环境丰容对大鼠可卡因自我给药升级的影响。
Effect of environmental enrichment on escalation of cocaine self-administration in rats.
机构信息
Center for Drug Abuse Research Translation (CDART), University of Kentucky, 741 S. Limestone, Lexington, KY 40536-0509, USA.
出版信息
Psychopharmacology (Berl). 2011 Mar;214(2):557-66. doi: 10.1007/s00213-010-2060-z. Epub 2010 Nov 6.
BACKGROUND
Previous studies found that environmental enrichment protects against the initiation of stimulant self-administration in rats, but it is unclear if enrichment also protects against the escalation of stimulant use with long-term exposure.
OBJECTIVE
The current study examined the effects of environmental enrichment on escalation of cocaine self-administration using an extended access procedure.
METHODS
Rats were raised from 21 days in an enriched condition (EC) with social cohorts and novel objects, a social condition with only social cohorts (SC), a novelty condition (NC) with novel objects in isolated cages, or an isolated condition (IC) without social cohorts or novel objects. In young adulthood, EC, SC, NC, and IC rats were separated into short access (ShA) or long access (LgA) groups that received either 1 or 6 h, respectively, of daily cocaine self-administration (0.1 mg/kg/infusion) for 14 days. In a second experiment, EC and IC rats were used to assess differences in acquisition and escalation of cocaine self-administration at a 0.5 mg/kg/infusion unit dose.
RESULTS
With ShA sessions, EC rats acquired cocaine self-administration at a slower rate than IC rats at both unit doses; however, with extended training, both groups eventually reached similar rates. At the 0.1 mg/kg/infusion dose, only NC and IC rats escalated in amount of intake when switched to the LgA sessions. At the 0.5 mg/kg/infusion dose, rates of cocaine self-administration escalated in LgA groups over 14 days regardless of EC or IC rearing condition; however, EC rats escalated at a faster rate, eventually reaching the same level of intake observed in IC rats.
CONCLUSIONS
Although environmental enrichment protects against escalation of a low unit dose of cocaine, it may not protect against escalation with a higher unit dose. In addition, at a lower unit dose, this protective mechanism appears to be due to the presence of social cohorts rather than novel objects.
背景
先前的研究发现,环境丰富可以预防大鼠开始滥用兴奋剂,但尚不清楚环境丰富是否可以预防长期暴露后兴奋剂使用的升级。
目的
本研究使用扩展访问程序检查环境丰富对可卡因自我给药升级的影响。
方法
从 21 天开始,将大鼠饲养在丰富环境(EC)中,有社交群体和新奇物品,有社交群体(SC),有新奇物品在隔离笼中(NC),或无社交群体或新奇物品的隔离环境(IC)。在青年期,EC、SC、NC 和 IC 大鼠分为短接入(ShA)或长接入(LgA)组,分别接受 1 或 6 小时,每天接受 14 天的可卡因自我给药(0.1 mg/kg/剂量)。在第二个实验中,使用 EC 和 IC 大鼠来评估在 0.5 mg/kg/剂量单位剂量下可卡因自我给药的获取和升级的差异。
结果
在 ShA 会议中,EC 大鼠在两个单位剂量的药物获取速度均比 IC 大鼠慢;然而,经过扩展训练,两组最终达到了相似的速度。在 0.1 mg/kg/剂量单位剂量下,只有 NC 和 IC 大鼠在切换到 LgA 会议时增加了摄入量。在 0.5 mg/kg/剂量单位剂量下,LgA 组在 14 天内可卡因自我给药的速度均有所增加,无论 EC 或 IC 饲养条件如何;然而,EC 大鼠的上升速度更快,最终达到了 IC 大鼠观察到的相同摄入量水平。
结论
尽管环境丰富可以预防低单位剂量可卡因的升级,但它可能无法预防更高单位剂量可卡因的升级。此外,在较低的单位剂量下,这种保护机制似乎是由于社交群体的存在,而不是新奇物品。
Zotero 插件