Your search keyword '"Mpina, Maxmillian"' showing total 2 results

1. Immune system development varies according to age, location, and anemia in African children.

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Author

Hill, Danika L., Carr, Edward J., Rutishauser, Tobias, Moncunill, Gemma, Campo, Joseph J., Innocentin, Silvia, Mpina, Maxmillian, Nhabomba, Augusto, Tumbo, Anneth, Jairoce, Chenjerai, Moll, Henriëtte A., van Zelm, Menno C., Dobaño, Carlota, Daubenberger, Claudia, and Linterman, Michelle A. more...

Subjects

IMMUNE system, B cell differentiation, SYSTEMS development, MALARIA vaccines, B cells, BIOAVAILABILITY, IMMUNOSENESCENCE, T helper cells

Abstract

A global immune landscape: Systems biology approaches to the immune system have revealed specific phenotypes associated with disease or response to vaccination. However, these studies are concentrated in certain areas of the world, and the findings may not apply globally. Hill et al. studied longitudinal blood samples from a large malaria vaccine trial conducted in different African countries. They saw country-specific trajectories of immune development that influenced vaccine responses. Anemic children showed dampened adaptive immune responses. Follow-up experiments with B cells in vitro revealed that iron has direct effects on B cell differentiation. These results show that geographic location has an important influence on immune development. Children from low- and middle-income countries, where there is a high incidence of infectious disease, have the greatest need for the protection afforded by vaccination, but vaccines often show reduced efficacy in these populations. An improved understanding of how age, infection, nutrition, and genetics influence immune ontogeny and function is key to informing vaccine design for this at-risk population. We sought to identify factors that shape immune development in children under 5 years of age from Tanzania and Mozambique by detailed immunophenotyping of longitudinal blood samples collected during the RTS,S malaria vaccine phase 3 trial. In these cohorts, the composition of the immune system is dynamically transformed during the first years of life, and this was further influenced by geographical location, with some immune cell types showing an altered rate of development in Tanzanian children compared to Dutch children enrolled in the Generation R population–based cohort study. High-titer antibody responses to the RTS,S/AS01E vaccine were associated with an activated immune profile at the time of vaccination, including an increased frequency of antibody-secreting plasmablasts and follicular helper T cells. Anemic children had lower frequencies of recent thymic emigrant T cells, isotype-switched memory B cells, and plasmablasts; modulating iron bioavailability in vitro could recapitulate the B cell defects observed in anemic children. Our findings demonstrate that the composition of the immune system in children varies according to age, geographical location, and anemia status. [ABSTRACT FROM AUTHOR] more...

Published

2020

2. Transcriptional correlates of malaria in RTS,S/AS01-vaccinated African children: a matched case-control study.

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Author

Moncunill G, Carnes J, Chad Young W, Carpp L, De Rosa S, Campo JJ, Nhabomba A, Mpina M, Jairoce C, Finak G, Haas P, Muriel C, Van P, Sanz H, Dutta S, Mordmüller B, Agnandji ST, Díez-Padrisa N, Williams NA, Aponte JJ, Valim C, Neafsey DE, Daubenberger C, McElrath MJ, Dobaño C, Stuart K, and Gottardo R more...

Subjects

Antibodies, Protozoan immunology, Antigens, Protozoan immunology, B-Lymphocytes immunology, B-Lymphocytes metabolism, Case-Control Studies, Child, Preschool, Clinical Trials, Phase III as Topic, Humans, Infant, Mozambique, T-Lymphocytes immunology, T-Lymphocytes metabolism, Tanzania, Leukocytes, Mononuclear immunology, Leukocytes, Mononuclear metabolism, Malaria Vaccines immunology, Malaria, Falciparum immunology, Malaria, Falciparum prevention & control, Transcriptome genetics, Transcriptome immunology, Vaccines, Synthetic immunology

Abstract

Background: In a phase 3 trial in African infants and children, the RTS,S/AS01 vaccine (GSK) showed moderate efficacy against clinical malaria. We sought to further understand RTS,S/AS01-induced immune responses associated with vaccine protection., Methods: Applying the blood transcriptional module (BTM) framework, we characterized the transcriptomic response to RTS,S/AS01 vaccination in antigen-stimulated (and vehicle control) peripheral blood mononuclear cells sampled from a subset of trial participants at baseline and month 3 (1-month post-third dose). Using a matched case-control study design, we evaluated which of these 'RTS,S/AS01 signature BTMs' associated with malaria case status in RTS,S/AS01 vaccinees. Antigen-specific T-cell responses were analyzed by flow cytometry. We also performed a cross-study correlates analysis where we assessed the generalizability of our findings across three controlled human malaria infection studies of healthy, malaria-naive adult RTS,S/AS01 recipients., Results: RTS,S/AS01 vaccination was associated with downregulation of B-cell and monocyte-related BTMs and upregulation of T-cell-related BTMs, as well as higher month 3 (vs. baseline) circumsporozoite protein-specific CD4 + T-cell responses. There were few RTS,S/AS01-associated BTMs whose month 3 levels correlated with malaria risk. In contrast, baseline levels of BTMs associated with dendritic cells and with monocytes (among others) correlated with malaria risk. The baseline dendritic cell- and monocyte-related BTM correlations with malaria risk appeared to generalize to healthy, malaria-naive adults., Conclusions: A prevaccination transcriptomic signature associates with malaria in RTS,S/AS01-vaccinated African children, and elements of this signature may be broadly generalizable. The consistent presence of monocyte-related modules suggests that certain monocyte subsets may inhibit protective RTS,S/AS01-induced responses., Funding: Funding was obtained from the NIH-NIAID (R01AI095789), NIH-NIAID (U19AI128914), PATH Malaria Vaccine Initiative (MVI), and Ministerio de Economía y Competitividad (Instituto de Salud Carlos III, PI11/00423 and PI14/01422). The RNA-seq project has been funded in whole or in part with Federal funds from the National Institute of Allergy and Infectious Diseases, National Institutes of Health, Department of Health and Human Services, under grant number U19AI110818 to the Broad Institute. This study was also supported by the Vaccine Statistical Support (Bill and Melinda Gates Foundation award INV-008576/OPP1154739 to R.G.). C.D. was the recipient of a Ramon y Cajal Contract from the Ministerio de Economía y Competitividad (RYC-2008-02631). G.M. was the recipient of a Sara Borrell-ISCIII fellowship (CD010/00156) and work was performed with the support of Department of Health, Catalan Government grant (SLT006/17/00109). This research is part of the ISGlobal's Program on the Molecular Mechanisms of Malaria which is partially supported by the Fundación Ramón Areces and we acknowledge support from the Spanish Ministry of Science and Innovation through the 'Centro de Excelencia Severo Ochoa 2019-2023' Program (CEX2018-000806-S), and support from the Generalitat de Catalunya through the CERCA Program., Competing Interests: GM, JC, WC, LC, SD, AN, MM, CJ, GF, PH, CM, PV, HS, SD, BM, SA, ND, NW, JA, CV, DN, CD, MM, CD, KS, RG No competing interests declared, JC is an employee of Antigen Discovery Inc. The author declare that no other competing interests exist more...

Published

2022