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可卡因、海洛因和冰毒自我给药后大鼠伏隔核多巴胺传递的差异调节。

Differential regulation of accumbal dopamine transmission in rats following cocaine, heroin and speedball self-administration.

机构信息

Graduate Program in Neuroscience, Wake Forest University School of Medicine, Winston-Salem, NC, USA.

出版信息

J Neurochem. 2012 Jul;122(1):138-46. doi: 10.1111/j.1471-4159.2012.07738.x. Epub 2012 May 23.

Abstract

Cocaine/heroin combinations (speedball) exert synergistic neurochemical and behavioral effects that are thought to contribute to the increased abuse potential and subjective effects reported by polydrug users. In vivo fast-scan cyclic voltammetry was used to examine the effects of chronic intravenous self-administration (25 consecutive sessions) of cocaine (250 μg/inf), heroin (4.95 μg/inf) and speedball (250/4.95 μg/inf cocaine/heroin) on changes in electrically evoked dopamine (DA) efflux, maximal rate of DA uptake (V(max)) and the apparent affinity (K(m)) of the DA transporter in the nucleus accumbens. The increase in electrically evoked DA was comparable following cocaine and speedball injection; however, heroin did not increase evoked DA. DA transporter K(m) values were similarly elevated following cocaine and speedball, but unaffected by heroin. However, speedball self-administration significantly increased baseline V(max), while heroin and cocaine did not change baseline V(max), compared with the baseline V(max) values of drug-naïve animals. Overall, elevated DA clearance is a likely consequence of synergistic elevations of nucleus accumbens extracellular DA concentrations by chronic speedball self-administration, as reported previously in microdialysis studies. The present results indicate neuroadaptive processes that are unique to cocaine/heroin combinations and cannot be readily explained by simple additivity of changes observed with cocaine and heroin alone.

摘要

可卡因/海洛因混合物(速球)产生协同的神经化学和行为效应,据认为这有助于增加多药物使用者报告的滥用潜力和主观效应。体内快速扫描循环伏安法用于研究慢性静脉自我给药(25 个连续疗程)可卡因(250μg/次)、海洛因(4.95μg/次)和速球(250/4.95μg/次可卡因/海洛因)对伏隔核中电诱发多巴胺(DA)外排、DA 摄取的最大速率(Vmax)和 DA 转运体的表观亲和力(K m)变化的影响。可卡因和速球注射后,电诱发 DA 的增加相当;然而,海洛因并没有增加诱发的 DA。可卡因和速球给药后,DA 转运体 K m 值相似升高,但海洛因不影响。然而,与药物-naive 动物的基线 Vmax 值相比,速球自我给药显著增加了基线 Vmax,而海洛因和可卡因没有改变基线 Vmax。总的来说,DA 清除率升高很可能是由于慢性速球自我给药导致伏隔核细胞外 DA 浓度协同升高的结果,这在以前的微透析研究中已有报道。本研究结果表明,可卡因/海洛因混合物存在独特的神经适应性过程,不能简单地用可卡因和海洛因单独观察到的变化的加和性来解释。

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