慢性间歇性乙醇蒸汽暴露雄性小鼠的海马ceRNA网络以及乙醇饮酒表型的顶级lncRNA基因的功能分析。

Advances in drug and alcohol research Pub Date : 2022-01-01 Epub Date: 2022-12-05 DOI:10.3389/adar.2022.10831
S L Plasil, V J Collins, A M Baratta, S P Farris, G E Homanics
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摘要

调控酒精使用障碍(AUD)发生和发展的分子机制在很大程度上是未知的。虽然非编码 RNA 先前已被认为在 AUD 中发挥关键作用,但长非编码 RNA(lncRNA)与 AUD 的关系仍未得到充分研究。在这项研究中,我们首次在小鼠海马中发现了乙醇反应性 lncRNA,这些 lncRNA 是转录网络的枢纽基因。通过对慢性间歇性暴露于乙醇蒸汽或空气(对照组)的小鼠海马中的lncRNA、miRNA、环状RNA和蛋白质编码基因的表达进行微阵列分析,确定了乙醇反应性竞争性内源性RNA(ceRNA)网络。对高度相互关联的lncRNA(与所有其他失调基因总体相关性最强的基因)进行了排序。排名前四位的 lncRNA 是以前未表征的新基因,分别命名为 Gm42575、4930413E15Rik、Gm15767 和 Gm33447,以下分别称为 Pitt1、Pitt2、Pitt3 和 Pitt4。我们随后测试了一个假设,即在 C57BL/6J 小鼠体内对这些 lncRNA 的推定启动子和第一个外显子进行 CRISPR/Cas9 诱变会改变乙醇饮酒行为。黑暗中饮酒(DID)试验用于检测狂饮行为,而每隔一天两瓶选择(EOD-2BC)试验则用于检测间歇性乙醇消耗和偏好。在 DID 试验中没有观察到对照组小鼠和突变体小鼠之间的明显差异。与对照组相比,Pitt1、Pitt3 和 Pitt4 突变小鼠在 EOD-2BC 试验中的乙醇消耗量出现了雌性特异性降低。Pitt1 和 Pitt2 的乙醇偏好发生了雄性特异性改变。在 Pitt3 和 Pitt4 中,乙醇偏好的增加具有雌性特异性。当乙醇浓度为15% v/v时,Pitt1和Pitt2突变体的总液体消耗量减少;当乙醇浓度为20% v/v时,Pitt3和Pitt4突变体的总液体消耗量减少。我们的结论是,所有靶向的lncRNA都会改变乙醇饮酒行为,lncRNA Pitt1、Pitt3和Pitt4以性别特异性的方式影响乙醇消耗。要阐明这些影响的生物学机制,还需要进一步的研究。这些发现丰富了非编码 RNA 与 AUD 有关的文献,并表明 lncRNA 在该疾病中也起着重要的调控作用。
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Hippocampal ceRNA networks from chronic intermittent ethanol vapor-exposed male mice and functional analysis of top-ranked lncRNA genes for ethanol drinking phenotypes.

The molecular mechanisms regulating the development and progression of alcohol use disorder (AUD) are largely unknown. While noncoding RNAs have previously been implicated as playing key roles in AUD, long-noncoding RNA (lncRNA) remains understudied in relation to AUD. In this study, we first identified ethanol-responsive lncRNAs in the mouse hippocampus that are transcriptional network hub genes. Microarray analysis of lncRNA, miRNA, circular RNA, and protein coding gene expression in the hippocampus from chronic intermittent ethanol vapor- or air- (control) exposed mice was used to identify ethanol-responsive competing endogenous RNA (ceRNA) networks. Highly interconnected lncRNAs (genes that had the strongest overall correlation to all other dysregulated genes identified) were ranked. The top four lncRNAs were novel, previously uncharacterized genes named Gm42575, 4930413E15Rik, Gm15767, and Gm33447, hereafter referred to as Pitt1, Pitt2, Pitt3, and Pitt4, respectively. We subsequently tested the hypothesis that CRISPR/Cas9 mutagenesis of the putative promoter and first exon of these lncRNAs in C57BL/6J mice would alter ethanol drinking behavior. The Drinking in the Dark (DID) assay was used to examine binge-like drinking behavior, and the Every-Other-Day Two-Bottle Choice (EOD-2BC) assay was used to examine intermittent ethanol consumption and preference. No significant differences between control and mutant mice were observed in the DID assay. Female-specific reductions in ethanol consumption were observed in the EOD-2BC assay for Pitt1, Pitt3, and Pitt4 mutant mice compared to controls. Male-specific alterations in ethanol preference were observed for Pitt1 and Pitt2. Female-specific increases in ethanol preference were observed for Pitt3 and Pitt4. Total fluid consumption was reduced in Pitt1 and Pitt2 mutants at 15% v/v ethanol and in Pitt3 and Pitt4 at 20% v/v ethanol in females only. We conclude that all lncRNAs targeted altered ethanol drinking behavior, and that lncRNAs Pitt1, Pitt3, and Pitt4 influenced ethanol consumption in a sex-specific manner. Further research is necessary to elucidate the biological mechanisms for these effects. These findings add to the literature implicating noncoding RNAs in AUD and suggest lncRNAs also play an important regulatory role in the disease.

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