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Abstract Allergen-specific immunotherapy (AIT) induces immune tolerance, showing the highest success rate (>95%) for insect venom while a much lower chance for pollen allergy. However, the molecular switches leading to successful durable tolerance restoration remain elusive. Here we applied a multilayer-omics approach to reveal dynamic peripheral immune landscapes during AIT-initiation phase in venom allergy patients (VAP) versus pollen-allergic and healthy controls. Already at baseline, VAP exhibited altered abundances of several cell types, including antigen-presenting cells (APC) and hybrid types, especially pDC-mDC hybrids. At 8-24h following AIT launch in VAP, we identified a uniform AIT-elicited pulse of late-transitional/IL-10-producing B cells, IL-6 signaling within Th2 cells and non-inflammatory serum-IL-6 levels. Sequential induction of activation and survival protein markers also immediately occurred. A disequilibrium between serum IL-6 and APC in VAP baseline was restored at day seven following AIT launch. Our longitudinal analysis discovers molecular switches during initiation-phase insect-venom AIT that secure long-term outcomes.
He et al. (Thu,) studied this question.