Author: Huber, Johanna E; Ahlfeld, Julia; Scheck, Magdalena K; Zaucha, Magdalena; Witter, Klaus; Lehmann, Lisa; Karimzadeh, Hadi; Pritsch, Michael; Hoelscher, Michael; von Sonnenburg, Frank; Dick, Andrea; Barbaâ€Spaeth, Giovanna; Krug, Anne B; Rothenfußer, Simon; Baumjohann, Dirk
Title: Dynamic changes in circulating T follicular helper cell composition predict neutralising antibody responses after yellow fever vaccination Cord-id: anjilxle Document date: 2020_5_13
ID: anjilxle
Snippet: OBJECTIVES: T follicular helper (Tfh) cells are the principal T helper cell subset that provides help to B cells for potent antibody responses against various pathogens. In this study, we took advantage of the liveâ€attenuated yellow fever virus (YFV) vaccine strain, YFâ€17D, as a model system for studying human antiviral immune responses in vivo following exposure to an acute primary virus challenge under safe and highly controlled conditions, to comprehensively analyse the dynamics of circul
Document: OBJECTIVES: T follicular helper (Tfh) cells are the principal T helper cell subset that provides help to B cells for potent antibody responses against various pathogens. In this study, we took advantage of the liveâ€attenuated yellow fever virus (YFV) vaccine strain, YFâ€17D, as a model system for studying human antiviral immune responses in vivo following exposure to an acute primary virus challenge under safe and highly controlled conditions, to comprehensively analyse the dynamics of circulating Tfh (cTfh) cells. METHODS: We tracked and analysed the response of cTfh and other T and B cell subsets in peripheral blood of healthy volunteers by flow cytometry over the course of 4 weeks after YFâ€17D vaccination. RESULTS: Using surface staining of cell activation markers to track YFVâ€specific T cells, we found increasing cTfh cell frequencies starting at day 3 and peaking around 2 weeks after YFâ€17D vaccination. This kinetic was confirmed in a subgroup of donors using MHC multimer staining for four known MHC class II epitopes of YFâ€17D. The subset composition of cTfh cells changed dynamically during the course of the immune response and was dominated by the cTfh1â€polarised subpopulation. Importantly, frequencies of cTfh1 cells correlated with the strength of the neutralising antibody response, whereas frequencies of cTfh17 cells were inversely correlated. CONCLUSION: In summary, we describe detailed cTfh kinetics during YFâ€17D vaccination. Our results suggest that cTfh expansion and polarisation can serve as a prognostic marker for vaccine success. These insights may be leveraged in the future to improve current vaccine design and strategies.
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