Abstract
Background/Objectives: Allergic rhinitis (AR) is a complex immune-mediated disorder characterized by defective regulatory mechanisms. Emerging evidence suggests that impaired immune tolerance mediated by regulatory B cell (Breg) plays a pivotal role in AR pathogenesis. This study investigates the therapeutic potential of Der p1 allergen-modified dendritic cells (DC) in enhancing Breg-mediated immunotherapy and explores novel mechanisms underlying AR immunomodulation. Methods: Breg and the inflammatory cytokines were detected before and after allergen immunotherapy (AIT) in AR patients. Dust mite gene-derived dendritic cells were used to induce Breg. AR mice were treated with Der p1-DCs, and changes in Breg and related inflammatory indicators, as well as the impact of the IL-10/STAT pathway on DC vaccine treatment, were observed. Results: Following 6-month AIT, AR patients exhibited significant alleviation of nasal symptoms alongside restored peripheral Breg and Treg. In vitro co-culture of Der p1-DC-induced Bregs with CD4(+)CD25(-)T cells revealed that IL-10 blockade markedly increased Th cell. In AR murine models, intraperitoneal Der p1-DC administration suppressed allergic symptoms, upregulated nasal mucosal IL-10 expression, and attenuated STAT3 phosphorylation via IL-10 overexpression. Conclusions: AIT establishes immune tolerance through Breg-mediated regulatory mechanisms, while Der p1-DCs potently induce Breg differentiation and drive tolerance induction via the IL-10/STAT3 signaling axis.