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Polymorphonuclear neutrophils modulate the responses of human immune cells to vaccines in an in vitro blood cell culture system

Gong, S.; Patil, H. P.; de Vries-Idema, J.; Beukema, M.; Huckriede, A.

2026-06-19 immunology
10.64898/2026.06.15.732289 bioRxiv
Show abstract

Vaccine-induced immune responses are the result of an intricate interplay between different cell populations of the innate and adaptive immune system, which is so far only partly understood. In particular, the role of polymorphonuclear neutrophils (PMNs) has long been neglected. Here, we studied the effects of a whole inactivated virus influenza vaccine (WIV) in an in vitro system consisting of freshly isolated human PMNs alone or PMNs combined with autologous peripheral blood mononuclear cells (PBMCs). Isolated PMNs showed minimal responses to the vaccine with respect to apoptosis, gene expression, cytokine production, and reactive oxygen species production. However, in WIV-stimulated PMN/PBMC co-cultures, PMNs particularly enhanced monocyte dynamics, CD14-CD11c+ cell activation, effector T cell differentiation, and B cell antibody production. On the other hand, PMNs decreased T follicular helper cell frequencies. Without vaccine stimulation, PMN presence resulted in enhanced levels of baseline inflammatory cytokines in PMN/PBMC co-cultures. However, with vaccine stimulation, PMNs dampened the vaccine-induced cytokine secretion of PBMCs. These findings reveal PMNs as regulators of vaccine responses whose effects depend on crosstalk with other immune cells, balancing pro-inflammatory and adaptive immune activation. Author summaryPolymorphonuclear neutrophils (PMNs) are essential and predominant cells of the human innate immune system. Growing evidence implicates that PMNs are involved in vaccine-induced immune activation, but their exact role is so far poorly defined. In our study, human PMNs were tested alone to observe their response to whole inactivated virus influenza vaccine (WIV), or combined with autologous peripheral blood mononuclear cells (PBMCs) to investigate how their presence influences vaccine responses of various cell populations within PBMCs. Our results show that WIV had little direct effect on isolated PMNs. However, when PMNs were combined with other immune cells, PMNs acted as crucial regulators: they enhanced the activity of innate immune cells, regulated the responses to the vaccine of T and B cells, and helped control the overall level of inflammation. Our study forms the groundwork for a more comprehensive understanding of human immune cell interactions under vaccine stimulation.

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