Leiden University Scholarly Publications

Cheliotis, K.S.; Gonzalez-Dias, P.; German, E.L.; Gonçalves, A.N.A.; Mitsi, E.; Nikolaou, E.; ... ; Ferreira, D.M. (2026)

Machine learning-driven identification of serotype-independent pneumococcal vaccine candidates using samples from human infection challenge studies

Article / Letter to editor

Identifying conserved, immunogenic proteins that confer protection against Streptococcus pneumoniae (pneumo-coccus) colonization could enable development of serotype-independent vaccines.
In our controlled human infection model, no individual IgG or cytokine/chemokine response correlated significantly with protection against colonization with pneumococcus, suggesting that effective immunity re-flects a coordinated, multi-antigen response. To capture these complex patterns, we trained independent Random Forest models on humoral and cellular datasets. The humoral model identified IgG responses to PdB, SP1069, and SP0899 as predictive of protection. The cellular model revealed that MCP-1 responses to SP1069 and SP0899, and IL-17A production in response to SP0648-3, were associated with protection. Elevated baseline IFN-y, RANTES, and anti-protein IgG levels were linked to reduced colonization density.
We highlight SP1069 and SP0899 as potential serotype-independent vaccine...Show moreIdentifying conserved, immunogenic proteins that confer protection against Streptococcus pneumoniae (pneumo-coccus) colonization could enable development of serotype-independent vaccines.
In our controlled human infection model, no individual IgG or cytokine/chemokine response correlated significantly with protection against colonization with pneumococcus, suggesting that effective immunity re-flects a coordinated, multi-antigen response. To capture these complex patterns, we trained independent Random Forest models on humoral and cellular datasets. The humoral model identified IgG responses to PdB, SP1069, and SP0899 as predictive of protection. The cellular model revealed that MCP-1 responses to SP1069 and SP0899, and IL-17A production in response to SP0648-3, were associated with protection. Elevated baseline IFN-y, RANTES, and anti-protein IgG levels were linked to reduced colonization density.
We highlight SP1069 and SP0899 as potential serotype-independent vaccine candidates and demonstrate the utility of machine learning to identify immune correlates of protection.Show less

Streptococcus pneumoniae

Controlled human infection model

Correlates of protection

Serotype-independent vaccine

Machine learning

Vaccine antigen discovery

Systems vaccinology

Immune responses

All authors

Cheliotis, K.S.; Gonzalez-Dias, P.; German, E.L.; Gonçalves, A.N.A.; Mitsi, E.; Nikolaou, E.; Pojar, S.; Miyaji, E.N.; Tostes, R.; Reiné, J.; Collins, A.M.; Nakaya, H.I.; Gordon, S.B.; Lu, Y.J.; Pennington, S.H.; Pollard, A.J.; Malley, R.; Jochems, S.P.; Urban, B.; Solórzano, C.; Ferreira, D.M.

Date

2026-01-31

Journal

Vaccine

Volume

75

DOI

doi:10.1016/j.vaccine.2026.128280