TLR2-mediated microbial sensing by intestinal stem cells coordinates epithelial antimicrobial defense

Intestinal regeneration and host defense require adaptation to environmental cues, but the mechanisms underlying this coordination remain unclear. We show that intestinal Lgr5⁺ stem cells act as luminal sensors via apically localized Toll-like receptor 2 (TLR2), enabling direct detection of microbiota-derived signals. We identify apical TLR2 activation as a mechanism of luminal sensing in adult stem cells and show that it controls epithelial differentiation, antimicrobial peptide production, and crypt organization, with a particularly strong influence on Paneth cell maturation. Genetic ablation of constitutive, epithelial, or stem cell-specific TLR2 disrupts these processes, leading to impaired antimicrobial defense and altered epithelial composition. Using germ-free mice and human intestinal organoids, we demonstrate that this pathway is microbiota-dependent and evolutionarily conserved, respectively. These findings support a model in which stem cells act as active integrators of environmental information and suggest a broader principle by which barrier tissues couple microbial sensing to regeneration and host protection.