Impact of acute binge-like ethanol exposure during the third-trimester equivalent on subicular interneurons in mice.

IF 2.6 3区医学 Q2 PSYCHOLOGY, CLINICAL

American Journal of Drug and Alcohol Abuse Pub Date : 2025-07-30 DOI:10.1080/00952990.2025.2529503

Katalina M Lopez, Rafael Mancero-Montalvo, Andrea Iturralde-Carrillo, Adeline Feng, Tori Shaver, Hyemin Choi, Nikita Jaiswal, Javier Kelly-Roman, Pooja A Bhakta, G Jill Chavez, C Fernando Valenzuela

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Abstract

Background: In animal models, third-trimester-equivalent acute alcohol exposure (TTAAE) leads to cell death in the subiculum, a hippocampal region critical for long-term memory. Proximal and distal regions of the dorsal subiculum have projections that contribute to different aspects of cognitive processing. GABAergic interneurons regulate excitatory pyramidal neurons in the subiculum, but the long-term effects of TTAAE on these interneurons remain unclear.Objective: To test the hypothesis that TTAAE triggers apoptotic pathways in dorsal subiculum interneurons, leading to a persistent reduction in their numbers and alterations in their functional properties during adolescence.Methods: Postnatal day (P) 7 vesicular GABA transporter (VGAT)-Venus mice were injected (2 × 2.5 mg/kg; subcutaneously, 2 hr apart). Cleaved caspase-3 expression was quantified 8 hr after the last injection. Adolescent neuronal and interneuronal densities were quantified using an anti-NeuN marker and Venus fluorescence. Whole-cell patch-clamp recordings were performed from interneurons and pyramidal neurons.Results: TTAAE activated apoptotic pathways in dorsal subicular interneurons in both regions (proximal, p = .005, g = -1.1; distal, p = .003, g = -1.1). Adolescent neuronal density was significantly decreased in exposed males' distal dorsal subiculum (p < .0001, g = -0.8). Ethanol exposure decreased instantaneous frequency evoked by 250-400 pA current injection in fast-spiking GABAergic interneurons only in female mice (250: p = .019, g = -1.08; 300-450: p = .038, g = -1.06 to- 1.18) but did not significantly affect spontaneous inhibitory postsynaptic currents (sIPSCs) evoked by interneuronal GABA release onto pyramidal neurons.Conclusion: TTAAE activates apoptotic pathways in subicular interneurons, leading to long-term, sex-specific changes, reducing male neuron density and altering female interneuron function. These effects may underlie memory deficits demonstrated in mice with TTAAE.

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妊娠晚期急性酗酒样乙醇暴露对小鼠丘下中间神经元的影响。

背景：在动物模型中，妊娠晚期等效急性酒精暴露（TTAAE）可导致对长期记忆至关重要的海马区域——枕下的细胞死亡。背下带的近端和远端区域具有促进认知加工不同方面的投射。gaba能中间神经元调节丘下兴奋性锥体神经元，但TTAAE对这些中间神经元的长期影响尚不清楚。目的：验证TTAAE触发背托下中间神经元凋亡通路，导致其数量持续减少和青春期功能特性改变的假设。方法：给出生日(P) 7囊状GABA转运蛋白(VGAT)-Venus小鼠注射(2 × 2.5 mg/kg；皮下注射，间隔2小时)。最后一次注射后8小时测定裂解caspase-3的表达。用抗neun标记物和金星荧光定量测定青少年神经元和神经元间密度。对中间神经元和锥体神经元进行全细胞膜片钳记录。结果：TTAAE激活了两个区域背侧丘下中间神经元的凋亡通路(近端，p =；005, g = -1.1；远端，p =。003, g = -1.1)。暴露的雄性远侧背托下的青少年神经元密度显著降低(p p =。019, g = -1.08；300-450: p =。038, g = -1.06至- 1.18)，但对神经元间释放GABA到锥体神经元引起的自发抑制性突触后电流（sippc）没有显著影响。结论：TTAAE激活丘下中间神经元的凋亡通路，导致长期的、性别特异性的变化，降低雄性神经元密度，改变雌性中间神经元功能。这些影响可能是TTAAE小鼠记忆缺陷的基础。

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来源期刊

American Journal of Drug and Alcohol Abuse SUBSTANCE ABUSE-

CiteScore

4.70

自引率

3.70%

发文量

期刊介绍： The American Journal of Drug and Alcohol Abuse (AJDAA) is an international journal published six times per year and provides an important and stimulating venue for the exchange of ideas between the researchers working in diverse areas, including public policy, epidemiology, neurobiology, and the treatment of addictive disorders. AJDAA includes a wide range of translational research, covering preclinical and clinical aspects of the field. AJDAA covers these topics with focused data presentations and authoritative reviews of timely developments in our field. Manuscripts exploring addictions other than substance use disorders are encouraged. Reviews and Perspectives of emerging fields are given priority consideration. Areas of particular interest include: public health policy; novel research methodologies; human and animal pharmacology; human translational studies, including neuroimaging; pharmacological and behavioral treatments; new modalities of care; molecular and family genetic studies; medicinal use of substances traditionally considered substances of abuse.