 |
||||
|
||||
|
||||
|
||||
Volume 16, Number 20, Issue of October 15, 1996 pp. 6612-6623
Copyright ©1996 Society for NeuroscienceAn Opioidergic Cortical Antinociception Triggering Site in the Agranular Insular Cortex of the Rat that Contributes to Morphine Antinociception
Received March 18, 1996; revised July 25, 1996; accepted July 30, 1996.
Adam R. Burkey1, Earl Carstens2, Julia J. Wenniger1, Jinwen Tang1, and L. Jasmin1 1 Departments of Neurosurgery and Cell Biology, Georgetown University Medical Center PHC1, Washington, DC 20007, and 2 Section of Neurobiology, Physiology and Behavior, University of California at Davis, Davis, California 95616
We report an anatomically defined opioid-responsive site in the rostral agranular insular cortex (RAIC) of the rat and characterize the antinociception produced by morphine acting within this region. Immunohistochemistry for the µ-opioid receptor identified a discretely localized cluster of densely labeled dendrite-like processes in the agranular insular cortex. The antinociceptive effect of morphine microinjected unilaterally into this area was evaluated using the formalin test. Antinociception was observed in both ipsilateral and contralateral hindpaws. Local pretreatment with naltrexone in the RAIC blocked the antinociception of local morphine injection, confirming that morphine was acting at an opioid receptor. Unilateral injection of naloxone methiodide into the RAIC reversed the behavioral antinociception of systemic morphine bilaterally in the formalin test. Evidence for a descending inhibitory mechanism acting on spinal nociceptive neurons was obtained by monitoring noxious stimulus-induced c-fos expression in rats having undergone formalin testing and by electrophysiological recording of single units in the lumbar dorsal horn after localized application of morphine into the RAIC. A significant reduction in the number of Fos-like immunoreactive neurons was found ipsilateral to the formalin stimulus in nociresponsive areas of the dorsal horn after on-site injections of morphine into the RAIC. Electrophysiological recording of nociresponsive dorsal horn neurons demonstrated a naloxone-reversible reduction in noxious thermal stimulus-evoked firing after morphine injection into this same area. These results suggest that the RAIC contributes to opioid-receptor-mediated antinociception after either local or systemic morphine administration and that these effects may be associated with an increased descending inhibition of dorsal horn neurons.
Key words: cerebral cortex; systemic opioids; limbic system; descending inhibition; analgesia; pain; Fos; µ-opioid receptor; formalin test
This article has been cited by other articles:
B. H. Manning, N. M. Merin, I. D. Meng, and D. G. Amaral
Reduction in Opioid- and Cannabinoid-Induced Antinociception in Rhesus Monkeys after Bilateral Lesions of the Amygdaloid Complex
J. Neurosci., October 15, 2001; 21(20): 8238 - 8246.
[Abstract] [Full Text] [PDF]
A. R. Burkey, E. Carstens, and L. Jasmin
Dopamine Reuptake Inhibition in the Rostral Agranular Insular Cortex Produces Antinociception
J. Neurosci., May 15, 1999; 19(10): 4169 - 4179.
[Abstract] [Full Text] [PDF]
R. Dallel, C. Duale, and J.-L. Molat
Morphine Administered in the Substantia Gelatinosa of the Spinal Trigeminal Nucleus Caudalis Inhibits Nociceptive Activities in the Spinal Trigeminal Nucleus Oralis
J. Neurosci., May 15, 1998; 18(10): 3529 - 3536.
[Abstract] [Full Text] [PDF]
|
|
|
|
 |
|