IL-25 Enhances B Cell Responses in Type 2 Inflammation Through IL-17RB Receptor.

Background: Alarmin cytokine IL-25 promotes type 2 inflammatory responses in disorders such as asthma and chronic rhinosinusitis with nasal polyps (CRSwNP) and known targets include ILC2 and Th2 cells. However, other cellular targets for IL-25 remain poorly defined.

Objective: To investigate induction and expression of IL-25 receptor (IL-17RB) by B cells and evaluate responsiveness of IL-17RB-expressing B cells to IL-25 in vitro.

Methods: IL-17RB expression, regulation and function on B cells were evaluated in peripheral blood-derived B cells by flow cytometry and RT-PCR, including in response to IgE-inducing stimuli (anti-CD40 mAb and IL-4). Single-cell RNA sequencing was used to compare IL-17RB+ and IL-17RB-activated peripheral blood-derived B cells. To evaluate B cell IL-17RB expression within type 2 inflamed tissue, B cells were compared from nasal polyps, control turbinate tissue and matched peripheral blood.

Results: Activation of B cells with anti-CD40 and IL-4 increased IL-17RB expression at both protein and mRNA level, which was further upregulated by IL-25. B cells induced to express IL-17RB responded to IL-25 with enhanced antibody production. Single-cell RNA-sequencing showed that IL17RB+ activated B cells expressed higher levels of IGHE, CCL17 and CCL22 compared to IL17RB- B cells. B cells from nasal polyp tissue expressed higher levels of surface IL-17RB compared with control tissue, correlating with patient-reported CRSwNP severity (SNOT-22).

Conclusion: Peripheral blood B cells activated under IgE-inducing conditions express surface IL-17RB, and tissue IL-17RB+ B cells are increased in type 2 inflammation. IL-17RB+ cells have a distinct transcriptional profile and respond to IL-25 with enhanced antibody production, highlighting the IL-25/IL-17RB pathway as a potential therapeutic target for CRSwNP and other type 2 inflammatory disorders.