Mapping, in the rat central nervous system, of morphine-induced changes in turnover of 5-hydroxytryptamine.

Abstract

The full clinical effect of morphine is not seen if those neurons of the CNS which contain 5-hydroxytryptamine (5-HT) have been inactivated. Morphine increases 5-HT turnover in brain and cord. An attempt at mapping the sites at which turnover is accelerated, was made. The degree of interaction at various sites of the CNS was measured by the increment in the content of 5-hydroxyindol-3-yl acetic acid (5-HIAA) elicited by morphine in rats pre-treated with probenecid. The effect was produced by as little as 3.5 mg morphine hydrochloride/kg; for the sake of convenience this dose was doubled in most experiments. Pre-treatment with probenecid was not necessary for the effect, but a minimum interval of 90 min between injection of morphine and analysis of the brain was essential. Morphine did not act indiscriminately on all 5-HT neurons, as seen by the fact that the increment in 5-HIAA formation was independent of the density of 5-HT neurones in the tissue. Nor was there any relation between basal 5-HT turnover of a region and the size of its response to morphine. Highly reactive sites were found in dorsal cord, medulla, superior colliculi, substantia nigra, thalamus, hypothalamus, amygdala and striatum. Cortical areas were less responsive, but with large differences among themselves. Hippocampus, central grey, olfactory bulb, cerebellum and white matter had lower or negligible increases in 5-HT turnover. There was no increase in the turnover of the (non-neural) 5-HT of the pineal gland. The relation of the reactive sites to their content in endogenous opiods and to the probable localization of the pharmacological actions of morphine is discussed.