Ulinastatin attenuates neuropathic pain via the ATP/P2Y2 receptor pathway in rat models

Ulinastatin, a serine protease inhibitor, which has anti-inflammatory properties and neuroprotective effects, is used to treat acute inflammatory disorders. Recent evidence indicates that administration of ulinastatin alleviates pain in rat model of neuropathic pain (NPP). However, its effect on NPP and the underlying mechanism requires further study. In this study, we evaluated the role of intrathecal administration of ulinastatin in rats with sciatic nerve ligation and observed the effect of ulinastatin on the ATP/P2Y2 receptor pathway. We performed mechanical and thermal sensitivity measurements, immunohistochemistry and double-label immunofluoresence studies to evaluate P2Y2 receptor and adenosine 5′-monophosphate-activated protein kinase (AMPK) expression in the dorsal horn of the lumbar enlargement region of the spinal cord, and a luciferase assay for the detection of ATP levels in the cerebrospinal fluid. The results showed that ulinastatin prevented the development of mechanical allodynia and thermal hypersensitivity in the rat sciatic nerve ligation model. Ulinastatin reduced the level of extracellular ATP, down-regulated P2Y2 receptor and AMPK expression in the spinal dorsal horn of the chronic constrictive injury model. We found that increased expression of P2Y2 receptor in microglia was likely involved in the activation of microglia after nerve injury, and ulinastatin inhibited the abnormal microglia activation in the dorsal horn after nerve injury. These findings demonstrated that ulinastatin might be a potential and effective drug for the treatment of NPP via the suppression of the ATP/P2Y2 receptor pathway.