Preventive Efficacy of Pneumococcal Conjugated Vaccine (Population Aspects)

Relevance. Pneumococcal disease remains an urgent public health problem, despite mass immunization of infants and young children. The impact of children’s universal vaccination on the morbidity and etiological structure in various clinical forms of infection remains unclear in children and adults. Аim. Тo evaluate the herd effect of children’s mass immunization with a 13-valent conjugated pneumococcal vaccine. Materials and Methods. The prophylactic efficacy of mass vaccination is studied within comparative retrospective epidemiological analysis of incidence rates and etiological structure of bacterial meningitis, ear diseases and mastoiditis, and community-acquired pneumonia in children and adults of Krasnoyarsk region in the pre- and post-vaccination periods, according to the official statistics and microbiological monitoring. Results. The changes in decrease of incidence rates with all clinical forms of pneumococcal infection except community-acquired pneumonia are revealed both in children and adults during mass immunization. Etiological structure changes and also changes of S. pneumoniae serotype distribution are detected in major clinical forms of infection. Conclusion. Reducing the incidence rates in children is determined predominantly by vaccinal prevention. The observed decrease of incidence rates in adults is the result of reducing the number of pneumococcal infection sources among children (herd immunity).

Liposomal Encapsulation of Polysaccharides (LEPS) as an Effective Vaccine Strategy to Protect Aged Hosts Against S. pneumoniae Infection

Despite the availability of licensed vaccines, pneumococcal disease caused by the bacteria Streptococcus pneumoniae (pneumococcus), remains a serious infectious disease threat globally. Disease manifestations include pneumonia, bacteremia, and meningitis, resulting in over a million deaths annually. Pneumococcal disease disproportionally impacts older adults aged ≥65 years. Interventions are complicated through a combination of complex disease progression and 100 different bacterial capsular polysaccharide serotypes. This has made it challenging to develop a broad vaccine against S. pneumoniae, with current options utilizing capsular polysaccharides as the primary antigenic content. However, current vaccines are substantially less effective in protecting the elderly. We previously developed a Liposomal Encapsulation of Polysaccharides (LEPS) vaccine platform, designed around limitations of current pneumococcal vaccines, that allowed the non-covalent coupling of polysaccharide and protein antigen content and protected young hosts against pneumococcal infection in murine models. In this study, we modified the formulation to make it more economical and tested the novel LEPS vaccine in aged hosts. We found that in young mice (2–3 months), LEPS elicited comparable responses to the pneumococcal conjugate vaccine Prevnar-13. Further, LEPS immunization of old mice (18–22 months) induced comparable antibody levels and improved antibody function compared to Prevnar-13. Importantly, LEPS protected old mice against both invasive and lung localized pneumococcal infections. In summary, LEPS is an alternative and effective vaccine strategy that protects aged hosts against different manifestations of pneumococcal disease.

The quorum sensing com system regulates pneumococcal colonisation and invasive disease in a pseudo-stratified airway tissue model

Streptococcus pneumoniae (Spn) colonises respiratory epithelia but can also invade lung cells causing pneumonia. We developed an ex vivo model with human airway epithelial (HAE) cells harvested from lung biopsies to study Spn colonisation and translocation. Flow-cytometry, confocal imaging and electron microscopy studies identified the epithelial lineage with signs of differentiation (beating cilia, mucus, and tight junctions). HAE cells were challenged with Spn wild-type TIGR4 (wtSpn) or its isogenic ΔcomC quorum sensing-deficient mutant. ΔcomC mutant colonised significantly less than wtSpn at 6 h post-inoculation but at significantly higher levels at 19 h and 30 h. Translocation correlated inversely with colonisation density. Transepithelial electric resistance (TEER) decreased after pneumococcal infection and correlated with increased translocation for both strains. Confocal imaging illustrated colocalisation of intracellular Spn with both cilia and zonulin-1 and prominent microcolony formation with wtSpn but disintegration of microcolony structures over time with ΔcomC mutant. ΔcomC caused a more pronounced release of both zonulin-1 and lactate dehydrogenase into the supernatant at later time points than wtSpn, suggesting that cytotoxicity is likely not the mechanism leading to translocation. There was a density- and time-dependent increase of inflammatory cytokines from human HAE cells infected with ΔcomC compared with wtSpn, including increased levels of the NLRP3 inflammasome-related IL-18. In conclusion, our experiments indicate that ComC system allows a higher organisational level of population structure resulting in microcolony formation, increased early colonisation and subsequent translocation. We propose that ComC inactivation unleashes a very different and possibly more virulent phenotype that merits further investigation.

Reduced Risk of Serious Pneumococcal Infection Up to 10 Years After 7-Valent Pneumococcal Conjugate Vaccine in Arthritis Patients

Background: To examine rates of serious pneumococcal infections up to 10 years after vaccination with 7-valent conjugated pneumococcal vaccine (PCV7) in patients with arthritis compared to non-vaccinated arthritis patients.Methods: In total, 595 adult arthritis patients (rheumatoid arthritis; RA=342, 80% women and spondylarthropathy; SpA=253, 45% women) received one dose of PCV7. Mean age/disease duration were 62/16 and 51/14 years, respectively. For each patient, 4 matched reference subjects were identified.At vaccination, 420 patients received bDMARDs (anti-TNF=330, tocilizumab=15, abatacept=18, anakinra=1, rituximab=56). Methotrexate was given as monotherapy (n=86) or in combination with bDMARD (n=220). 89 SpA patients received NSAIDs without DMARD. The Skåne Healthcare Register was searched for ICD-10 diagnostic codes for pneumococcal infections (pneumonia, lower respiratory tract infection, septicemia, meningitis, septic arthritis) between January 2000 and December 2018. Frequency of infections after vs before vaccination were calculated (relative risks). Relative risk ratio (RRR) and relative risk reduction (1-RRR) were calculated comparing patients vs non-vaccinated references. Kaplan-Meier and Cox regression were used to investigate time to first event and predictors of infections.Results: Among vaccinated RA and SpA patients, there was a significant relative risk reduction of pneumonia and all serious infections; 53% and 46%, respectively. There was no significant difference in time to first pneumonia or all serious infections after vaccination between patients and references. Higher age, RA diagnosis and concomitant prednisolone were associated with infections.Conclusion: One dose of pneumococcal conjugate vaccine may decrease risk of serious pneumococcal infection up to 10 years in patients with arthritis receiving immunomodulating treatment. Clinical trial registration number: EudraCT EU 2007-006539-29 and NCT 00828997

Review of global use of licensed vaccines and development of new vaccines for the prevention of pneumococcal infection

Streptococcus pneumoniae infection is the most common cause of high morbidity and mortality among children under 5 years of age, immunocompromised people, and the elderly. Despite significant success, the approved pneumococcal conjugate and polysaccharide vaccines are of limited efficacy, providing protection against a small fraction of the known pneumococcal serotypes. The rapid spread of multidrug-resistant strains exacerbates the global challenge of treating infection caused by S. pneumoniae. At the same time, the emerging new strains dictate the need to include new serotypes into vaccines. In view of this, further improvement of vaccines for the prevention of pneumococcal infections is an urgent task. The aim of this study was to review advances in the development of polysaccharide, conjugate, whole-cell pneumococcal vaccines, as well as vaccines based on protein antigens and vaccines with an antigen delivery system. Genomics and proteomics data have helped to improve approaches to the creation of polysaccharide and protein-based vaccines, as well as whole-cell vaccines with the potential for population prophylactic coverage against various pneumococcal serotypes that are not included in the licensed pneumococcal vaccines. The method of antigen delivery to the cell is of great importance in the development of vaccines. The most promising strategy for improving pneumococcal vaccines is the creation of vaccines based on bacterium-like or synthetic particles carrying several antigens, including pneumococcal surface proteins. In conclusion, it should be noted that top-priority vaccines are those that provide a wide range of protection against circulating pneumococcal serotypes and, in addition to eliciting a systemic immune response, also induce local immunity.

Establishment of an ELISpot Assay to Detect Cellular Immunity against S. pneumoniae in Vaccinated Kidney Transplant Recipients

In organ transplant recipients, the rate of invasive pneumococcal diseases is 25 times greater than in the general population. Vaccination against S. pneumoniae is recommended in this cohort because it reduces the incidence of this severe form of pneumococcal infection. Previous studies indicate that transplant recipients can produce specific antibodies after pneumococcal vaccination. However, it remains unclear if vaccination also induces specific cellular immunity. In the current study on 38 kidney transplant recipients, we established an interferon-γ ELISpot assay that can detect serotype-specific cellular responses against S. pneumoniae. The results indicate that sequential vaccination with the conjugated vaccine Prevenar 13 and the polysaccharide vaccine Pneumovax 23 led to an increase of serotype-specific cellular immunity. We observed the strongest responses against the serotypes 9N and 14, which are both components of Pneumovax 23. Cellular responses against S. pneumoniae correlated positively with specific IgG antibodies (r = 0.32, p = 0.12). In conclusion, this is the first report indicating that kidney transplant recipients can mount specific cellular responses after pneumococcal vaccination. The ELISpot we established will allow for further investigations. These could help to define, for example, factors influencing specific cellular immunity in immunocompromised cohorts or the duration of cellular immunity after vaccination.

Intracellularly Released Cholesterol from Polymer-Based Delivery Systems Alters Cellular Responses to Pneumolysin and Promotes Cell Survival

Cholesterol is highly abundant within all human body cells and modulates critical cellular functions related to cellular plasticity, metabolism, and survival. The cholesterol-binding toxin pneumolysin represents an essential virulence factor of Streptococcus pneumoniae in establishing pneumonia and other pneumococcal infections. Thus, cholesterol scavenging of pneumolysin is a promising strategy to reduce S. pneumoniae induced lung damage. There may also be a second cholesterol-dependent mechanism whereby pneumococcal infection and the presence of pneumolysin increase hepatic sterol biosynthesis. Here we investigated a library of polymer particles varying in size and composition that allow for the cellular delivery of cholesterol and their effects on cell survival mechanisms following pneumolysin exposure. Intracellular delivery of cholesterol by nanocarriers composed of Eudragit E100–PLGA rescued pneumolysin-induced alterations of lipid homeostasis and enhanced cell survival irrespective of neutralization of pneumolysin.

Revisiting Spleen Function and Pneumococcal Risk in Children with Hemoglobin SC Disease

Spleen dysfunction and susceptibility to pneumococcal infection is a well known feature in homozygous sickle cell disease (HbSS), whilst to date splenic function in hemoglobin SC disease (HbSC) has been poorly investigated. The aim of this study was to analyze spleen function in children with HbSC disease using a high-throughput validated method (1) and to examine if the current recommendations regarding pneumococcal risk are appropriate in this population. Spleen function was evaluated using a flow cytometry quantification of red blood cells (RBCs) with Howell-Jolly bodies (HJBs), in a cross-sectional study of patients at steady state during an outpatient visit in an expert center. Quantification of HJB-RBCs was performed in children with HbSC disease aged < 10 years and compared to children with HbSS disease or healthy children of the same age groups, or splenectomized children. Additional exploratory analysis was performed according to age (under or above the age of 5 years old) and treatment group (hydroxyurea). The median (Q1-Q3) HJB-RBCs count was 16 (11-28.25) /100.000 RBCs in 40 HbSC children (Figure 1). This result was not statistically different from the control group of 22 healthy children (p=0.96) nor in subgroups < or ≥ 5 years old, indicating that children with HbSC under 10 years have a preserved splenic function. Expectedly, the HJB-RBCs counts differed significantly from splenectomized children (419 (296-489)/100.000 RBCs, n=15, p<0.0001). By contrast, among the 53 HbSS children, the median HJB-RBCs count was 134 (29-216) /100.000 RBCs, differing significantly from HbSC children (p<0.0001). In HbSS children, HJB-RBCs counts increased significantly with age (r=0.30, p=0.03), showing important variability among subjects but did not reach the level found in splenectomized patients suggesting that complete loss of spleen function occurs presumably later in a majority of children in this population. Treatment with hydroxyurea did not significantly impact HJB-RBCs counts in a subgroup analysis in HbSS children. The result of this study suggests that spleen function in children under 10 years old with HbSC is not altered. The routine administration of prophylactic penicillin to young children with SC disease may therefore be questioned. Similarly, fever in children with HbSC under 3 years old may not require parenteral antibiotics as it is generally currently recommended by analogy to children with HbSS. Functional or anatomical asplenia in children with HbSC is delayed compared to those with HbSS at least after the first decade of life. Future large cohort studies using similar methodology will allow better evaluation of the pneumococcal risk in adolescents and adults with Hb SC disease. Bibliography (1) El Hoss S, Dussiot M, Renaud O, Brousse V, El Nemer W. A novel non-invasive method to measure splenic filtration function in humans. Haematologica. oct 2018;103(10):e436-9. Figure 1 Figure 1. Disclosures El Nemer: Hemanext: Consultancy.

Molecular Characterization Based on Whole-Genome Sequencing of Streptococcus pneumoniae in Children Living in Southwest China During 2017-2019

BackgroundStreptococcus pneumoniae is an important pathogen causing high morbidity and high mortality in children and undergoes frequent recombination for capsule switching to neutralize the 13-valent pneumococcal conjugate vaccine (PCV13). This study aimed to investigate the prevalence, and molecular characteristics including serotypes and antibiotic susceptibility of S. pneumoniae isolated from children living in Southwest China from 2017 to 2019 to facilitate the selection of effective vaccine formulations and appropriate antibiotic treatment regimens.MethodsThis study was conducted at West China Second University Hospital (Chengdu, Sichuan Province, China), Zunyi Medical University Third Affiliated Hospital/First People’s Hospital of Zunyi (Zunyi, Guizhou Province, China) and Chengdu Jinjiang District Maternal and Child Healthcare Hospital (Chengdu, Sichuan Province, China). Demographic and clinical characteristics of children infected with S. pneumoniae were collected and analysed. Next-generation sequencing and sequence analysis were used to determine the serotypes, sequence types, antibiotic resistance and potential protein vaccine target genes of the pneumococcal isolates. The coverage rate provided by PCV13 was estimated by calculating the percentage of the specific serotypes that were specifically the PCV13-included serotypes. Antimicrobial susceptibility was determined by the microdilution broth method.ResultsThe most prevalent pneumococcal serotypes were 19F (25.8%), 19A (14.1%), 6B (12.5%), 6A (9.4%) and 14 (7.8%). The predominant STs were ST271 (23.3%), ST320 (15.5%) and ST90 (8.6%), dominated by the clonal complex Taiwan19F-14 (39.1%). The coverage rate of PCV13 was 77.3% in all the isolates, with relatively higher values in invasive isolates (86.4%). Over the decade, the rates of resistance to penicillin, amoxicillin and cefotaxime were 5.6%, 5.3% and 5.1%, respectively, with significantly higher values in invasive isolates (22.4%, 14.9% and 11.9%). Almost all the isolates were resistant to erythromycin (99.1%) and clindamycin (95.9%). All isolates carried virulence-related genes, including ply, psaA, piaA, piuA, phtE, nanA, pepO, danJ, pvaA, clpP, pcsB, stkP, potD, and strH. The carriage of virulence and resistance genes varied among serotypes and clades, with serotype 19F/ST271 showing higher resistance to antibiotics and being more likely to carry pilus genes and other virulence genes.ConclusionThese data provide valuable information for the understanding of pneumococcal pathogenesis, antimicrobial resistance and the development of protein-based vaccines against pneumococcal infection.