Meta-análise transcricional de indivíduos vacinados contra malária
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2025-02-06
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Universidade Federal de Goiás
Resumo
Malaria causes over 600,000 deaths annually, with the vast majority of fatalities resulting from
Plasmodium falciparum infection. This disease remains a major humanitarian problem across tropical regions of the
world, particularly in sub-Saharan Africa, where most deaths occur among pregnant women, newborns, and children
under five. Currently, only two vaccines against P. falciparum are recommended by the World Health Organization:
RTS,S/AS01 and, more recently, R21/Matrix-M. Multiple studies involving different vaccines (RTS,S, PfRAS, PvRAS)
have evaluated the transcriptome of whole blood and peripheral blood mononuclear cells (PBMCs). These data are
available in public repositories such as the NCBI Gene Expression Omnibus (GEO) and can be repurposed for new
analyses. Objectives. Our primary goal is to identify a set of genes associated with the immune response induced by
vaccination, using multiple cohorts and different vaccines. We aim to identify both a unified signature and a signature
specific to the RTS,S vaccine, then compare the two to analyze similarities and differences. Methodology. We identified
14 datasets in public repositories, totaling 2,054 samples and over 3 TB of data volume. We conducted three metaanalyses: one using pre-vaccination samples, another combining pre- and post-vaccination samples, and a third focusing
exclusively on cohorts that used the RTS,S vaccine. Our results were generated using tools such as MetaIntegrator, an
R programming language package, to identify differential gene expression across groups. Results. We found that prevaccination gene expression could not predict vaccine efficacy, as differences in expression between protected and nonprotected individuals prior to vaccination were minimal. Subsequent analyses suggest that a pre-vaccination
transcriptional profile associated with lymphocytes correlates with protection. In the second meta-analysis, comparing
pre- and post-vaccination samples, we identified a unified transcriptional signature of malaria vaccination. The results
demonstrate robust activation of myeloid cell-mediated inflammatory responses and interferons, alongside increased
expression of genes related to antigen presentation and blood coagulation. In our final meta-analysis, using only RTS,S
vaccine cohorts with different adjuvants, we identified a vaccine-specific signature. Conclusion. We identified a
signature specific to the RTS,S vaccine and observed that while there is overlap between its gene components and the
unified signature of all vaccines, significant differences remain, which are only captured when other vaccines are
included in the meta-analysis. We conclude that transcriptomic meta-analyses hold translational potential to enhance
vaccine monitoring and efficacy.
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Malária , Vacina , Meta-análise , Transcriptômica , Malaria , Vaccine , Meta-analysis , Transcriptomics