A system-view of Bordetella pertussis booster vaccine responses in adults primed with whole-cell versus acellular vaccine in infancy
Ricardo da Silva Antunes, Ferran Soldevila, Mikhail Pomaznoy, Mariana Babor, Jason Bennett, Yuan Tian, Natalie Khalil, Yu Qian, Aishwarya Mandava, Richard H. Scheuermann, Mario Cortese, Bali Pulendran, Christopher D. Petro, Adrienne P. Gilkes, Lisa A. Purcell, Alessandro Sette, Bjoern Peters
Ricardo da Silva Antunes, Ferran Soldevila, Mikhail Pomaznoy, Mariana Babor, Jason Bennett, Yuan Tian, Natalie Khalil, Yu Qian, Aishwarya Mandava, Richard H. Scheuermann, Mario Cortese, Bali Pulendran, Christopher D. Petro, Adrienne P. Gilkes, Lisa A. Purcell, Alessandro Sette, Bjoern Peters
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Research Article Immunology Vaccines

A system-view of Bordetella pertussis booster vaccine responses in adults primed with whole-cell versus acellular vaccine in infancy

Abstract

The increased incidence of whooping cough worldwide suggests that current vaccination against Bordetella pertussis infection has limitations in quality and duration of protection. The resurgence of infection has been linked to the introduction of acellular vaccines (aP), which have an improved safety profile compared with the previously used whole-cell (wP) vaccines. To determine immunological differences between aP and wP priming in infancy, we performed a systems approach of the immune response to booster vaccination. Transcriptomic, proteomic, cytometric, and serologic profiling revealed multiple shared immune responses with different kinetics across cohorts, including an increase of blood monocyte frequencies and strong antigen-specific IgG responses. Additionally, we found a prominent subset of aP-primed individuals (30%) with a strong differential signature, including higher levels of expression for CCL3, NFKBIA, and ICAM1. Contrary to the wP individuals, this subset displayed increased PT-specific IgE responses after boost and higher antigen-specific IgG4 and IgG3 antibodies against FHA and FIM2/3 at baseline and after boost. Overall, the results show that, while broad immune response patterns to Tdap boost overlap between aP- and wP-primed individuals, a subset of aP-primed individuals present a divergent response. These findings provide candidate targets to study the causes and correlates of waning immunity after aP vaccination.

Authors

Ricardo da Silva Antunes, Ferran Soldevila, Mikhail Pomaznoy, Mariana Babor, Jason Bennett, Yuan Tian, Natalie Khalil, Yu Qian, Aishwarya Mandava, Richard H. Scheuermann, Mario Cortese, Bali Pulendran, Christopher D. Petro, Adrienne P. Gilkes, Lisa A. Purcell, Alessandro Sette, Bjoern Peters

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Figure 8

Differences in humoral responses against the pertussis vaccine antigens in aP versus wP donors.

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Differences in humoral responses against the pertussis vaccine antigens ...
(A) FHA and Fim2/3 prior to booster vaccination and 14 days after. Statistical differences between aP and wP primed individuals (n = 28 for aP and n = 30 for wP) were evaluated using a 2-sided, nonparametric Mann-Whitney U test (****P < 0.0001, **P = 0.0015, *P = 0.0141). Geometric mean and SD are represented by error bars. (B) IgG4 antibody titers prior to boosting (x axis) negatively correlate with the expression of module TrC21 14 days after boost. Correlation was evaluated using Spearman’s correlation test (r = –0.49) (n = 36). (C) IgE level modulation over time for the several antigens in individuals vaccinated with aP (red) or wP (blue lines) in infancy (n = 28 for aP and n = 30 for wP). Three individuals from the aP group (triangles) showed consistent increases of IgE from day 3 to day 7 after booster vaccination. (D) Scatter plot of RNA-Seq gene expression data of NFKBIA on day 7 (y axis) versus CCL3 expression on day 3 (x axis). The 3 individuals with consistent IgE responses are marked with red triangles (n = 36).