Neisseria meningitidis with decreased susceptibility to penicillin G and molecular characterization of the penA gene in strains isolated at University Hospital Centers of Casablanca and Marrakech (Morocco).

Introduction: the laboratory diagnosis of meningococcal meningitis relies on conventional techniques. This study aims to evaluate the correlation between the reduced sensitivity to penicillin G of Neisseria meningitidis (N.m) strains and the expression of the altered PBP 2 gene. Methods: out of 190 strains of N.m isolated between 2010 and 2021 at the bacteriology laboratories of Ibn Rochd University Hospital Centre (IR-UHC) in Casablanca and the UHC Mohammed VI in Marrakech, 23 isolates were part of our study. We first determined their state of sensitivity to penicillin G by E-Test strips and searched for the expression of the penA gene by PCR followed by Sanger sequencing. Results: of all the confirmed cases of N.m, 93.15% (n=177) are of serogroup B, 75.2% (n = 143) are sensitive to penicillin G and 24.73% (n = 47) are of intermediate sensitivity. No resistance to penicillin G was observed. Reduced sensitivity to penicillin G in N.m is characterized by mutations namely F504 L, A510 V, I515 V, G541 N and I566 V located in the C-terminal region of the penA gene encoding the penicillin-binding protein 2 (PBP2) (mosaic gene). Conclusion: our study presents useful data for the phenotypic and genotypic monitoring of resistance to penicillin G in N.m and can contribute to the analysis of genetic exchanges between different Neisseria species.

Cost-effectiveness of alternative strategies for vaccination of adolescents against serogroup B IMD with the MenB-FHbp vaccine in Canada.

OBJECTIVE: Serogroup B meningococci (MnB) are now the largest cause of invasive meningococcal disease (IMD) in Canada. We assessed the clinical and economic impact of 3 adolescent MenB-FHbp immunization strategies. METHODS: A population-based dynamic transmission model was developed to simulate the transmission of MnB among the entire Canadian population over a 30-year time horizon. Age group-based IMD incidence, bacterial carriage and transmission, disease outcomes, costs, and impact on quality of life were obtained from Canadian surveillance data and published literature. The vaccine was assumed to provide 85% protection against IMD and 26.6% against carriage acquisition. The model estimated the impact of routine vaccination with MenB-FHbp in 3 strategies: (1) age 14, along with existing school-based programs, with 75% uptake; (2) age 17 with 75% uptake, assuming school vaccination; and (3) age 17 with 30% uptake, assuming vaccination outside of school. Costs were calculated from the Canadian societal perspective. RESULTS: With no vaccination, an estimated 3974 MnB cases would be expected over 30 years. Vaccination with strategies 1-3 were estimated to avert 688, 1033, and 575 cases, respectively. These outcomes were associated with incremental costs per quality-adjusted life-year of $976,000, $685,000, and $490,000. CONCLUSIONS: Our model indicated that if the vaccine reduces risk of carriage acquisition, vaccination of older adolescents, even at lower uptake, could have a significant public health impact. Due to low disease incidence, MnB vaccination is unlikely to meet widely accepted cost-effectiveness thresholds, but evaluations of new programs should consider the overall benefits of the vaccination.

Control Strategy Approach for a Well-Characterized Vaccine Drug Product.

Trumenba (MenB-FHbp; bivalent rLP2086), the first meningococcal serogroup B vaccine approved in the United States and subsequently approved in Europe, Canada, and Australia, is well-characterized. Pfizer devised a control strategy approach by using a simplified control strategy wheel for Trumenba based on International Council for Harmonisation (ICH) Q8 (R2), Q9, Q10, and Q11 guidelines, which provide complementary guidance on pharmaceutical development, quality risk management, quality systems, and development and manufacture of drug substances, respectively. These guidelines ensure product quality using a scientific and risk-based approach. Trumenba contains two factor H binding proteins (FHbps), one from each of the two FHbp subfamilies (A and B), adsorbed onto aluminum phosphate. Trumenba manufacturing processes are complicated by the recombinant protein expression of Subfamily A and B proteins and the nature of the drug product (suspension in syringes); the latter also introduces challenges in controlling product critical quality attributes during the development process. In such complex systems, the control strategy is critical to ensuring consistent desired product quality; it also supports the regulatory requirement of continued improvement through continuous process verification and aids regulatory filing. This article describes Pfizer's approach toward robust control strategy development, built on product and process understanding, and links control strategy to regulatory document sections and flow of controls. Specifically, an approach is presented on product quality attribute criticality determination based on safety and efficacy and on an understanding of process parameter criticality. This was achieved by studying the impact of the approach on product quality attributes to define process parameter and in-process controls. This approach is further explained through Trumenba case studies, highlighting specific quality attributes and the associated controls implemented, and provides a holistic view of controls employed for both drug substance and drug product.

Meningococcal serogroup B outbreak response University of Wisconsin-Madison.

A meningococcal serogroup B (MenB) outbreak at a large public university prompted an emergency response to immunize undergraduates. OBJECTIVE: To report on a successful meningococcal serogroup B (MenB) vaccine clinic response at a large public university. METHODS: We assembled the team leaders to write this case report. RESULTS: Activation of the emergency plan and points of dispensing required cooperation of many units on campus under the leadership of university health officials with support from Centers for Disease Control and Prevention, state division of public health and the city-county health department. Significant efforts to provide consistent messages to students and parents regarding the outbreak and the availability of the MenB vaccines were made. Volunteers were recruited to staff the clinics alongside university healthcare providers. Over 22,000 doses of vaccine were administered. CONCLUSION: We report our experience and lessons learned which may be helpful to universities in preventing and responding to disease outbreaks.

Community outbreak of serogroup B invasive meningococcal disease in Beaujolais, France, February to June 2016: from alert to targeted vaccination.

In February and March 2016, four cases of serogroup B invasive meningococcal disease (IMD) occurred over 3 weeks in a small area north of Lyon in the Auvergne-Rhône-Alpes region, France. There were no deaths but two cases had sequelae. This community outbreak was caused by a rare meningococcal strain of the clonal complex ST-32, covered by the 4CMenB/Bexsero vaccine. The incidence rate for serogroup B IMD in this area was 22.5 per 100,000 inhabitants, which is above the epidemic threshold (10/100,000). The number of cases observed was significantly higher than expected in the age group of 0-24 year-olds (standardised incidence ratio: 96). These results suggested the potential emergence of this invasive strain in this sub-population. In accordance with French recommendations, it was decided to vaccinate the population aged between 2 months and 24 years, living, working or studying in the epidemic area. The vaccination campaign took place from April to September 2016. Vaccination coverage was estimated at 47% for one dose and 40% for two doses. The lowest coverage estimations were observed for the age groups younger than 3 and 15-19 years. Enhanced epidemiological and microbiological surveillance reported a fifth case in June 2016, outside the epidemic area.

Predicting the Susceptibility of Meningococcal Serogroup B Isolates to Bactericidal Antibodies Elicited by Bivalent rLP2086, a Novel Prophylactic Vaccine.

Bivalent rLP2086 (Trumenba), a vaccine for prevention of Neisseria meningitidis serogroup B (NmB) disease, was licensed for use in adolescents and young adults after it was demonstrated that it elicits antibodies that initiate complement-mediated killing of invasive NmB isolates in a serum bactericidal assay with human complement (hSBA). The vaccine consists of two factor H binding proteins (fHBPs) representing divergent subfamilies to ensure broad coverage. Although it is the surrogate of efficacy, an hSBA is not suitable for testing large numbers of strains in local laboratories. Previously, an association between the in vitro fHBP surface expression level and the susceptibility of NmB isolates to killing was observed. Therefore, a flow cytometric meningococcal antigen surface expression (MEASURE) assay was developed and validated by using an antibody that binds to all fHBP variants from both fHBP subfamilies and accurately quantitates the level of fHBP expressed on the cell surface of NmB isolates with mean fluorescence intensity as the readout. Two collections of invasive NmB isolates (n = 1,814, n = 109) were evaluated in the assay, with the smaller set also tested in hSBAs using individual and pooled human serum samples from young adults vaccinated with bivalent rLP2086. From these data, an analysis based on fHBP variant prevalence in the larger 1,814-isolate set showed that >91% of all meningococcal serogroup B isolates expressed sufficient levels of fHBP to be susceptible to bactericidal killing by vaccine-induced antibodies.IMPORTANCE Bivalent rLP2086 (Trumenba) vaccine, composed of two factor H binding proteins (fHBPs), was recently licensed for the prevention of N. meningitidis serogroup B (NmB) disease in individuals 10 to 25 years old in the United States. This study evaluated a large collection of NmB isolates from the United States and Europe by using a flow cytometric MEASURE assay to quantitate the surface expression of the vaccine antigen fHBP. We find that expression levels and the proportion of strains above the level associated with susceptibility in an hSBA are generally consistent across these geographic regions. Thus, the assay can be used to predict which NmB isolates are susceptible to killing in the hSBA and therefore is able to demonstrate an fHBP vaccine-induced bactericidal response. This work significantly advances our understanding of the potential for bivalent rLP2086 to provide broad coverage against diverse invasive-disease-causing NmB isolates.

A new meningococcal B vaccine for adolescents and adults: characteristics and methods of use.

The invasive disease from Neisseria meningitidis is one of the leading causes of death for meningitis and sepsis at all ages. The highest incidence of cases occurs at paediatric and adolescent age, but no age of life is considered protected from this infection and disease. Prevention against the five main serogroups is possible using the combined conjugated polysaccharide vaccine against the ACWY (anti-MenACWY) serogroups and the meningococcal B (anti-MenB) protein vaccines. Trumenba® vaccine, approved by the EMA (European Medicine Agency) for use in individuals aged ≥ 10 years, protects against serogroup B invasive disease. This bivalent, recombinant vaccine is able, when given with a 0-6 month schedule, to induce a protective response in adolescents and young adults, comparable with a 3-doses schedule. For this reason, the Trumenba® vaccine should be used routinely with the 2-dose schedule (0-6 months). The 3-doses use could be considered in particular situations, like an occurring epidemic or particular individual risk factors such as asplenia or complement deficit, but is not needed for underlying conditions like diabetes or heart diseases.

A prolonged outbreak of invasive meningococcal disease in an extended Irish Traveller family across three Health Service Executive (HSE) areas in Ireland, 2010 to 2013.

Between March 2010 and November 2013 eight laboratory-confirmed cases of serogroup B, invasive meningococcal disease (IMD) were identified in an extended Irish Traveller family across three Health Service Executive (HSE) areas of Ireland. Cases were aged between 5 and 46 months, and were either a cousin or sibling of another case. All eight cases survived. Chemoprophylaxis was given to relevant nuclear family members and close contacts on each occasion, but failed to prevent further cases. Neisseria meningitidis isolates from six cases were highly related, belonging to the ST-41/44 clonal complex, and shared the porA designation 7­2,4. In November 2013, the outbreak control team recommended that directly observed ciprofloxacin chemoprophylaxis be administered simultaneously to the extended family, and that the four component meningococcal B (4CMenB) vaccine be administered to family members aged 2 months to 23 years inclusive and relevant close contacts of the eighth case. Subsequently these recommendations were implemented at three regional clinics. Additionally pharyngeal swabs (n=112) were collected to assess carriage rates of N. meningitidis in this extended family. Pharyngeal carriage of N. meningitidis was detected in 15 (13%) family members. From the epidemiological investigation and carriage study overcrowding was the most likely risk factor identified in this outbreak. To date, the combination of directly observed ciprofloxacin chemoprophylaxis and use of 4CMenB vaccine have controlled the outbreak with no further cases diagnosed.

A cluster of meningococcal disease caused by rifampicin-resistant C meningococci in France, April 2012.

In April 2012, a cluster of two cases of meningococcal disease caused by rifampicin-resistant C meningococci was reported in the Champagne-Ardenne region, France. The two cases occurred in a student population living in the same town but studying at different schools. Bacteriological and epidemiological investigations of cases have shown that the isolates of both cases were non-differentiable.

Evaluation of quinolone resistance-determining region mutations and efflux pump expression in Neisseria meningitidis resistant to fluoroquinolones.

Three Neisseria meningitidis serotype B strains displaying elevated ciprofloxacin MIC values (0.06 and 0.25 µg/mL) and a GyrA alteration at T91I have been described in the United States by Wu et al. [Wu et al., (2009) Emergence of ciprofloxacin-resistant Neisseria meningitidis in North America. N. Engl. J. Med. 360:886-892] and were further evaluated here by reference broth microdilution against fluoroquinolones (FQ) and other antimicrobial agents. Additional quinolone resistance-determining region (QRDR) mutations and alterations in structure and expression of the mtrCDE efflux system, including its intergenic regions, were also analyzed. Two strains showed ciprofloxacin and levofloxacin MIC values at 0.25 µg/mL, and 1 strain had a ciprofloxacin MIC at 0.06 µg/mL. In addition to T91I, the 2 strains displaying higher FQ MIC values also possessed a T173A alteration on GyrA. All components of the efflux pump mtrCDE (also associated with rifampin resistance) were intact, excluding the presence of insertions/deletions within the pump operon. The promoter region (mtrR) was fully sequenced and was distinct from FQ-susceptible controls. Isolates with higher ciprofloxacin MIC values had identical promoter region, whereas the isolate displaying a lower ciprofloxacin MIC value possessed a different sequence. Expression experiments showed discrepancies of the mRNA in pump components. The most remarkable difference was for the outer membrane protein encoded by mtrE that was hyperexpressed (>3600× elevated compared to control) in the strain displaying a ciprofloxacin MIC value of 0.06 µg/mL. These results confirm that T91I alteration on GyrA had an important role in elevating ciprofloxacin MIC values; however, additional resistance determinants, including other gyrA mutations, also contribute to higher FQ MIC levels. Alterations in expression of mtrCED pump appear to have minimal influence on ciprofloxacin resistance, and this finding was supported by low rifampin susceptible-level results (MIC, ≤0.008 to 0.03 µg/mL).

Reducing inequalities with vaccines: New Zealand's MeNZB vaccine initiative to control an epidemic.

Disadvantaged children of Maori and Pacific origin in New Zealand carry an inequitable burden of infectious diseases, many of which are preventable, some by vaccine. Immunisation is recognised in the developing world as a cheap, effective and efficient means of reducing inequalities. The MeNZB immunisation programme delivered in 2004-2006 towards the expected natural end of a projected 15-year epidemic appears to have had an effect (difficult to prove conclusively) on reducing the disproportionate burden of meningococcal disease carried by this group of children. It was delayed by the late engagement of the New Zealand Ministry of Health, fully briefed from 1996, leading to unnecessary and potentially avoidable deaths and sequelae, many lifelong. Further, failure to adequately assess vaccine effectiveness means that the contribution of MeNZB to the observed reduction in disease, particularly in those aged less than five years, will never be reliably known. However, the MeNZB campaign has at least left a legacy: the National Immunisation Register, which should enable New Zealand to minimise the 'vaccine inverse care law' and contribute to reducing ethnic inequity in the burden of vaccine preventable diseases.

Neisseria meningitidis B vaccines.

Invasive infections caused by Neisseria meningitidis are a serious public health problem worldwide and have a heavy economic impact. The incidence of invasive disease due to Neisseria meningitidis is highly variable according to geographical area and serogroup distribution. Since the introduction of vaccination programs with conjugated vaccine C in children and adolescents, most cases of invasive meningococcal disease in developed countries have been caused by meningococcus B. It is important to underline that invasive meningococcal disease will not be controlled until safe and effective vaccines for meningococcal B are available and widely used. The aims of this article are to describe the most recent developments in meningococcal B vaccines and to discuss how these vaccines can contribute to containing meningococcal disease.

[Detection of rifampicin-resistant strains of Neisseria meningitidis in Uruguay]. / Detección de cepas de Neisseria meningitidis resistentes a rifampicina en el Uruguay.

The objective of this study was to characterize the phenotype and genotype of two isolates of rifampicin-resistant Neisseria meningitidis associated with two independent events involving transmission of severe meningococcal meningitis that occurred in September and October 2010 in Montevideo, Uruguay. The most recent 10 years of data from the national antimicrobial resistance surveillance system were reviewed to estimate the frequency of the particular meningococcal features that were characterized. Rifampicin resistance was studied using the epsilometer test. The serotype and serosubtype of the isolates were determined by ELISA, and the genotype was characterized using DNA digestion with Nhel and pulse field gel electrophoresis. The two isolates were identical: B:2a:P1.5. In the collection of 408 strains of N. meningitidis isolated in Uruguay in the past 10 years, the phenotype only appeared in two isolates, which were sensitive to rifampicin. The two isolates studied also shared a single pulse type, which was different from that of two other rifampicin-resistant isolates obtained in 2003 and 2007. Consequently, it was concluded that both cases of transmission were caused by a single rifampicin-resistant strain, which could have been an import from another country or else the result of a drift from serogroup C to B due to selective pressure exerted by vaccines administered to the population. It is essential to maintain and maximize surveillance. However, since this type of finding has been sporadic so far, unless a secondary case is identified, there is no justification for changing the antimicrobial drug currently being administered to contacts as prophylaxis.

Annual report of the Australian Meningococcal Surveillance Programme, 2007.

In 2007 there were 242 laboratory-confirmed cases of invasive meningococcal disease analysed by the National Neisseria Network, a nationwide network of reference laboratories. The phenotypes (serogroup, serotype and serosubtype) and antibiotic susceptibility of 127 isolates of Neisseria meningitidis from invasive cases of meningococcal disease were determined and an additional 115 cases were confirmed by non-culture based methods. Nationally, 192 (85%) confirmed cases where a serogroup was determined were infected with serogroup B and 14 (6.2%) with serogroup C meningococci. The total number of confirmed cases was 29 fewer than the 271 cases identified in 2006. The only jurisdiction to record a substantial increase in laboratory confirmed cases was New South Wales and this was in sporadic cases of serogroup B infection. Typical primary and secondary disease peaks were observed in those aged 4 years or less and in adolescents and young adults respectively. Serogroup B cases predominated in all age groups and jurisdictions. The common phenotypes circulating in Australia were B:15:P1.7, B:4:P1.4 and C:2a:P1.5. No evidence of meningococcal capsular 'switching' was detected. About three-quarters of all isolates showed decreased susceptibility to the penicillin group of antibiotics (minimum inhibitory concentration [MIC] 0.06-0.5 mg/L). All isolates remained susceptible to rifampicin. A single serogroup B isolate had decreased susceptibility to ciprofloxacin (MIC 0.06 mg/L). This was the first local isolate of this type since the original report of this phenomenon in Australia in 2000.

Meningococcal B vaccine: new drug. The only vaccine against some serogroup B meningococci.

(1) Invasive infections due to serogroup B meningococci can be life-threatening. Antibiotics are not always effective. Vaccines available in France do not protect against serogroup B meningococci. (2) In the French region of Normandy, a vaccine manufactured by the Norwegian National Institute of Public Health and directed against serogroup B meningococci. (2) In the French region of Normandy, a vaccine manufactured by the Norwegian National Institute of Public Health and directed against a meningococcal strain related to the strain circulating in this region has been used since summer 2006 to protect children over one year of age and adolescents. (3) A review of the 16 available immunogenicity studies shows that immunogenicity is similar in children and adults when the vaccine is administered in two doses, six weeks apart. The manufacturing process was modified in 1995, and the new vaccine could be less immunogenic: three doses provided results similar to those obtained with two doses of the older vaccine. This implies that, in epidemic situations, the maximum protection conferred by the vaccine would be reached 3 to 4 months after beginning vaccination. (4) A double-blind placebo-controlled trial conducted between 1988 and 1991 included 171 800 adolescents aged 14 to 16 years who received two doses of the meningitis B vaccine, or placebo injections. During 29 months of follow-up, 12 invasive infections due to serogroup B meningococci occurred in the vaccine group, versus 24 cases in the placebo group. The protection rate was 57% but the confidence interval was very wide (21% to 78%). A correlation was established between the bactericidal antibody titre and clinical protection. (5) In this trial, the adverse events studied in 877 adolescents were infrequent: less than 4% of local adverse events, and about the same proportion of systemic adverse events (headache, nausea, fatigue, malaise), led to taking time off school. (6) Too few data are available for infants. And it is difficult to extrapolate to other countries the results obtained in Norway 10 years ago with a vaccine that was manufactured differently and may be more immunogenic. (7) In practice, vaccination with the Norwegian vaccine is justified in areas where an epidemic strain closely related to the vaccine strain is circulating, even though only about 60% of vaccinees are protected after three doses.

Identification of 2 hypothetical genes involved in Neisseria meningitidis cathelicidin resistance.

Cathelicidins play a pivotal role in innate immunity, providing a first barrier against bacterial infections at both mucosal and systemic sites. In this work, we have investigated the mechanisms by which Neisseria meningitidis serogroup B (MenB) survives at the physiological concentrations of human and mouse cathelicidin LL37 and CRAMP, respectively. By analyzing the global transcription profile of MenB in the presence or absence of CRAMP, 21 genes were found to be differentially expressed. Among these genes, the hypothetical genes NMB0741 and NMB1828 were up-regulated. When either of the 2 genes was deleted, MenB resistance to cathelicidins was impaired in vitro. Furthermore, the deletion of either of the 2 genes substantially reduced MenB virulence, as measured by the number of bacteria found in the blood of infected animals. Altogether, these results indicate that NMB0741 and NMB1828 are novel genes that have never been described before and that are involved in MenB cathelicidin resistance.