Postoperative incisional pain is characterized by persistent acute pain in the area of the cut, and is associated with release of proinflammatory cytokines, including interleukin-1 (IL-1), which play important hyperalgesic and allodynic roles in various inflammatory conditions. In the present study, we tested the role of IL-1 signaling in postoperative incisional pain using three mouse strains impaired in IL-1 signaling due to deletion of the IL-1 type I receptor on a mixed genetic background (IL-1rKO) or congenic background (IL-1rKOCog), or due to transgenic over-expression of IL-1 receptor antagonist (IL-1raTG). We used the relevant wild-type (WT) mice both as controls for the mutant strains, and for assessing the effects of pharmacological blockade of IL-1-signaling. Mechanosensitivity was assessed using the von-Frey filament test before, and up to 4 days following plantar incision, an animal model of postoperative pain. WT mice developed significant allodynia in the incised, compared with the intact, hind-paw beginning 3h after the incision and lasting up to 48h postoperatively. In contrast, IL-1rKO, IL-1rKOCog, and IL-1raTG mice, as well as WT mice chronically treated with IL-1ra, did not display increased mechanical pain sensitivity in either hind-paw. To test the hypothesis that IL-1-signaling is also involved in the maintenance of postoperative pain, WT mice were acutely treated with IL-1ra 24h following the incision, when allodynia was already evident. This treatment reversed the allodynic response throughout the observation period. Together, these findings suggest that IL-1 plays a critical role in the development and maintenance of postoperative incisional pain.