Vaccines
In 2020 we celebrate 75 years of the anniversary of our founding with a year of activities dedicated to demonstrating the impact of microbiologists’ past, present and future – bringing together and empowering communities that help shape the future of microbiology. We are launching new collections of digital content throughout the anniversary year. The third digital hub is ‘Vaccines: the global challenge for microbiology’, which will explore how vaccines work, how they are produced, herd immunity and disease eradication.
This Vaccine collection brings together the work of our journals on current and future vaccines, how they protect not just humans but animals as well, and how they are created.
Collection Contents
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Evaluation of protective immunity responses against pneumococcal PhtD and its C-terminal in combination with outer-membrane vesicles as adjuvants
Introduction. Streptococcus pneumoniae is a significant bacterial pathogen in humans. Currently, there are two types of pneumococcal vaccines, but there are concerns regarding their application.
Aim. Since many pneumococcal proteins are serotype-independent, polyhistidine triad protein D (PhtD) has been selected as a vaccine candidate.
Methodology. We prepared recombinant PhtD and its C-terminal fragment (PhtD-C) using alum and outer-membrane vesicles (OMVs) as adjuvants. The combinations were injected intraperitoneally into mice, and then total immunoglobulin G (IgG) and specific IgG, IgG1 and IgG2a were measured. A serum bactericidal assay and opsonophagocytosis were also performed as complementary tests. Meningococcal OMVs were used as an adjuvant.
Results. The levels of specific IgG and IgG1 against combinations of PhtD and its C-terminal with OMVs and alum as adjuvants increased at the time of the third mouse immunization on day 35. Forty per cent and 60% of S. pneumoniae ATCC 6303 (serotype 3) as a virulent pneumococcal strain, respectively, were killed in the opsonophagocytosis test and these results could also be observed in the serum bactericidal assay. Mice mmunized iwith PhtD and its C-terminal with OMVs and alum as adjuvants survived after 10 days of pneumococcal challenge.
Conclusion. The combination of PhtD and PhtD-C with alum produced optimal results, but the combination of PhtD and PhtD-C with OMVs produced minimal results by comparison. The survival rates were also measured, and these corresponded with the results of the immunological assessments. Our findings showed that mice receiving PhtD and PhtD-C plus OMV and alum had higher survival rates than the mice in the other groups.
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Evaluation of antibody persistence after a four-dose primary hepatitis B vaccination and anamnestic immune response in children under 6 years
Introduction. Tunisia is an intermediate hepatitis B virus (HBV) endemic country. The vaccination against hepatitis B was introduced in 1995 including four doses with a first dose administrated at birth. Decreasing the level of antibodies against hepatitis B surface antigen (anti-HBs) over time can be alarming. This study was conducted to explore the anti-HBV immune response among children under 6 years old, vaccinated according to the national vaccination schedule, by evaluating the immunological response to primary vaccination and by exploring the anamnestic immune response to a booster dose.
Methods. We conducted a cross-sectional prospective study from June 2016 to June 2017 (n=180), based on voluntary participation. Children were recruited from the public pediatric ward sectors in Sahloul University Hospital of Sousse in Central Tunisia. An anti-HB titre was determined based on electro-chemiluminescence micro-particle immunoassay (ECLIA), using Elecsys Anti-HBs II kit, Roche.
Results. Mean age at the time of enrollment in the study was 33±14.8 months. The seroprotection rate was 77.2 %. The anti-HB titre differed significantly between the different age groups (P=0.002). The predicting variable for having no seroprotective antibody level was older age. Children with anti-HB levels <10 IU l− 1 were offered an additional dose of HBV vaccine. Anamnestic response 1 month after the challenge dose was observed in 100 % of subjects. The probability of developing a high antibody response, following the booster dose increased in conjunction with an increased pre-booster antibody level.
Conclusion. The response to a booster dose suggests the persistence of immune memory in almost all vaccinated individuals. Although a booster dose increases substantially anti-HB titre, the clinical relevance of such an increase remains unknown.
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Evaluation of the role of respiratory syncytial virus surface glycoproteins F and G on viral stability and replication: implications for future vaccine design
Respiratory syncytial virus (RSV) remains a leading cause of infant mortality worldwide and exhaustive international efforts are underway to develop a vaccine. However, vaccine development has been hindered by a legacy of vaccine-enhanced disease, poor viral immunogenicity in infants, and genetic and physical instabilities. Natural infection with RSV does not prime for enhanced disease encouraging development of live-attenuated RSV vaccines for infants; however, physical instabilities of RSV may limit vaccine development. The role of RSV strain-specific differences on viral physical stability remains unclear. We have previously demonstrated that the RSV fusion (F) surface glycoprotein is responsible for mediating significant differences in thermostability between strains A2 and A2-line19F. In this study, we performed a more comprehensive analysis to characterize the replication and physical stability of recombinant RSV A and B strains that differed only in viral attachment (G) and/or F surface glycoprotein expression. We observed significant differences in thermal stability, syncytia size, pre-fusion F incorporation and viral growth kinetics in vitro, but limited variations to pH and freeze–thaw inactivation among several tested strains. Consistent with earlier studies, A2-line19F showed significantly enhanced thermal stability over A2, but also restricted growth kinetics in both HEp2 and Vero cells. As expected, no significant differences in susceptibility to UV inactivation were observed. These studies provide the first analysis of the physical stability of multiple strains of RSV, establish a key virus strain associated with enhanced thermal stability compared to conventional lab strain A2, and further support the pivotal role RSV F plays in virus stability.
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