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KMID : 0358619960300010085
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Korean Journal of Physiology
1996 Volume.30 No. 1 p.85 ~ p.96
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Adenosine Agonist-induced Changes in the Transmission of Sensory Signals in the Cat Spinal Cord
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Kim Kee-Soon
Shin Hong-Kee
Kim Jin-Hyuk
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Abstract
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Adenosine and its analogues are known to possess analgesic effects and to be involved in the opiate-induced antinociception as well. This study was designed to investigate the effects of three adenosine agonists, 5¡¯- (N-cyclopropyl) -carboxamidoadenosine(CPCA), 5¡¯-N-ethylcarboxamidoadeno-sine (NECA) and (CHA) on the signal transmission in the spinal cord and also to elucidate mechanisms of their actions in the anesthetized cat. All the tested adenosine agonists(i.v,) exerted inhibitory effects on the responsiveness of the wide dynamic range (WDR) cells, the inhibitory action of CHA, an adenosine receptor agonist, being most weak. The intravenous CPCA, an adenosine receptor agonist, and NECA, nonspecific adenosine receptor agonist, inhibited the responses of WDR cells to pinch and C fiber stimulation more strongly than those to brush and A fiber stimulation. CPCA (i.v.) also suppressed the responses of WDR cells to thermal stimulus. And all the CPCA-induced inhibitions were caffeine-reversible. When CPCA was directly applied onto the spinal cord or intravenously administered into the spinal cat, on average, about three quarters of the CPCA-induced inhibitory effect was abolished. On the other hand, in the animal with spinal lesions in the ipsilateral dorsolateral area, the CPCA-induced inhibition was comparable to that observed in the spinal cats. In conclusion, this study shows that adenosine agonists strongly suppress the responses of WDR cells to pinch, C fiber stimulation and thermal stimuli mainly through the supraspinal adenosine .
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KEYWORD
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Adenosine agonists, Dorsal hem cell activity, Supraspinal mechanism, Spinal animal, Caffeine
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