Species differences in the velocity and stereoselectivity of platelet 5-HT uptake in rats and humans

Effects of lithium and rolipram enantiomers on locomotor activity in inbred mice

Rolipram is a racemic drug that increases brain cAMP availability by inhibiting phosphodiesterase. Lithium, on the other hand, reduces cAMP levels in brain by inhibiting adenylate cyclase and by increasing phosphodiesterase activity. Inbred strains of mice were used in the present study to determine whether the opposite effects of lithium and rolipram on cAMP levels were evident from behavioural effects of the drugs. In the first experiment, locomotor activity was measured in strains of male and female mice given an injection of either vehicle, (+)- or (-)-rolipram in order to find appropriate test conditions for studying interactions with lithium. (-)-Rolipram was more potent than its antipode in inducing hypokinesia, and the effects of (+)- and (-)-rolipram depended on mouse strain. In the second experiment, mice received lithium in their food for 3-4 weeks prior to testing, and they were then given an injection of vehicle, (+)- or (-)-rolipram before behaviour tests. Lithium reduced locomotor activity in mice given the vehicle, whereas it counteracted activity-suppressant effects of rolipram. The behavioural findings are consistent with the opposite pharmacological effects of lithium and rolipram on cAMP, and support the notion that cAMP availability in brain may play a role in behavioural effects of lithium and rolipram.

A simple and reliable method for monitoring platelet serotonin levels in rats

A simple and reliable method for individual monitoring of platelet serotonin in rats is developed. Platelet-rich plasma is prepared under standardized conditions from 1 mL of venous blood and the platelets are quantitatively separated by a highly reproducible procedure. Platelet serotonin content is determined spectrophotofluorometrically and the results are comparatively expressed per standardized platelet rich plasma sample (1.01 +/- 0.18 microgram), per mg of platelet protein (1.57 +/- 0.15 microgram) and per 10(9) platelets (2.16 +/- 0.38 micrograms). Normal distribution of platelet serotonin levels in a sample of 338 animals is shown. By use of the described method, the intraindividual stability of platelet serotonin concentration in rats is demonstrated for the first time.

The stereoselectivity of serotonin uptake in brain tissue and blood platelets: the topography of the serotonin uptake area

This review concerns effects of stereoisomers on 5-HT uptake in brain tissue and/or blood platelets. All studies in which at least a pair of stereoisomers were used are considered. Differences between effects of stereoisomers of antidepressants as well as other drugs on 5-HT uptake are discussed. The findings indicate that 5-HT uptake is a stereoselective process. A topographical model of the 5-HT uptake area is proposed, based mainly on comparisons between spatial features of stereoisomers that inhibit 5-HT uptake.