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Damage to the peripheral nerves of trigeminal ganglion (TG) neurons leads to intractable orofacial neuropathic pain through the induction of neuroinflammation. However, the details of this process are not yet fully understood. Here, we found that fibroblast-derived interleukin (IL)-33 was required for the development of mechanical allodynia in whisker pad skin following infraorbital nerve injury (IONI). The amount of IL-33 in the TG increased after IONI when the mice exhibited mechanical allodynia. Neutralization of IL-33 in the TG inhibited the development of IONI-induced mechanical allodynia. Conversely, intra-TG administration of recombinant human IL-33 (rhIL-33) elicited mechanical allodynia in naïve mice. IL-33 and its receptor were exclusively expressed in fibroblasts and neurons, respectively, in the TG. Fibroblast ablation caused the loss of IL-33 in the TG and delayed the development of mechanical allodynia after IONI. rhIL-33 elicited an increase in intracellular Ca concentration and subsequent enhancement of Ca influx via transient receptor potential ankyrin 1 (TRPA1) in primary cultured TG neurons. Additionally, rhIL-33 facilitated membrane translocation of TRPA1 in the TG. Mechanical allodynia caused by intra-TG administration of rhIL-33 was significantly inhibited by pharmacological blockade or gene silencing of TRPA1 in the TG. Inhibition of protein kinase A abrogated TRPA1 membrane translocation and delayed mechanical allodynia after IONI. Substance P stimulation caused upregulation of IL-33 expression in primary cultured fibroblasts. Preemptive administration of a neurokinin-1 receptor antagonist in the TG attenuated mechanical allodynia and IL-33 expression following IONI. Taken together, these results indicate that fibroblast-derived IL-33 exacerbates TG neuronal excitability via suppression of tumorigenicity 2 (ST2)-TRPA1 signaling, ultimately leading to orofacial neuropathic pain.