Research articleReduction of spinal PGE2 concentrations prevents swim stress-induced thermal hyperalgesia

•COX inhibitors prevented stress-induced thermal hyperalgesia and increased escape behavior.•Serum corticosterone was augmented in forced-swim animals.•COX inhibitors (ketoprofen and meloxicam) diminished serum corticosterone levels.•Spinal PGE2 levels were higher in forced-swim formalin injected animals.•Ketoprofen and meloxicam blocked the increase in spinal PGE2.

We evaluated the association between spinal PGE2 and thermal hyperalgesia following repeated stress. Thermal nociception was determined in male Sprague-Dawley rats using the hot-plate test, before and after forced-swimming; non-conditioned rats served as controls. Animals were pretreated with ketoprofen or meloxicam, preferential COX-1 and COX-2 inhibitors, respectively. After the second hot-plate test, we measured serum corticosterone (stress marker), and lumbar spinal PGE2 (neuroinflammation marker) under peripheral inflammation (1% formalin plantar injection). Stressed rats displayed response latencies 40% shorter and inflammatory spinal PGE2 levels 95% higher than controls. Pretreatment with ketoprofen or meloxicam prevented hyperalgesia and elevation of spinal PGE2, increasing the escape behavior time during forced swimming 95% respect to saline-treated rats. Corticosterone levels in stressed rats were 97% higher than controls; COX inhibitors reduced them by 84%. PGE2 could participate in stress-induced hyperalgesia, learned helplessness, and corticosterone production, supporting the use of non-steroidal anti-inflammatory drugs (NSAIDs) for persistent pain associated with chronic stress and depression.