Muñiz Javier A, Prieto José P, González Betina, Sosa Máximo H, Cadet Jean L, Scorza Cecilia, Urbano Francisco J, Bisagno Verónica
Facultad de Farmacia y Bioquímica, Universidad de Buenos Aires, Buenos Aires, Argentina.
Instituto de Investigaciones Farmacológicas, Universidad de Buenos Aires, Consejo Nacional de Investigaciones Científicas y Técnicas (CONICET), Buenos Aires, Argentina.
Front Behav Neurosci. 2017 Oct 18;11:200. doi: 10.3389/fnbeh.2017.00200. eCollection 2017.
Caffeine is the world's most popular psychostimulant and is frequently used as an active adulterant in many illicit drugs including cocaine. Previous studies have shown that caffeine can potentiate the stimulant effects of cocaine and cocaine-induced drug seeking behavior. However, little is known about the effects of this drug combination on reward-related learning, a key process in the maintenance of addiction and vulnerability to relapse. The goal of the present study was thus to determine caffeine and cocaine combined effects on the Conditioned Place Preference (CPP) test and to determine potential differential mRNA expression in the Nucleus Accumbens (NAc) and medial prefrontal cortex (mPFC) of immediate-early genes (IEGs) as well as dopamine and adenosine receptor subunits. Mice were treated with caffeine (5 mg/kg, CAF), cocaine (10 mg/kg, COC), or their combination (caffeine 5 mg/kg + cocaine 10 mg/kg, CAF-COC) and trained in the CPP test or treated with repeated injections inside the home cage. NAc and mPFC tissues were dissected immediately after the CPP test, after a single conditioning session or following psychostimulant injection in the home cage for mRNA expression analysis. CAF-COC induced a marked change of preference to the drug conditioned side of the CPP and a significant increase in locomotion compared to COC. Gene expression analysis after CPP test revealed specific up-regulation in the CAF-COC group of , and in the NAc, and , and in the mPFC. Importantly, none of these changes were observed when animals received same treatments in their home cage. With a single conditioning session, we found similar effects in both CAF and CAF-COC groups: increased and decreased in the NAc, and increased expression of and , in the mPFC. Interestingly, we found that and gene expression were increased only in the mPFC of the CAF-COC. Our study provides evidence that caffeine acting as an adulterant could potentiate reward-associated memories elicited by cocaine. This is associated with specific changes in IEGs expression that were observed almost exclusively in mice that received the combination of both psychostimulants in the context of CPP memory encoding and retrieval. Our results highlight the potential relevance of caffeine in the maintenance of cocaine addiction which might be mediated by modifying neural plasticity mechanisms that strengthen learning of the association between drug and environment.
咖啡因是世界上最受欢迎的精神兴奋剂,常被用作包括可卡因在内的许多非法药物中的活性掺杂物。先前的研究表明,咖啡因可增强可卡因的兴奋作用以及可卡因诱导的觅药行为。然而,对于这种药物组合对奖赏相关学习(成瘾维持和复发易感性中的关键过程)的影响却知之甚少。因此,本研究的目的是确定咖啡因和可卡因对条件性位置偏爱(CPP)试验的联合作用,并确定伏隔核(NAc)和内侧前额叶皮质(mPFC)中即刻早期基因(IEGs)以及多巴胺和腺苷受体亚基的潜在差异mRNA表达。将小鼠用咖啡因(5毫克/千克,CAF)、可卡因(10毫克/千克,COC)或它们的组合(咖啡因5毫克/千克+可卡因10毫克/千克,CAF-COC)进行处理,并在CPP试验中进行训练,或在饲养笼内进行重复注射处理。在CPP试验后、单次条件训练后或在饲养笼内注射精神兴奋剂后,立即解剖NAc和mPFC组织用于mRNA表达分析。与COC相比,CAF-COC引起对CPP药物条件侧偏爱的显著变化以及运动的显著增加。CPP试验后的基因表达分析显示,CAF-COC组在NAc中、和的表达特异性上调,在mPFC中、和的表达上调。重要的是,当动物在饲养笼内接受相同处理时,未观察到这些变化。进行单次条件训练时,我们在CAF和CAF-COC组中发现了类似的效应:NAc中增加而减少,mPFC中、和的表达增加。有趣的是,我们发现和基因表达仅在CAF-COC组的mPFC中增加。我们的研究提供了证据表明,作为掺杂物的咖啡因可增强可卡因引发的奖赏相关记忆。这与IEGs表达的特定变化有关,这些变化几乎仅在CPP记忆编码和检索背景下接受两种精神兴奋剂组合的小鼠中观察到。我们的结果突出了咖啡因在可卡因成瘾维持中的潜在相关性,这可能是通过改变神经可塑性机制来介导的,这些机制加强了对药物与环境之间关联的学习。
