Ethanol Alters the Neurexin Landscape in Human Neuroblastoma Cells

IF 2.7 Q2 SUBSTANCE ABUSE

Alcohol (Hanover, York County, Pa.) Pub Date : 2026-04-12 DOI:10.1111/acer.70289

Clara C. Lowe, Kip D. Zimmerman, Rita Cervera-Juanes

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Abstract

Background

Neurexins (NRXNs) are presynaptic adhesion molecules essential for synaptic organization and the regulation of excitatory–inhibitory balance. The molecular diversity of NRXNs arises from alternative promoters and splicing, particularly at splice site 4 (SS4), which dictates ligand binding. Dysregulation of NRXNs has been linked to substance use disorders, but it remains unclear how the expression of NRXN isoforms responds to physiologically relevant amounts of ethanol.

Methods

Human IMR-32 neuroblastoma cells were maintained in an undifferentiated (UnDiff) state or differentiated (Diff) with trans-retinoic acid (tRA) to promote an enrichment in parvalbumin (PV) expression. Cells were exposed to physiologically relevant ethanol concentrations (0, 7, or 35 mM) in vapor chambers. Quantitative polymerase chain reaction (qPCR) quantified mRNA levels of major NRXN transcripts (NRXN1, NRXN2, and NRXN3) and SS4 variants (+SS4, −SS4). Immunocytochemistry (ICC) was used to measure protein expression and overlap with neuroligin2 (NLGN2) and PV.

Results

Differentiation increased basal expression of several NRXN transcripts, including NRXN2α, NRXN2 +SS4, NRXN3α, NRXN3β, and NRXN3 −SS4. In Diff cells, ethanol-induced dose-dependent downregulation of NRXN2α, NRXN3α, NRXN3β, and NRXN3 −SS4 transcripts, while NRXN1 remained stable. In Diff cells, ICC confirmed isoform-specific protein reductions without changes in other markers (Tuj1 and PV). NRXN3β decreased at 7 and 35 mM; and NRXN1 and NRXN2 at 35 mM. Ethanol significantly reduced overall expression of NRXN3β at 7 and 35 mM; and NRXN1 and NRXN2 at 35 mM, along with NRXN3β-NLGN2 spatial overlap and NRXN1, 2, and 3β signal within PV-positive cells, indicating targeted disruption of inhibitory synaptic organization.

Conclusions

Physiologically relevant ethanol exposure alters NRXN expression in an isoform-, splice site-, and differentiation-dependent manner, prominently affecting NRXN3 and the SS4 site. These coordinated transcriptional and proteomic changes suggest that ethanol perturbs NRXN3β-NLGN2 interactions and inhibitory synapse stability, revealing a molecular pathway where alcohol may compromise cortical network excitatory–inhibitory balance.

Abstract Image

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乙醇改变人神经母细胞瘤细胞内的Neurexin景观。

背景：神经素（NRXNs）是突触前粘附分子，对突触组织和兴奋-抑制平衡的调节至关重要。NRXNs的分子多样性源于不同的启动子和剪接，特别是在剪接位点4 (SS4)，它决定了配体的结合。NRXN的失调与物质使用障碍有关，但目前尚不清楚NRXN异构体的表达如何对生理上相关的乙醇量做出反应。方法：将人IMR-32神经母细胞瘤细胞维持在未分化（UnDiff）状态或经反式维甲酸（tRA）分化（Diff）以促进小蛋白（PV）表达的富集。将细胞暴露于与生理相关的乙醇浓度（0、7或35 mM）中。定量聚合酶链反应（qPCR）量化了NRXN主要转录本（NRXN1、NRXN2和NRXN3）和SS4变体（+SS4、-SS4）的mRNA水平。免疫细胞化学（ICC）检测蛋白表达及与NLGN2和PV的重叠。结果：分化增加了几种NRXN转录本的基础表达，包括NRXN2α、NRXN2 +SS4、NRXN3α、NRXN3β和NRXN3 -SS4。在Diff细胞中，乙醇诱导NRXN2α、NRXN3α、NRXN3β和NRXN3 -SS4转录物的剂量依赖性下调，而NRXN1保持稳定。在Diff细胞中，ICC证实了异构体特异性蛋白的减少，而其他标记物（Tuj1和PV）没有变化。NRXN3β在7、35 mM时降低；NRXN1和NRXN2在35 mM。乙醇显著降低NRXN3β在7和35 mM的总表达；NRXN1和NRXN2在35 mM，以及NRXN3β-NLGN2的空间重叠和pv阳性细胞内的NRXN1, 2和3β信号，表明抑制性突触组织的靶向破坏。结论：生理上相关的乙醇暴露以异构体、剪接位点和分化依赖的方式改变NRXN的表达，显著影响NRXN3和SS4位点。这些协调的转录和蛋白质组学变化表明，乙醇扰乱了NRXN3β-NLGN2的相互作用和抑制性突触的稳定性，揭示了酒精可能破坏皮质网络兴奋-抑制平衡的分子途径。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Alcohol (Hanover, York County, Pa.)

CiteScore

5.40

自引率

0.00%

发文量