Rinker Jennifer A, Fulmer Diana B, Trantham-Davidson Heather, Smith Maren L, Williams Robert W, Lopez Marcelo F, Randall Patrick K, Chandler L Judson, Miles Michael F, Becker Howard C, Mulholland Patrick J
Department of Neuroscience, Medical University of South Carolina, Charleston, SC 29425, USA.
Department of Pharmacology and Toxicology, Virginia Commonwealth University, Richmond, VA 23298, USA.
Alcohol. 2017 Feb;58:33-45. doi: 10.1016/j.alcohol.2016.05.007. Epub 2016 Jun 27.
Alcohol (ethanol) dependence is a chronic relapsing brain disorder partially influenced by genetics and characterized by an inability to regulate harmful levels of drinking. Emerging evidence has linked genes that encode K7, K, and K2 K channels with variation in alcohol-related behaviors in rodents and humans. This led us to experimentally test relations between K channel genes and escalation of drinking in a chronic-intermittent ethanol (CIE) exposure model of dependence in BXD recombinant inbred strains of mice. Transcript levels for K channel genes in the prefrontal cortex (PFC) and nucleus accumbens (NAc) covary with voluntary ethanol drinking in a non-dependent cohort. Transcripts that encode K7 channels covary negatively with drinking in non-dependent BXD strains. Using a pharmacological approach to validate the genetic findings, C57BL/6J mice were allowed intermittent access to ethanol to establish baseline consumption before they were treated with retigabine, an FDA-approved K7 channel positive modulator. Systemic administration significantly reduced drinking, and consistent with previous evidence, retigabine was more effective at reducing voluntary consumption in high-drinking than low-drinking subjects. We evaluated the specific K channel genes that were most sensitive to CIE exposure and identified a gene subset in the NAc and PFC that were dysregulated in the alcohol-dependent BXD cohort. CIE-induced modulation of nine genes in the NAc and six genes in the PFC covaried well with the changes in drinking induced by ethanol dependence. Here we identified novel candidate genes in the NAc and PFC that are regulated by ethanol dependence and correlate with voluntary drinking in non-dependent and dependent BXD mice. The findings that Kcnq expression correlates with drinking and that retigabine reduces consumption suggest that K7 channels could be pharmacogenetic targets to treat individuals with alcohol addiction.
酒精(乙醇)依赖是一种慢性复发性脑部疾病,部分受遗传因素影响,其特征是无法控制有害的饮酒量。新出现的证据表明,编码K7、K和K2钾通道的基因与啮齿动物和人类与酒精相关行为的差异有关。这促使我们在BXD重组近交系小鼠的慢性间歇性乙醇(CIE)暴露依赖模型中,通过实验测试钾通道基因与饮酒量增加之间的关系。在一个非依赖队列中,前额叶皮质(PFC)和伏隔核(NAc)中钾通道基因的转录水平与自愿饮酒量共同变化。在非依赖的BXD品系中,编码K7通道的转录本与饮酒量呈负相关。为了用药理学方法验证遗传研究结果,在C57BL/6J小鼠间歇性接触乙醇以建立基线饮酒量后,用瑞替加滨(一种FDA批准的K7通道正性调节剂)对其进行治疗。全身给药显著减少了饮酒量,并且与先前的证据一致,瑞替加滨在减少高饮酒量受试者的自愿饮酒量方面比低饮酒量受试者更有效。我们评估了对CIE暴露最敏感的特定钾通道基因,并在NAc和PFC中鉴定出一个在酒精依赖的BXD队列中失调的基因子集。CIE诱导的NAc中9个基因和PFC中6个基因的调节与乙醇依赖引起的饮酒变化密切相关。在这里,我们在NAc和PFC中鉴定出了受乙醇依赖调节且与非依赖和依赖BXD小鼠的自愿饮酒相关的新候选基因。Kcnq表达与饮酒相关以及瑞替加滨减少饮酒量的研究结果表明,K7通道可能是治疗酒精成瘾个体的药物遗传学靶点。