Comprehensive single-cell RNA-sequencing study of Tollip deficiency effect in IL-13-stimulated human airway epithelial cells.

Objective: Toll-interacting protein (Tollip) suppresses excessive pro-inflammatory signaling, but its function in airway epithelial responses to IL-13, a key mediator in allergic diseases, remains unclear. This study investigates Tollip knockdown (TKD) effects in primary human airway epithelial cells using single-cell RNA sequencing, providing the first single-cell analysis of TKD and the first exploring its interaction with IL-13.

Results: IL-13 treatment upregulated key genes, including SPDEF, MUC5AC, POSTN, ALOX15, and CCL26, confirming IL-13's effects and validating our methods. IL-13 reduced TNF-α signaling and epithelial-mesenchymal transition in certain cell types, suggesting a dual role in promoting type 2 inflammation while suppressing Th1-driven inflammation. Tollip deficiency alone significantly amplified TNF-α signaling and inflammatory pathways in goblet, club, and suprabasal cells. Comparisons between TKDIL13 vs IL13 and TKD vs CTR revealed that IL-13 does not substantially alter Tollip deficiency response in most cell types, reinforcing findings in TKD vs CTR. Tollip deficiency alters the response to IL-13 in a cell-type-specific manner, strongly downregulating TNF-α signaling in goblet cells but only weakly in basal and club cells. Tollip deficiency enhances IL-13's suppression of Th1 inflammatory responses in goblet cells. These novel insights in Tollip-IL-13 interactions offer potential therapeutic targets for asthma and related diseases.