Abstract

Excitotoxic spinal cord injury (SCI) causes anatomic, physiologic and molecular changes within the spinal cord and brain. Intraspinal injection of quisqualic acid (QUIS) produces an excitotoxic injury that leads to the onset of behavioral syndromes, believed to be related to the clinical condition of chronic pain. The opioid system, classically involved in the suppression of pain transmission, has been associated with the onset of pain-related behaviors and changes in spinal opioid peptide expression have been demonstrated in various models of SCI and chronic pain. Recently, changes in opioid peptide expression have been demonstrated in both spinal and supraspinal areas following excitotoxic SCI. Therefore, the purpose of this study was to examine changes in opioid peptide gene expression as they relate to the onset of pain behaviors following excitotoxic SCI. Male, Long–Evans rats were given an intraspinal injection of 1.2 μl of 125 mM QUIS and allowed to survive for 10 days, a duration sufficient for the development of pain-related behaviors. Animals were assessed daily for the presence of excessive grooming behavior, i.e. self-directed biting and scratching resulting in damage to superficial and deeper layers of the skin. Animals were also tested for thermal hypersensitivity using a cold plate apparatus on days 5, 7, and 10 following QUIS injection. After sacrifice, quantitative in situ hybridization was performed on regions of the spinal cord surrounding the lesion site as well as whole brain sections through various levels of the thalamus and cortex. Spinal preproenkephalin (PPE) and preprodynorphin (PPD) expression was significantly increased in animals that developed excessive grooming behaviors vs. those that did not. For PPE, this difference was seen bilaterally, in areas of cord caudal to the site of injury. For PPD, this difference was seen only ipsilateral to the site of injection, rostral to the site of injury. In addition, PPE expression in the anterior cingulate cortex and PPD expression in the contralateral parietal cortex were significantly higher in grooming vs. non-grooming animals. These results support previous conclusions that both spinal and supraspinal regulation of endogenous opioid peptide expression plays a role in the response to or onset of post-SCI pain. These results also suggest that the opioid peptides are regulated independently and serve different functions in response to SCI.

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