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The Journal of Neuroscience, 2001, 21:RC179:1-5

RAPID COMMUNICATION
Morphine Induces Synchronous Oscillatory Discharges in the Rat Locus Coeruleus

Hong Zhu¹ and Wu Zhou²

Departments of ¹ Pharmacology and Toxicology and ² Surgery/Otolaryngology, Neurology and Anatomy, University of Mississippi Medical Center, Jackson, Mississippi 39216

The noradrenergic locus coeruleus (LC) plays a role in opioid dependence and withdrawal. In the present study, using a multiple-electrode recording technique that allowed several LC neurons to be recorded simultaneously over long time periods, LC neuronal activities were recorded before and after intracerebroventricular injection of morphine (26 nmol) under halothane anesthesia. We found that morphine did not simply decrease firing rates of LC neurons, as reported in earlier studies, but that it induced persistent oscillatory discharges in 49% (87 of 178) of the LC neurons recorded. Cross-correlation analysis revealed that almost all LC neurons (86 of 87) that exhibited oscillatory discharges were synchronized with at least one other neuron. When stated in terms of simultaneously recorded neuron pairs, 59% (292 of 492) of the oscillatory neuron pairs discharged synchronously. The morphine-induced synchronous oscillation began at ~10 min after morphine injection, reached its peak in ~20-30 min, persisted throughout the recording periods (up to 110 min after morphine injection, the longest recording time), and were reversed by an opioid receptor antagonist naltrexone. These data suggest that although the overall firing rate of LC neurons was reduced by morphine, the morphine-induced synchronous oscillatory activity may summate temporally and spatially at LC axon terminals and facilitate release of noradrenaline. Noradrenaline is an important neuromodulator and has been shown to induce and facilitate synaptic plasticity at LC target sites. We propose that the morphine-induced long-lasting synchronous oscillatory activity in the LC may be a neuronal signal that could induce synaptic plasticity leading to opioid addiction.

Key words: locus coeruleus; morphine; synchronous oscillation; multiple-electrode recording; noradrenaline; synaptic plasticity

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