Locus coeruleus neurons from morphine-treated rats do not show opiate-withdrawal hyperactivity in vitro.

ABSTRACT

In vitro studies have not consistently demonstrated naloxone-precipitated opiate-withdrawal hyperactivity of locus coeruleus neurons. The reason for this inconsistency may be because partial or complete withdrawal occurred during preparation of the locus coeruleus slice. The aim of the present study was to assay opiate withdrawal-related hyperactivity in neurons recorded from locus coeruleus slices while ensuring the maintenance of dependence until naloxone-precipitated withdrawal. Extracellular recordings were obtained from individual locus coeruleus neurons in slices from morphine-treated and drug-naive rats. Morphine 1 microM was present in all solutions during preparation and recording in slices from morphine-treated rats. The average firing rate of the drug-naive controls was 0.93 Hz (+/-0.04 Hz). Bath application of morphine (1 microM) almost completely suppressed firing in drug-naive controls (0.058 Hz, +/-0.04 Hz, n=12), whereas in solutions containing 1 microM morphine, the firing rate of cells from morphine-treated rats averaged 0.71 Hz (+/-0.05 Hz), indicating considerable, but incomplete tolerance. In the same slices, naloxone increased the average spontaneous firing of locus coeruleus cells to 0.96 Hz (+/-0. 04 Hz). Thus, naloxone did not produce withdrawal hyperactivity, but returned the cells from morphine-treated rats to control rates. We conclude that locus coeruleus cells in locus coeruleus slice preparations from morphine-treated rats did not demonstrate withdrawal-related hyperactivity even when dependence was maintained until naloxone-precipitated withdrawal. Thus, our results do not support a role for adaptations intrinsic to locus coeruleus neurons in withdrawal hyperexcitability, but instead imply the necessity of functional afferent activity.