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Vol. 297, Issue 1, 230-239, April 2001
Departments of Pharmacology (I.M.K., S.S., L.Z., P.T., T.L.Y.) and
Anesthesiology (T.L.Y.), University of California, San Diego,
California
Nicotinic agonists, such as epibatidine (EPI) and A-85380, when
administered systemically, elicit analgesia. Intrathecal EPI also
produces analgesia accompanied by nociceptive and pressor responses.
Since spinal administration of drugs offers a well defined pathway
connecting the site of administration with behavioral and autonomic
responses, we have compared the responses to intrathecal epibatidine
and A-85380 to delineate the role of nicotinic acetylcholine receptors in spinal neurotransmission. Following
implantation of intrathecal catheters in rats, we monitored
cardiovascular, nociceptive, and antinociceptive responses after
administration of various nicotinic receptor agonists. Consistent with
A-85380 displacement of epibatidine from isolated spinal cord
membranes, A-85380 elicited pressor, nociceptive, and antinociceptive
responses similar to EPI. Antinociception was preceded by nociception.
Both antinociception and nociception were blocked by mecamylamine, methyllycaconitine, and 
-lobeline, but dihydro-
-erythroidine only
blocked the antinociceptive response. Whereas prior administration of
EPI desensitized the nociceptive and antinociceptive responses to EPI,
A-85380 pretreatment only desensitized EPI-elicited nociception and not
antinociception. 2-Amino-5-phosphopentanoic acid pretreatment blocked
the nociceptive response to A-85380, indicating A-85380 stimulated
release of glutamate onto
N-methyl-D-aspartate receptors to produce
the irritant response of nociception. Intrathecal phentolamine virtually abolished A-85380 antinociception, but had no effect on EPI
antinociception. Hence, analgesia can be produced by stimulation of
distinct spinal preterminal nicotinic receptor subtypes, resulting in
the release of neurotransmitters. In the case of A-85380, these sites
primarily appear to be localized on adrenergic bulbospinal terminals.
Our data suggest that A-85380 and EPI act at separate preterminal
spinal sites as well as on distinct nicotinic receptor subtypes to
elicit an antinociceptive response at the spinal level.
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