GEOapplication/xmlftp://ftp.ncbi.nlm.nih.gov/geo/series/GSE332nnn/GSE332923/primaryOK200TranscriptomicsMus musculusExpression profiling by high throughput sequencinghttps://www.ncbi.nlm.nih.gov/geo/query/acc.cgi?acc=GSE332923GEOGSEfalseBaseline interferon signaling in monocytes and antibody-mediated innate activation at injection site shape mRNA vaccine reactogenicity [mouse_scRNAseq]The local and systemic symptoms that follow vaccination -collectively referred to as reactogenicity- are common, yet the mechanisms underlying individual variability remain poorly understood. Through longitudinal immune profiling of vaccinated individuals and mechanistic studies in mice, we identified key immunological determinants of reactogenicity induced by mRNA vaccines. Systemic adverse events were associated with stronger interferon and pro-inflammatory responses following the second dose of COVID-19 vaccine, which were also correlated with the magnitude of the antigen-specific adaptive responses. This heightened inflammation occurred within 24 hours of vaccination and originated primarily from the injection site and was characterized by enhanced recruitment and activation of myeloid cells, particularly monocytes. Two mechanisms contributed to this response: (1) early interferon production by muscle T cells generated after the first dose and (2) FcγR-dependent chemokine induction by antigen-specific antibodies. Consistently, serum antibody levels prior to vaccination correlated positively with reactogenicity. In addition to this local amplification mechanism, variability in reactogenicity was influenced by the baseline immune state, as individuals with a pre-existing interferon-stimulated gene signature in monocytes, detectable at both transcriptomic and epigenetic levels, were more prone to systemic symptoms. Our findings reveal molecular and cellular mechanisms driving vaccine reactogenicity, providing a framework for the design of less reactogenic vaccines.2026/05/27GSE332923GSM9755612GSM9755613GSM9755610GSM975561121103332923Mus musculus