Parker E M, Cubeddu L X
J Pharmacol Exp Ther. 1986 Apr;237(1):179-92.
The release of endogenous dopamine (DA) elicited by electrical stimulation and by d-amphetamine (AMPH) from superfused striatal slices of reserpine-pretreated rabbits was examined. Although reserpine pretreatment reduced tissue DA levels by greater than 95%, the basal efflux of DA and the DA metabolite dihydroxyphenylacetic acid (DOPAC) was slightly greater than that observed in untreated slices. DOPAC constituted the large majority of the basal efflux of endogenous compounds. No overflow of endogenous compounds was evoked by electrical stimulation (3 Hz, 3 min) after reserpine pretreatment. Superfusion with alpha-methyl-p-tyrosine (100 microM) abolished the efflux of endogenous DA and DOPAC. AMPH (0.3-10 microM) produced a concentration-dependent increase in the basal efflux of endogenous DA and a concomitant decrease in endogenous DOPAC efflux. The total efflux of endogenous compounds (DA + DOPAC) tended to be decreased by AMPH. No electrically evoked overflow of endogenous compounds was observed in the presence of AMPH. The increase in synaptic DA produced by AMPH was reflected by a concentration-dependent reduction in the electrically evoked overflow of [3H]acetylcholine (ACh). The ability of AMPH to increase DA efflux and inhibit [3H]ACh release was blocked by inhibition of DA synthesis with alpha-methyl-p-tyrosine (100 microM) or by blockade of the DA neuronal uptake carrier with nomifensine (NOM) (10 microM) and was potentiated by inhibition of monoamine oxidase with pargyline (10 microM). NOM also blocked partially the ability of AMPH to reduce endogenous DOPAC efflux. NOM increased the basal efflux of endogenous DA and inhibited electrically evoked [3H]ACh release but these effects were quantitatively much less than those produced by AMPH. NOM had no effect on DOPAC efflux. Pargyline had little effect on endogenous DA efflux or electrically evoked [3H]ACh release but abolished DOPAC efflux and increased tissue DA levels measured at the end of superfusion. When given in combination, NOM and pargyline produced a similar degree of inhibition of [3H]ACh release as AMPH, although the increase in DA efflux produced by this drug combination was less than that produced by AMPH. These results suggest that in the absence of vesicular transmitter stores (reserpine-pretreatment): synthesis provides a continuous supply of DA which is metabolized rapidly within the neuron and is lost as DOPAC; AMPH facilitates the synthesis-dependent efflux of extravesicular DA probably by an accelerated exchange diffusion mechanism.(ABSTRACT TRUNCATED AT 400 WORDS)
研究了电刺激和d-苯丙胺(AMPH)从利血平预处理兔的灌注纹状体切片中引发的内源性多巴胺(DA)释放。尽管利血平预处理使组织DA水平降低了95%以上,但DA和DA代谢物二羟基苯乙酸(DOPAC)的基础外流略高于未处理切片中的观察值。DOPAC占内源性化合物基础外流的大部分。利血平预处理后,电刺激(3Hz,3分钟)未引发内源性化合物的溢出。用α-甲基-p-酪氨酸(100μM)灌注消除了内源性DA和DOPAC的外流。AMPH(0.3 - 10μM)使内源性DA的基础外流呈浓度依赖性增加,同时内源性DOPAC外流减少。内源性化合物(DA + DOPAC)的总外流倾向于因AMPH而降低。在存在AMPH的情况下,未观察到电诱发的内源性化合物溢出。AMPH产生的突触DA增加表现为电诱发的[3H]乙酰胆碱(ACh)溢出呈浓度依赖性降低。用α-甲基-p-酪氨酸(100μM)抑制DA合成或用诺米芬辛(NOM)(10μM)阻断DA神经元摄取载体可阻断AMPH增加DA外流和抑制[3H]ACh释放的能力,并用帕吉林(pargyline)(10μM)抑制单胺氧化酶可增强这种能力。NOM也部分阻断了AMPH降低内源性DOPAC外流的能力。NOM增加了内源性DA的基础外流并抑制了电诱发的[3H]ACh释放,但这些作用在数量上远小于AMPH产生的作用。NOM对DOPAC外流无影响。帕吉林对内源性DA外流或电诱发的[3H]ACh释放影响很小,但消除了DOPAC外流并增加了灌注结束时测得的组织DA水平。当联合使用时,NOM和帕吉林对[3H]ACh释放的抑制程度与AMPH相似,尽管这种药物组合产生的DA外流增加小于AMPH产生的增加。这些结果表明,在没有囊泡递质储存(利血平预处理)的情况下:合成提供了DA的持续供应,DA在神经元内迅速代谢并以DOPAC形式丢失;AMPH可能通过加速交换扩散机制促进了囊泡外DA的合成依赖性外流。(摘要截短至400字)
