Abstract
Background: Despite its high vaccination coverage, pertussis remains a public health concern due to waning vaccine-induced immunity and the emergence of pertactin (Prn)-negative strains. Nevertheless, anti-Prn antibodies and memory B cells elicited by vaccinations may contribute to long-term immunity and protection against Prn-positive strains. While most vaccination studies focus on serum antibodies, data on memory B cells remain limited. Methods: In this study, we implemented a flow cytometry-based approach to characterize Prn-specific B-cell fluctuations following Tdap booster vaccination in five healthy adults. Total and Prn- and tetanus toxoid fragment C (TTC)-specific plasma cells and memory B cells were analyzed at baseline and at 7, 14, 21, and 90 days post-vaccination using Prn Klickmers(®) and TTC tetramers. Following this, cellular responses were correlated with antigen-specific serum IgG and IgA levels. Results: Prn-specific and TTC-specific memory B cells increased on days 14 and 7 post-vaccination, respectively, accompanied by a phenotypic shift from IgMD+ to IgG+ cells. Clear expansions of total as well as Prn- and TTC-specific plasma cells occurred on day 7. These plasma cells primarily comprised IgG+, but an increase in Prn-specific IgA+ plasma cells was also observed. The numbers of Prn-specific IgG+ memory B cells on day 7 post-vaccination correlated weakly with serum anti-Prn IgG levels at later time points. Conclusion: To our knowledge, this is the first study to use flow cytometry to evaluate Prn-specific B-cell responses and report their fluctuations over time following vaccination. These findings support the potential of this method to complement serological assays and improve our understanding of vaccine-induced immunity.