higher bactericidal antibody titers compared with mice primed with the empty vector. After the boost, passive administration of sera from mice primed with two of these fractions significantly reduced the number of viable bacteria in the blood of infant rats challenged with live N. meningitidis. The method proposed could be applied to the identification of subimmunogenic antigens during vaccine candidate screening by employing expression library immunization.

Identification by genomic immunization of a pool of DNA vaccine candidates that confer protective immunity in mice against Neisseria meningitidis serogroup B.

We have shown previously that expression library immunization is viable alternative approach to induce protective immunity against Neisseria meningitidis serogroup B. In this study we report that few rounds of library screening allow identification of protective pools of defined antigens. A previously reported protective meningococcal library (L8, with 600 clones) was screened and two sub-libraries of 95 clones each were selected based on the induction of bactericidal and protective antibodies in BALB/c mice. After sequence analysis of each clone within these sub-libraries, we identified a pool of 20 individual antigens that induced protective immune responses in mice against N. meningitidis infection, and the observed protection was associated with the induction of bactericidal antibodies. Our studies demonstrate for the first time that ELI combined with sequence analysis is a powerful and efficient tool for identification of candidate antigens for use in a meningococcal vaccine.

Determination of human transferrin concentrations in mouse models of neisserial infection.

Transferrin constitutes the major protein involved in the transport of iron from the sites of absorption to the sites of storage and utilization. Despite the high affinity of transferrin for iron, most bacterial pathogens, such as the human restricted Neisseria meningitidis, have developed iron acquisition mechanisms. Several animal models of bacterial infection that include the exogenous supply of human transferrin have been implemented, and tests using transgenic mouse models are underway. Here we describe an ELISA sandwich procedure based on two monoclonal antibodies with negligible cross-reactivity to murine transferrin, to estimate human transferrin concentrations in mouse sera. The assay can detect as little as 10 ng/ml of human transferrin with coefficients of variation ranging from 1.6% to 4.4% (intra-assay) and 3.8% to 5% (inter-assay). The recovery values range from 90% to 110% in the assay working range (25-400 ng/ml). Human transferrin concentrations estimated in sera from 41 human transferrin transgenic mice ranged from 2 to 14 microg/ml. Further estimations of human transferrin levels in mouse sera of a previously described mouse model of N. meningitidis were also carried out. The intraperitoneal injection of 8 mg of human transferrin achieved a sustained value of human transferrin in mouse sera in the range of 1-2mg/ml over the first 24h, indicating that bacteria reaching the blood stream during this time would be exposed to levels of hTf found in normal human serum.

Bicistronic expression plasmid for the rapid production of recombinant fused proteins in Escherichia coli.

In the post-genomic era, every aspect of the production of proteins must be accelerated. In this way, several vectors are currently exploited for rapid production of recombinant proteins in Escherichia coli. N-terminal fusions to the first 47 amino acids of the LpdA (dihydrolipoamide dehydrogenase A) protein of Neisseria meningitidis have been shown to increase the expression of recombinant proteins. Consequently, we have constructed a modified N-terminal LpdA fusion vector, introducing the blue/white colony selection by exploiting a bicistronic gene organization. In the new vector, the sequence encoding the first 47 amino acids of meningococcal LpdA and the alpha-peptide sequence of beta-galactosidase were connected via a ribosome-binding site, and two MCSs (multiple cloning sites) were located surrounding the latter, allowing efficient cloning by colour selection of recombinants. The vector was also improved with the addition of a C-terminal polyhistidine tag, and an EKS (enterokinase recognition sequence) immediately after the LpdA fusion sequence. The new plasmid was employed in the expression and purification of six different bacterial polypeptides. One of these recombinant proteins, P6 protein from Haemophilus influenzae, was used as a model and its N-terminal fusion sequence was totally removed from the recombinant version after incubation with the enterokinase protease, while the polyhistidine tail successfully allowed the purification of the unfused protein from the protease reaction. Two completely new neisserial vaccine candidates, NMB0088 and NMB1126 proteins, were cloned, expressed and purified using this system. To our knowledge, this constitutes the first report of the cloning and expression of these proteins in E. coli.

Immunization with Neisseria meningitidis outer membrane vesicles prevents bacteremia in neonatal mice.

Although vaccines based on outer membrane vesicles (OMV) of Neisseria meningitidis have been developed and administered to children, little is known about the magnitude and quality of the immune response in animal models of early life immunization. We investigated the immunogenicity of meningococcal OMV, and the influence of route and immunization schedule, in neonatal mice. The administration of two intraperitoneal doses of OMV, given at 7 and 14 days after birth, induced a significant antibody response and was highly effective in conferring protection against bacteremia in 21-day-old mice challenged with meningococci. Intranasal immunization was less effective and did not generate a protective immune response. The antibodies elicited by intraperitoneal immunization were cross-reactive with several meningococcal strains and a memory response was demonstrated when mice immunized as neonates were given a booster immunization at 6 weeks of age.

Outer membrane vesicles of Neisseria lactamica as a potential mucosal adjuvant.

The muscosal delivery of vaccines has many advantages including ease of administration and the induction of a mucosal immune response at the natural site of infection for many pathogens. Mice were immunised with outer membrane vesicles (OMV) prepared from Neisseria lactamica or Neisseria meningitidis by subcutaneous (SC) or intranasal (IN) routes, or live cells of N. lactamica given IN or by SC injection. A systemic IgG and mucosal IgA response was demonstrated and N. lactamica OMV induced antibodies cross-reactive with N. meningitidis; however, a cross-reactive response following IN administration was only evident after three doses of vaccine. OMV from both organisms were also an effective intranasal adjuvant for a co-administered model antigen, hepatitis B surface antigen (HBsAg), inducing systemic IgG against HBsAg and IgA in lung and vaginal washes. IN administration of N. meningitidis OMV elicited serum antibodies that were bactericidal for meningococci and provided passive protection in an infant rat model of meningococcal bacteraemia. The antibody response to N. lactamica OMV given IN was only weakly bactericidal but still afforded passive protection. Thus, OMV from N. lactamica given IN elicit immune responses cross-reactive with N. meningitidis and act as an effective mucosal adjuvant.

SCAPE: a new tool for the Selective CApture of PEptides in protein identification.

A method for the selective capture and analysis of peptides containing neither histidine nor arginine is evaluated. It is based on the reversible modification of alpha- and epsilon-amino groups of peptides and the relatively easy separation of charged and noncharged peptides by cation exchange chromatography. The simplicity of the method and the results obtained in silico and with standard proteins, anticipate the utility of the SCAPE approach for proteome analyses.