Stamford J A, Kruk Z L, Millar J
Department of Pharmacology, London Hospital Medical College, U.K.
Brain Res. 1990 May 7;515(1-2):173-80. doi: 10.1016/0006-8993(90)90593-z.
Peripheral administration of 5-hydroxytryptophan (5-HTP) to rats causes 'wet dog' shakes and a parallel elevation of brain serotonin (5-HT) levels. The increase in 5-HT concentration does not, however, correlate with the endogenous 5-HT innervation raising the possibility that some 5-HTP is decarboxylated in non-serotonergic cells. In the present study we used in vivo voltammetry to establish whether 5-HTP treatment led to formation of 5-HT as a 'false transmitter' in striatal dopamine (DA) neurons. Fast cyclic voltammetry at carbon fibre microelectrodes (CFMs) was used to monitor striatal monoamine release following electrical stimulation of the median forebrain bundle (MFB). In the absence of any pretreatment DA was the sole compound released by stimulation. However, when DA release was abolished with alpha-methyl-p-tyrosine (AMPT), 5-HTP administration (after peripheral decarboxylase inhibition) caused a dose-dependent release of 5-HT, confirmed by the voltammetric characteristics. Central decarboxylase inhibition prevented release indicating that 5-HTP itself was not released. By monitoring reduction peaks it was possible to record DA and 5-HT release simultaneously at a single CFM. While DA and 5-HT oxidised at the same potential their reduction peaks were separated by approximately 450 mV. It was shown, using this means, that 5-HT was still detectable even when DA release was not abolished by AMPT. DA and 5-HT release showed a significant positive correlation suggesting that they were released from the same nerves. We conclude that, after 5-HTP treatment, 5-HT can be released as a false transmitter from striatal DA neurones.
给大鼠外周注射5-羟色氨酸(5-HTP)会引起“湿狗”样抖动,并使脑内血清素(5-HT)水平同时升高。然而,5-HT浓度的增加与内源性5-HT神经支配并无关联,这增加了一种可能性,即某些5-HTP在非5-羟色胺能细胞中被脱羧。在本研究中,我们使用体内伏安法来确定5-HTP治疗是否会导致纹状体多巴胺(DA)神经元中形成作为“假递质”的5-HT。使用碳纤维微电极(CFM)进行快速循环伏安法,以监测电刺激正中前脑束(MFB)后纹状体单胺的释放。在没有任何预处理的情况下,DA是刺激释放的唯一化合物。然而,当用α-甲基-p-酪氨酸(AMPT)消除DA释放时,给予5-HTP(在外周脱羧酶抑制后)会导致5-HT的剂量依赖性释放,这通过伏安特性得到证实。中枢脱羧酶抑制可防止释放,表明5-HTP本身不会释放。通过监测还原峰,可以在单个CFM上同时记录DA和5-HT的释放。虽然DA和5-HT在相同电位下氧化,但其还原峰相隔约450 mV。使用这种方法表明,即使DA释放未被AMPT消除,仍可检测到5-HT。DA和5-HT释放显示出显著的正相关,表明它们从同一神经释放。我们得出结论,5-HTP治疗后,5-HT可作为假递质从纹状体DA神经元释放出来。
