Mutation of novel ethanol-responsive lncRNA Gm41261 impacts ethanol-related behavioral responses in mice

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS

ACS Applied Bio Materials Pub Date : 2024-02-19 DOI:10.1111/gbb.12886

S. L. Plasil, S. P. Farris, Y. Blednov, R. D. Mayfield, R. A. Mangieri, U. J. Nwokeji, H. C. Aziz, P. S. Lambeth, R. A. Harris, G. E. Homanics

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Abstract

Chronic alcohol exposure results in widespread dysregulation of gene expression that contributes to the pathogenesis of Alcohol Use Disorder (AUD). Long noncoding RNAs are key regulators of the transcriptome that we hypothesize coordinate alcohol-induced transcriptome dysregulation and contribute to AUD. Based on RNA-Sequencing data of human prefrontal cortex, basolateral amygdala and nucleus accumbens of AUD versus non-AUD brain, the human LINC01265 and its predicted murine homolog Gm41261 (i.e., TX2) were selected for functional interrogation. We tested the hypothesis that TX2 contributes to ethanol drinking and behavioral responses to ethanol. CRISPR/Cas9 mutagenesis was used to create a TX2 mutant mouse line in which 306 base-pairs were deleted from the locus. RNA analysis revealed that an abnormal TX2 transcript was produced at an unchanged level in mutant animals. Behaviorally, mutant mice had reduced ethanol, gaboxadol and zolpidem-induced loss of the righting response and reduced tolerance to ethanol in both sexes. In addition, a male-specific reduction in two-bottle choice every-other-day ethanol drinking was observed. Male TX2 mutants exhibited evidence of enhanced GABA release and altered GABA_A receptor subunit composition in neurons of the nucleus accumbens shell. In C57BL6/J mice, TX2 within the cortex was cytoplasmic and largely present in Rbfox3+ neurons and IBA1+ microglia, but not in Olig2+ oligodendrocytes or in the majority of GFAP+ astrocytes. These data support the hypothesis that TX2 mutagenesis and dysregulation impacts ethanol drinking behavior and ethanol-induced behavioral responses in mice, likely through alterations in the GABAergic system.

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新型乙醇反应性 lncRNA Gm41261 的突变会影响小鼠与乙醇相关的行为反应。

慢性酒精暴露会导致广泛的基因表达失调，这也是酒精使用障碍（AUD）的发病机理之一。长非编码 RNA 是转录组的关键调控因子，我们推测它们协调酒精诱导的转录组失调并导致 AUD。根据人类前额叶皮层、杏仁核基底外侧和伏隔核的 AUD 与非 AUD 大脑的 RNA 序列数据，我们选择了人类 LINC01265 及其预测的小鼠同源物 Gm41261（即 TX2）进行功能检测。我们测试了 TX2 有助于乙醇饮酒和对乙醇的行为反应的假设。我们使用 CRISPR/Cas9 诱变技术创建了一个 TX2 突变小鼠系，其中从基因座上删除了 306 个碱基对。RNA分析表明，突变动物体内产生的TX2转录本异常，且水平不变。在行为上，突变体小鼠的乙醇、加博沙多和唑吡坦诱导的右旋反应丧失减少，雌雄小鼠对乙醇的耐受性降低。此外，还观察到雄性特异性减少了每隔一天喝两瓶乙醇的选择。雄性TX2突变体表现出GABA释放增强的证据，并改变了伏隔核壳神经元中GABAA受体亚单位的组成。在 C57BL6/J 小鼠中，皮层内的 TX2 呈细胞质状，主要存在于 Rbfox3+ 神经元和 IBA1+ 小胶质细胞中，但不存在于 Olig2+ 少突胶质细胞或大多数 GFAP+ 星形胶质细胞中。这些数据支持这样的假设，即 TX2 诱变和失调会影响小鼠的乙醇饮酒行为和乙醇诱导的行为反应，这可能是通过改变 GABAergic 系统实现的。

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来源期刊

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464