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Vol. 280, Issue 1, 16-23, 1997
Department of Pharmacology and Toxicology, West Virginia
University, Robert C. Byrd Health Sciences Center, Morgantown, West
Virginia
Chronic morphine treatment results in the development of an opioid
tolerance in guinea pig myenteric S-neurons that is nonspecific among
pharmacologically unrelated inhibitory agonists and the concurrent
development of a nonspecific supersensitivity to unrelated excitatory
agonists. The purpose of these studies was to extend this model of
opioid tolerance in the guinea pig to central neurons, specifically to
the medial nucleus tractus solitarius (mnTS), the primary brainstem
relay for visceroceptive information. Pharmacological responses of the
guinea pig mnTS neurons were examined in an in vitro
brainstem slice preparation and compared between chronically morphine-treated animals and untreated controls. The spontaneous activity of guinea pig mnTS neurons was inhibited by 
-aminobutyric acid (GABA), the GABAA-selective agonist muscimol,
2-chloroadenosine and clonidine and was excited by glutamate and
elevations in extracellular potassium. Applied alone, morphine or the
GABAA-selective antagonist bicuculline inhibited and
excited approximately equal proportions of nucleus tractus solitarius
(nTS) neurons. However, when applied in the presence of bicuculline,
morphine inhibited most neurons tested. Reduced inhibitory responses to
four agonists, i.e., morphine, muscimol,
2-chloroadenosine and clonidine, were observed in mnTS neurons in
slices obtained from chronically morphine-treated animals. Increased
excitation of these neurons by elevated extracellular potassium was
observed. It is concluded that 1) guinea pig nTS neurons respond
similarly to nTS neurons from other species in vitro, 2)
opioids disinhibit some proportion of guinea pig nTS neurons in
vitro through a GABAergic mechanism and 3) the development of
opioid tolerance in guinea pig nTS neurons is qualitatively similar to
that of guinea pig myenteric S-neurons.
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