Implications of Differential Age Distribution of Disease-Associated Meningococcal Lineages for Vaccine Development

Carina Brehony,Mathew Diggle,Heike Claus,Arie Van Der Ende,Dominique A Caugant,Martin C J Maiden,Ulrich Vogel,Georgina Tzanakaki,Karen Murphy,Susanne Jacobsson,Manuela Caniça,Manosree Chandra,Maija Toropainen,Françoise Carion,Keith A Jolley,Paola Stefanelli,Lene Berthelsen,Matthias Frosch,Steen Hoffmann,Sigrid Heuberger,Paula Kriz,Caroline Trotter ,Muhamed‐Kheir Taha ,Mary Ramsay ,Eugénia Ferreira ,Julio Vázquez ,Giles Edwards ,Andrew Fox ,Steve Gray ,Hildur Harðardóttir

doi:10.1128/cvi.00133-14

Abstract

New vaccines targeting meningococci expressing serogroup B polysaccharide have been developed, with some being licensed in Europe. Coverage depends on the distribution of disease-associated genotypes, which may vary by age. It is well established that a small number of hyperinvasive lineages account for most disease, and these lineages are associated with particular antigens, including vaccine candidates. A collection of 4,048 representative meningococcal disease isolates from 18 European countries, collected over a 3-year period, were characterized by multilocus sequence typing (MLST). Age data were available for 3,147 isolates. The proportions of hyperinvasive lineages, identified as particular clonal complexes (ccs) by MLST, differed among age groups. Subjects <1 year of age experienced lower risk of sequence type 11 (ST-11) cc, ST-32 cc, and ST-269 cc disease and higher risk of disease due to unassigned STs, 1- to 4-year-olds experienced lower risk of ST-11 cc and ST-32 cc disease, 5- to 14-year-olds were less likely to experience ST-11 cc and ST-269 cc disease, and ≥25-year-olds were more likely to experience disease due to less common ccs and unassigned STs. Younger and older subjects were vulnerable to a more diverse set of genotypes, indicating the more clonal nature of genotypes affecting adolescents and young adults. Knowledge of temporal and spatial diversity and the dynamics of meningococcal populations is essential for disease control by vaccines, as coverage is lineage specific. The nonrandom age distribution of hyperinvasive lineages has consequences for the design and implementation of vaccines, as different variants, or perhaps targets, may be required for different age groups.

Highlights

IntroductionNew vaccines targeting meningococci expressing serogroup B polysaccharide have been developed, with some being licensed in Europe
Patient age data were available for 3,226 (87.1%) of the 3,705 European Union Invasive Bacterial Infections Surveillance Network (EU-IBIS) epidemiological data records that were able to be harmonized with the EUMenNet data, and complete multilocus sequence typing (MLST) data were available for 3,147 of those records (Fig. 1)
The lower risk of sequence type 11 (ST-11) cc disease remained for subjects Ͻ1 year of age (RRR, 0.36 [95% confidence intervals (CIs), 0.24 to 0.57]) and subjects 1 to 4 years of age (RRR, 0.49 [95% CI, 0.35 to 0.69]), with weaker evidence for subjects 5 to 14 years of age (RRR, 0.74 [95% CI, 0.52 to 1.05])

Summary

Introduction

New vaccines targeting meningococci expressing serogroup B polysaccharide have been developed, with some being licensed in Europe. Carriage rates in the population vary with age, being lowest among infants and young children and rising to a peak among adolescents and young adults [8,9,10]. Worldwide invasive meningococcal serogroup distributions vary with region [3, 13]; serogroups A, W, and X predominate in Africa, in the “meningitis belt” region [14], whereas most disease in Western Europe is associated with meningococci expressing serogroup B and C capsules. The emergence of serogroup Y-associated lineages in disease and carriage populations underlines the dynamic nature of meningo-. 847– 853 cvi.asm.org 847 coccal epidemiology and population biology These changes have implications for vaccine development and implementation

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Conclusion