Regenerative Inflammation in IBD: How Type I Interferons and TNF Cross-Talk Converts Epithelial Repair into Therapeutic Response

Inflammatory bowel diseases (IBD) are increasingly recognized as disorders in which epithelial dysfunction and maladaptive regeneration may be as important as immune dysregulation. Tumor necrosis factor (TNF), a key mediator of intestinal inflammation and a therapeutic target, plays a dual role in both immune activation and epithelial repair by regulating progenitor cell expansion, lineage plasticity, and chemokine signaling in the intestinal epithelium. During acute injury, TNF-associated responses are generally considered adaptive, supporting crypt repair, barrier restitution, and secretory remodeling pathways. However, in chronic disease, persistent TNF exposure, potentially reinforced by type I interferons (IFN-I), may contribute to the persistence of epithelial regenerative pathways. IFN-I signaling has been suggested in experimental and translational studies to reinforce chemokine networks and transcriptional imprinting. We propose that this potentially converts physiological repair into a sustained state of what we have termed “regenerative inflammation,” in which epithelial-derived signals may perpetuate immune recruitment and tissue remodeling. Such TNF-IFN-imprinted epithelial states may contribute to sustained pathology in a subset of patients and could be associated with reduced responsiveness to anti-TNF therapy, although direct causal evidence in human disease remains limited. By integrating mechanistic, organoid-based, and clinical observational evidence, we propose that chronic TNF–IFN crosstalk may contribute to a self-sustaining regenerative inflammatory circuit, providing a conceptual framework for disease persistence in IBD and highlighting potential opportunities to target epithelial-immune interactions.