Landa M E, Rubio M C, Jaim-Etcheverry G
J Pharmacol Exp Ther. 1984 Oct;231(1):131-6.
The alkylating compound N-(2-chloroethyl)-N-ethyl-2-bromobenzylamine hydrochloride (DSP4) injected to rodents blocks norepinephrine (NE) uptake and reduces endogenous NE levels in the central nervous system and in the periphery. To investigate the processes leading to these alterations, rat cortical slices were incubated in the presence of DSP4. Cortical NE was depleted by 40% after incubation of slices in 10(-5) M DSP4 for 60 min and this was blocked by desipramine. The spontaneous outflow of radioactivity from cortical slices labeled previously with [3H]NE was enhanced markedly both during exposure to DSP4 and during the subsequent washings, suggesting that NE depletion could be due to this stimulation of NE release. The radioactivity released by DSP4 was accounted for mainly by NE and its deaminated metabolite 3,4-dihydroxyphenylglycol. The enhanced release, independent of external Ca++, apparently originated from the vesicular pool as it was absent after reserpine pretreatment. Activities of the enzymes related to NE synthesis were not altered by DSP4 in vitro and only monoamine oxidase activity was inhibited at high concentrations. Thus, the depletion of endogenous NE produced by DSP4 is probably due to a persistent enhancement of its release from the vesicular pool. Fixation of DSP4 to the NE transport system is necessary but not sufficient to produce the acute NE depletion and the characteristic long-term actions of the compound.
给啮齿动物注射烷基化化合物N-(2-氯乙基)-N-乙基-2-溴苄胺盐酸盐(DSP4)可阻断去甲肾上腺素(NE)的摄取,并降低中枢神经系统和外周的内源性NE水平。为了研究导致这些改变的过程,将大鼠皮质切片在DSP4存在的情况下进行孵育。将切片在10(-5)M DSP4中孵育60分钟后,皮质NE减少了40%,这被地昔帕明阻断。先前用[3H]NE标记的皮质切片的放射性自发流出在暴露于DSP4期间和随后的洗涤过程中均显著增强,这表明NE的消耗可能是由于这种对NE释放的刺激。DSP4释放的放射性主要由NE及其脱氨基代谢物3,4-二羟基苯乙二醇组成。这种增强的释放与细胞外Ca++无关,显然起源于囊泡池,因为在利血平预处理后这种释放就不存在了。与NE合成相关的酶的活性在体外不受DSP4的影响,只有在高浓度时单胺氧化酶活性才受到抑制。因此,DSP4引起的内源性NE的消耗可能是由于其从囊泡池释放的持续增强。DSP4与NE转运系统的结合对于产生急性NE消耗和该化合物的特征性长期作用是必要的,但不是充分的。
