Gordon J L, Olverman H J
Br J Pharmacol. 1978 Feb;62(2):219-26. doi: 10.1111/j.1476-5381.1978.tb08449.x.
1 Uptake of 5-hydroxytryptamine (5-HT) by rat platelets in plasma was very rapid and diffusion did not contribute significantly at substrate concentrations that did not saturate the active transport.2 Under conditions which allowed measurement of initial rates of uptake, kinetic analysis revealed a high affinity uptake mechanism for 5-HT (K(m) = 0.7 muM).3 Uptake of dopamine was relatively slow and involved a lower affinity (K(m) = 70 muM) active transport process. Diffusion contributed significantly at concentrations that did not saturate the active transport.4 5-HT competitively inhibited uptake of dopamine, and vice versa; K(i) values for both amines were similar to their respective K(m) values for uptake.5 Chlorimipramine, desmethylimipramine and benztropine were tested as uptake inhibitors. Each was equipotent against 5-HT and dopamine, although the absolute potency of the drugs varied greatly. Chlorimipramine was the most potent (K(i)## 100 nM), and kinetic analysis revealed that the inhibition was competitive against both 5-HT and dopamine.6 Similar results were obtained in studies with human platelets: K(m) values for 5-HT and dopamine were about 1 muM and 100 muM respectively. Activity profiles of inhibitors were also similar: each compound tested was equipotent against 5-HT and dopamine, and the two amines each competitively inhibited uptake of the other.7 We conclude that dopamine is actively transported by platelets via the 5-HT uptake mechanism, but with a much lower affinity. There is no high-affinity dopamine-specific mechanism corresponding to that in the corpus striatum. Consequently although platelets may be valid models of transport in 5-hydroxytryptaminergic neurones, they should not be regarded as models for the dopamine transport mechanism found in dopaminergic neurones.
大鼠血小板在血浆中对5-羟色胺(5-HT)的摄取非常迅速,在未使主动转运饱和的底物浓度下,扩散对摄取的贡献不显著。
在能够测量摄取初始速率的条件下,动力学分析揭示了5-HT的高亲和力摄取机制(K(m)=0.7μM)。
多巴胺的摄取相对较慢,涉及较低亲和力(K(m)=70μM)的主动转运过程。在未使主动转运饱和的浓度下,扩散对摄取有显著贡献。
5-HT竞争性抑制多巴胺的摄取,反之亦然;两种胺的抑制常数(K(i))值与其各自摄取的K(m)值相似。
对氯米帕明、去甲氯米帕明和苯海索作为摄取抑制剂进行了测试。每种药物对5-HT和多巴胺的效力相同,尽管药物的确切效力差异很大。对氯米帕明效力最强(K(i)##100 nM),动力学分析表明其抑制作用对5-HT和多巴胺均为竞争性。
在对人血小板的研究中也得到了类似结果:5-HT和多巴胺的K(m)值分别约为1μM和100μM。抑制剂的活性谱也相似:每种测试化合物对5-HT和多巴胺的效力相同,且两种胺相互竞争性抑制摄取。
我们得出结论,多巴胺通过5-HT摄取机制由血小板主动转运,但亲和力低得多。不存在与纹状体中相应的高亲和力多巴胺特异性机制。因此,尽管血小板可能是5-羟色胺能神经元转运的有效模型,但不应将其视为多巴胺能神经元中多巴胺转运机制的模型。