Lipid nanoparticle (LNP)-mRNA vaccines robustly activate immune responses, contributing to their high efficacy and frequent adverse reactions (ARs). Here, we identified an LNP-mRNA formulation with a more favorable balanced immunogenicity-reactogenicity profile. Immune profiling in a mouse model defined the reactogenic LNP-mRNA vaccine as a potent inducer of HMGB1 release, pro-inflammatory cytokine production, and concurrent neutrophil infiltration. HMGB1 induced TNF-α secretion from monocyte subsets, yet in vivo blockade studies revealed the contribution of multiple cytokines (TNF-α, IL-1, and IL-6) to reactogenicity. Among the reactogenic cytokines, IL-1 was identified as the key mediator of vaccine-induced ARs, but was dispensable for humoral immunity. The clinical relevance was confirmed in a well-controlled vaccine cohort where IL-1 pathway activation correlated with fever severity but not with neutralizing antibody titers. We dissected early innate pathways specifically linked to vaccine reactogenicity, providing a rationale for selectively reducing ARs in next-generation vaccines.
Takano et al. (Thu,) studied this question.