The whole-cell pertussis vaccine imposes a broad effector B cell response in mouse heterologous prime-boost settings
Viviana Valeri, … , Jean-Claude Weill, Claude-Agnès Reynaud
Viviana Valeri, … , Jean-Claude Weill, Claude-Agnès Reynaud
Published September 22, 2022
Citation Information: JCI Insight. 2022;7(21):e157034. https://doi.org/10.1172/jci.insight.157034.
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Research Article Immunology Vaccines

The whole-cell pertussis vaccine imposes a broad effector B cell response in mouse heterologous prime-boost settings

Abstract

ÍSince the introduction of new generation pertussis vaccines, resurgence of pertussis has been observed in many developed countries. Former whole-cell pertussis (wP) vaccines are able to protect against disease and transmission but have been replaced in several industrialized countries because of their reactogenicity and adverse effects. Current acellular pertussis (aP) vaccines, made of purified proteins of Bordetella pertussis, are efficient at preventing disease but fail to induce long-term protection from infection. While the systemic and mucosal T cell immunity induced by the 2 types of vaccines has been well described, much less is known concerning B cell responses. Taking advantage of an inducible activation-induced cytidine deaminase fate-mapping mouse model, we compared effector and memory B cells induced by the 2 classes of vaccines and showed that a stronger and broader memory B cell and plasma cell response was achieved by a wP prime. We also observed that homologous or heterologous vaccine combinations that include at least 1 wP administration, even as a booster dose, were sufficient to induce this broad effector response, thus highlighting its dominant imprint on the B cell profile. Finally, we describe the settlement of memory B cell populations in the lung following subcutaneous wP prime vaccination.

Authors

Viviana Valeri, Akhésa Sochon, Clara Cousu, Pascal Chappert, Damiana Lecoeuche, Pascal Blanc, Jean-Claude Weill, Claude-Agnès Reynaud

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Figure 7

Isotype-switched resident-like memory B cells localize in the lungs of wP-primed mice.

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Isotype-switched resident-like memory B cells localize in the lungs of w...
(A) AID-Cre-Tomato mice, primed and boosted (day 30) with homologous and heterologous aP and wP vaccine combinations, received tamoxifen at days 7, 10, and 31. Analysis was performed 50 days after boost. (B) Representative flow cytometry analysis of d-Tomato+ cells selected from B220+CD45.2 resident lung B cells. d-Tomato+GL7 cells were further analyzed for the expression of IgM and IgG1 membrane Ab isotypes. (C) Numbers of total d-Tomato+ resident memory cells (graph on the left) and their isotype subclasses (graph on the right) are shown. (D) dLN, splenic, and lung total d-Tomato+ memory B cells belonging to the wP:wP condition were analyzed for the expression of CD73, CD80, and PD-L2 markers. A representative flow cytometry plot is shown. Geometric MFI relative to each membrane marker is indicated in the graphs for all organs. Each point in the graphs (C and D) depicts an individual mouse. At least 2 independent experiments were performed for each analysis. Means (±SEM) are shown. Kruskal-Wallis analysis with uncorrected Dunn’s test was performed to compare the different conditions. *P < 0.05, **P < 0.01, ****P < 0.0001.