BACKGROUND & AIMS: We recently showed that a bacterial infection can break oral tolerance to food and lead to IgE-dependent mast cell activation and food-induced abdominal pain, which could constitute an important pathogenic mechanism in post-infectious irritable bowel syndrome (IBS). Here, we investigated whether similar immune mechanisms in response to psychological stress lead to food-evoked pain signaling, and thus potentially explain the pathophysiology in a larger group of patients with IBS. METHODS: Mice were exposed to ovalbumin (OVA) during water avoidance stress (WAS) and re-exposed to OVA five weeks later. Nociception was evaluated by visceromotor responses and afferent nerve recordings to intestinal distension, and patch-clamp recordings of sensory neurons incubated with intestinal supernatants. The role of IgE and type 2 immunity was evaluated using pharmacological and genetic approaches. RESULTS: Re-exposure to OVA increased pain signaling in the colon and small intestine only in mice exposed to OVA during WAS, in the absence of systemic allergy. OVA-induced increases in pain responses depended on mast cells, IgE and STAT6 signaling. Notably, incubation of sensory neurons with ileum and colon supernatants from WAS/OVA+OVA mice lowered their threshold of excitability. Finally, treatment with histamine receptor H CONCLUSIONS: Psychological stress induces a type 2 immune response to food antigens, with IgE-mediated mast cell activation and increased pain signaling in the small intestine and colon in response to food. These findings may explain the potential role of psychological stress in food-induced symptoms in IBS.