IL-25-induced memory ILC2s mediate long-term small intestinal adaptation

Abstract

The adaptation of intestinal helminths to vertebrates evolved strategies to attenuate host tissue damage to support reproductive needs of parasites necessary to disseminate offspring to the environment. Helminths initiate the IL-25-mediated tuft cell-ILC2 circuit that enhances barrier protection of the host although viable parasites can target and limit the pathway. We used IL-25 to create small intestinal adaptation marked by anatomic, cell compositional and immunologic changes that persisted months after induction. Small intestinal adaptation was associated with heightened resistance to barrier pathogens, including in the lung, and sustained by transcriptionally and epigenetically modified, tissue-resident, memory-effector ILC2s distinct from those described by innate 'training'; epithelial stem cells remained unaltered. Despite requiring IL-25 for induction, memory ILC2s maintained an activated state in the absence of multiple alarmins and supported mucosal resilience while avoiding adverse sensitization to chronic inflammation, revealing a pathway for deploying innate immune cells to coordinate a distributed mucosal defense.