慢性尼古丁暴露戒断会产生对酒精刺激的GluA1磷酸化的区域特异性耐受性。
Withdrawal from Chronic Nicotine Exposure Produces Region-Specific Tolerance to Alcohol-Stimulated GluA1 Phosphorylation.
作者信息
McGinn M Adrienne, Paulsen Rod I, Itoga Christy A, Farooq Muhammad A, Reppel Jonathan E, Edwards Kimberly N, Whitaker Annie M, Gilpin Nicholas W, Edwards Scott
机构信息
Department of Physiology, Alcohol & Drug Abuse Center of Excellence, Neuroscience Center of Excellence, Louisiana State University Health Sciences Center, New Orleans, Louisiana.
出版信息
Alcohol Clin Exp Res. 2016 Dec;40(12):2537-2547. doi: 10.1111/acer.13258. Epub 2016 Oct 31.
BACKGROUND
Nicotine use increases alcohol drinking, suggesting that the combination of these drugs may produce synergistic effects in activating reward circuitry. Alternatively, use of either of these drugs may facilitate the development of cross-tolerance to the other to promote intake escalation.
METHODS
In this study, adult male Wistar rats were chronically exposed to room air or chronic, intermittent nicotine vapor, which has been shown to produce symptoms of nicotine dependence as evidenced by elevated nicotine self-administration and a host of somatic and motivational withdrawal symptoms. We examined regional neuroadaptations in nicotine-experienced versus nonexperienced animals, focusing on changes in phosphorylation of the AMPA glutamate channel subunit GluA1 in reward-related brain regions as excitatory neuroadaptations are heavily implicated in both alcohol and nicotine addiction.
RESULTS
During withdrawal, nicotine exposure and alcohol challenge (1 g/kg) interactively produced neuroadaptations in GluA1 phosphorylation in a brain region-dependent manner. Alcohol robustly increased protein kinase A-mediated phosphorylation of GluA1 at serine 845 in multiple regions. However, this neuroadaptation was largely absent in 3 areas (dorsomedial prefrontal cortex, dorsal striatum, and central amygdala) in nicotine-experienced animals. This interactive effect suggests a molecular tolerance to alcohol-stimulated phosphorylation of GluA1 in the context of nicotine dependence.
CONCLUSIONS
Nicotine may modify the rewarding or reinforcing effects of alcohol by altering glutamate signaling in a region-specific manner, thereby leading to increased drinking in heavy smokers.
背景
使用尼古丁会增加酒精摄入量,这表明这两种药物的联合使用可能在激活奖赏回路方面产生协同作用。或者,使用这两种药物中的任何一种都可能促进对另一种药物产生交叉耐受性,从而导致摄入量增加。
方法
在本研究中,成年雄性Wistar大鼠长期暴露于室内空气或慢性间歇性尼古丁蒸气中,已有研究表明,慢性间歇性尼古丁蒸气会产生尼古丁依赖症状,如尼古丁自我给药量增加以及一系列躯体和动机性戒断症状。我们研究了有尼古丁使用经历和无此经历的动物的区域神经适应性变化,重点关注奖赏相关脑区中AMPA谷氨酸通道亚基GluA1的磷酸化变化,因为兴奋性神经适应性变化与酒精和尼古丁成瘾都密切相关。
结果
在戒断期间,尼古丁暴露和酒精激发(1 g/kg)以脑区依赖的方式交互产生GluA1磷酸化的神经适应性变化。酒精显著增加了多个脑区中蛋白激酶A介导的GluA1丝氨酸845位点的磷酸化。然而,在有尼古丁使用经历的动物中,3个脑区(背内侧前额叶皮质、背侧纹状体和中央杏仁核)基本未出现这种神经适应性变化。这种交互作用表明在尼古丁依赖的情况下,对酒精刺激的GluA1磷酸化存在分子耐受性。
结论
尼古丁可能通过以区域特异性方式改变谷氨酸信号来改变酒精的奖赏或强化作用,从而导致重度吸烟者饮酒量增加。
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