Mikuni M
Hokkaido Igaku Zasshi. 1987 May;62(3):417-29.
The effects of subchronic administration of various psychotropic agents on the density of 5HT 2 receptor binding sites in rat cerebral cortex were investigated. In addition to antidepressant agents, some neuroleptic drugs including chlorpromazine (CPZ), spiperon, and cisflupentixol reduced the numbers of 5HT-2 receptor binding sites after 21 days treatment. The more selective D-2 antagonist haloperidol and sulpiride were totally ineffective in this regard. Anxiolytic agents, benzodiazepine derivatives were also ineffective. Central 5, 7-DHT-induced lesion of 5HT neurons demonstrated that intact 5HT neurons were not required for the reduction of 5HT-2 receptors by desipramine (DMI). Co-administration of DMI and alpha-2 antagonist yohimbine (YOH) produced down-regulation of 5HT-2 receptors within 3 days, whereas each agent alone did not produce such effect. The effect of 3-day treatment with mianserin (MIA, alpha-2 and 5HT-2 antagonist) alone and DMI plus YOH producing 5HT-2 down-regulation, were not prevented by the pretreatment with DSP-4 which selectively destroyed NE neurons. These results suggest that the synaptic availability of 5HT may not be required for DMI-induced down regulation of 5HT-2 receptor binding sites, and the mechanisms mediated through postsynaptic alpha-2 and 5HT-2 receptors are important factors in the regulation of 5HT-2 receptor density. Evidence suggests that the 5HT-1 receptor site is functionally linked to adenylate cyclase in the brain, but a biochemical effector system which is linked to the 5HT-2 receptor site has not been found. The metabolism of inositol phospholipids in response to 5HT was, therefore, investigated in human platelets using sensitive radioisotopic method of Berridge (1983). In platelets prelabeled with 3H-myo-inositol, in Ca++ free HEPES buffer containing 10 mM LiCl, 5HT caused a dose-dependent accumulation of inositol-1-phosphate (IP1) during 15 min incubation. A maximal increase in IP1 formation was observed at 30 microM of 5HT and the EC50 value was 4 microM. Ketanserin, a selective 5HT-2 receptor antagonist was a potent inhibitor of 5HT-stimulated IP1 accumulation, with a Ki value of 12 nM, but a selective 5HT-1 antagonist, (-)-propranolol (1 microM) failed to block the 5HT response. These results indicate that 5HT is activating 5HT-2 receptors, but not 5HT-1 in human platelets. CPZ and imipramine inhibited 5HT-stimulated IP1 accumulation, with Ki values of 124 nM and 2.56 microM, respectively.
研究了亚慢性给予各种精神药物对大鼠大脑皮层5HT₂受体结合位点密度的影响。除抗抑郁药外,一些抗精神病药物,包括氯丙嗪(CPZ)、螺哌隆和顺氟哌噻吨,在治疗21天后可减少5HT-2受体结合位点的数量。更具选择性的D-2拮抗剂氟哌啶醇和舒必利在这方面完全无效。抗焦虑药苯二氮卓衍生物也无效。中枢5,7-二氢麦角隐亭诱导的5HT神经元损伤表明,地昔帕明(DMI)降低5HT-2受体并不需要完整的5HT神经元。DMI与α-2拮抗剂育亨宾(YOH)联合给药在3天内可使5HT-2受体下调,而单独使用每种药物均未产生这种效果。米安色林(MIA,α-2和5HT-2拮抗剂)单独进行3天治疗以及DMI加YOH导致5HT-2下调的效果,并未被选择性破坏NE神经元的DSP-4预处理所阻止。这些结果表明,DMI诱导的5HT-2受体结合位点下调可能不需要5HT的突触可用性,并且通过突触后α-2和5HT-2受体介导的机制是调节5HT-2受体密度的重要因素。有证据表明,5HT-1受体位点在功能上与大脑中的腺苷酸环化酶相关,但尚未发现与5HT-2受体位点相关的生化效应系统。因此,使用Berridge(1983)灵敏的放射性同位素方法,研究了人血小板中5HT对肌醇磷脂代谢的影响。在用³H-肌醇预标记的血小板中,在含有10 mM LiCl的无Ca²⁺ HEPES缓冲液中,5HT在15分钟孵育期间导致肌醇-1-磷酸(IP1)剂量依赖性积累。在5HT浓度为30 μM时观察到IP1形成的最大增加,EC50值为4 μM。选择性5HT-2受体拮抗剂酮色林是5HT刺激的IP1积累的有效抑制剂,Ki值为12 nM,但选择性5HT-1拮抗剂(-)-普萘洛尔(1 μM)未能阻断5HT反应。这些结果表明,5HT在人血小板中激活的是5HT-2受体,而非5HT-1受体。CPZ和丙咪嗪抑制5HT刺激的IP1积累,Ki值分别为124 nM和2.56 μM。
