Conclusive evidence for distinct transporters for 5-hydroxytryptamine and noradrenaline in pulmonary endothelial cells of the rat.

The aims of this study were to obtain conclusive evidence about the roles of a 5-hydroxytryptamine [5-HT] transporter and uptake1 in the dissipation of 5-HT in the lungs of the rat and to compare the properties of the 5-HT transporter in rat lungs with that in other tissues, including brain and platelets. In the first part of the study, the IC50 values of a range of selective inhibitors and substrates of the 5-HT transporter or uptake1 were determined for inhibition of uptake of 5-HT or noradrenaline in intact perfused lungs of rats. Monoamine oxidase was inhibited and, in experiments with noradrenaline, catechol-O-methyltransferase was also inhibited. Initial rates of uptake of 5-HT or noradrenaline were measured in lungs perfused with 2 nmol/l 3H-5-HT or 3H-noradrenaline for 2 min, in the absence or presence of at least three concentrations of paroxetine, citalopram, fluoxetine, 7-methyltryptamine, tryptamine, nisoxetine, imipramine, 5-HT, desipramine, (+)-oxaprotiline, cocaine or tyramine. The results showed that pharmacologically distinct transporters are involved in the uptake of 5-HT and noradrenaline in rat lungs, since there was no significant correlation between the IC50 values for inhibition of 5-HT and noradrenaline uptake in the lungs. However, there were significant correlations between the IC50 values for (a) inhibition of 5-HT uptake in rat lungs and of uptake by the 5-HT transporter in rat brain and (b) inhibition of noradrenaline uptake in rat lungs and of uptake1 in rat phaeochromocytoma PC-12 cells. The results support the conclusion that 5-HT uptake in rat lungs occurs, at least predominantly, by a 5-HT transporter which is very similar to or the same as that in other tissues, such as the brain, and provide further evidence for transport of noradrenaline by uptake1. Further experiments were carried out to determine whether there is any transport of 5-HT by uptake1 or of noradrenaline by the 5-HT transporter in rat lungs. Lungs were perfused with 2 nmol/l 3H-5-HT or 3H-noradrenaline for 2 min in the absence or presence of 1 mumol/l citalopram, desipramine, or citalopram and desipramine. The results showed that there was no evidence of any transport of 5-HT in the lungs by uptake1 or of noradrenaline by the 5-HT transporter, in that desipramine had no effect on 5-HT uptake (in the absence or presence of citalopram) and citalopram had no effect on noradrenaline uptake (in the absence or presence of desipramine). The final series of experiments was carried out to determine whether, at high concentrations of the amine, there is any interaction of 5-HT with uptake1 or of noradrenaline with the 5-HT transporter. Noradrenaline, at a concentration of 10 mumol/l, did not affect 5-HT uptake in lungs perfused with 2 nmol/l 3H-5-HT for 2 min (uptake1 inhibited), but 50 mumol/l 5-HT inhibited noradrenaline uptake by 56% in lungs perfused with 2 nmol/l 3H-noradrenaline for 2 min (5-HT transporter inhibited). These and the above results show that the 5-HT transporter appears to be exclusively responsible for 5-HT uptake in rat lungs, despite the possible interaction of 5-HT at high concentrations with the uptake1 transporter in the cells. On the other hand, noradrenaline is transported exclusively by uptake1 in the lungs, and there is no evidence that it interacts with the 5-HT transporter, even at high concentrations.