Abstract
Dynorphin A(1-17), the proposed endogenous ligand for the kappa receptor, has been reported to demonstrate no antinociceptive activity when tested in analgesic assays involving noxious (heat (e.g., tail-flick and hot-plate assays). By using a rat tail-flick analgesic assay that utilizes extreme cold as its noxious stimulus (an ethylene glycol-water mixture maintained at -10 degrees C), we have recently reported a dose-related and naloxone-reversible antinociceptive effect for i.c.v. administered dynorphin A(1-17). To elucidate the biochemical mechanism of this antinociception, we designed a push-pull perfusion system which would allow us to measure changes in neuropeptide release in the spinal cord during exposure to noxious heat or cold. Male Sprague-Dawley rats were implanted surgically with two lengths of PE-10 tubing inserted into the spinal subarachnoid space via the cisterna magna, with the push cannula at the level of T-1, and the pull cannula at the rostral edge of the lumbar enlargement. At the time of testing, samples of cerebrospinal fluid were collected both in the presence and absence of a noxious stimulus. Substance P (SP) and somatostatin (SST) levels were measured by radioimmunoassay. Exposing the animal's tail to the noxious cold (30 sec/min for 20 min) resulted in a significant elevation in SP release (69% above base-line levels), but no change in the level of SST release. Conversely, exposure to noxious heat (50 degrees C, 20 sec/min for 20 min) produced a significant increase in SST release (56% above base line), but no change in the level of SP release.(ABSTRACT TRUNCATED AT 250 WORDS)
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