Withdrawal from chronic alcohol impairs the serotonin-mediated modulation of GABAergic transmission in the infralimbic cortex in male rats

IF 5.1 2区医学 Q1 NEUROSCIENCES

Neurobiology of Disease Pub Date : 2024-07-10 DOI:10.1016/j.nbd.2024.106590

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引用次数: 0

Abstract

The infralimbic cortex (IL) is part of the medial prefrontal cortex (mPFC), exerting top-down control over structures that are critically involved in the development of alcohol use disorder (AUD). Activity of the IL is tightly controlled by γ-aminobutyric acid (GABA) transmission, which is susceptible to chronic alcohol exposure and withdrawal. This inhibitory control is regulated by various neuromodulators, including 5-hydroxytryptamine (5-HT; serotonin). We used chronic intermittent ethanol vapor inhalation exposure, a model of AUD, in male Sprague-Dawley rats to induce alcohol dependence (Dep) followed by protracted withdrawal (WD; 2 weeks) and performed ex vivo electrophysiology using whole-cell patch clamp to study GABAergic transmission in layer V of IL pyramidal neurons. We found that WD increased frequencies of spontaneous inhibitory postsynaptic currents (sIPSCs), whereas miniature IPSCs (mIPSCs; recorded in the presence of tetrodotoxin) were unaffected by either Dep or WD. The application of 5-HT (50 μM) increased sIPSC frequencies and amplitudes in naive and Dep rats but reduced sIPSC frequencies in WD rats. Additionally, 5-HT_2A receptor antagonist M100907 and 5-HT_2C receptor antagonist SB242084 reduced basal GABA release in all groups to a similar extent. The blockage of either 5-HT_2A or 5-HT_2C receptors in WD rats restored the impaired response to 5-HT, which then resembled responses in naive rats. Our findings expand our understanding of synaptic inhibition in the IL in AUD, indicating that antagonism of 5-HT_2A and 5-HT_2C receptors may restore GABAergic control over IL pyramidal neurons.

Significance statement

Impairment in the serotonergic modulation of GABAergic inhibition in the medial prefrontal cortex contributes to alcohol use disorder (AUD). We used a well-established rat model of AUD and ex vivo whole-cell patch-clamp electrophysiology to characterize the serotonin modulation of GABAergic transmission in layer V infralimbic (IL) pyramidal neurons in ethanol-naive, ethanol-dependent (Dep), and ethanol-withdrawn (WD) male rats. We found increased basal inhibition following WD from chronic alcohol and altered serotonin modulation. Exogenous serotonin enhanced GABAergic transmission in naive and Dep rats but reduced it in WD rats. 5-HT_2A and 5-HT_2C receptor blockage in WD rats restored the typical serotonin-mediated enhancement of GABAergic inhibition. Our findings expand our understanding of synaptic inhibition in the infralimbic neurons in AUD.

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长期戒酒会损害雄性大鼠下边缘皮层中血清素介导的 GABA 能传导调节。

下边缘皮层（IL）是内侧前额叶皮层（mPFC）的一部分，对与酒精使用障碍（AUD）的发展密切相关的结构发挥自上而下的控制作用。IL的活动受到γ-氨基丁酸（GABA）传递的严格控制，而γ-氨基丁酸传递易受慢性酒精暴露和戒断的影响。这种抑制性控制受各种神经调节剂的调节，包括 5-羟色胺（5-HT；5-羟色胺）。我们用雄性 Sprague-Dawley 大鼠慢性间歇性吸入乙醇蒸汽（AUD 的一种模型）来诱导酒精依赖（Dep），然后进行长期戒断（WD；2 周），并使用全细胞膜片钳进行体外电生理学研究 IL 锥体神经元 V 层的 GABA 能传导。我们发现，WD 增加了自发抑制性突触后电流（sIPSCs）的频率，而微型 IPSCs（mIPSCs；在河豚毒素存在下记录）则不受 Dep 或 WD 的影响。施用 5-羟色胺（50 μM）会增加天真大鼠和去势大鼠的 sIPSC 频率和振幅，但会降低去势大鼠的 sIPSC 频率。此外，5-HT2A 受体拮抗剂 M100907 和 5-HT2C 受体拮抗剂 SB242084 在类似程度上减少了所有组的基础 GABA 释放。在WD大鼠体内阻断5-HT2A或5-HT2C受体可恢复受损的对5-HT的反应，这种反应随后与幼稚大鼠的反应相似。我们的研究结果拓展了我们对 AUD IL 中突触抑制的理解，表明拮抗 5-HT2A 和 5-HT2C 受体可能会恢复 GABA 能对 IL 锥体神经元的控制。意义声明：5-羟色胺能对内侧前额叶皮层 GABA 能抑制的调节功能受损是导致酒精使用障碍（AUD）的原因之一。我们使用一种成熟的AUD大鼠模型和体外全细胞贴片钳电生理学方法，研究了血清素对乙醇免疫、乙醇依赖（Dep）和乙醇戒断（WD）雄性大鼠第五层下边缘（IL）锥体神经元GABA能传导的调节。我们发现，在长期戒酒后，基础抑制作用增强，血清素的调节作用也发生了改变。外源性血清素可增强天真大鼠和去势大鼠的 GABA 能传导，但会降低去势大鼠的 GABA 能传导。在WD大鼠体内阻断5-HT2A和5-HT2C受体可恢复典型的血清素介导的GABA能抑制增强。我们的研究结果拓展了我们对 AUD 下边缘神经元突触抑制的理解。

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来源期刊

Neurobiology of Disease 医学-神经科学

CiteScore

11.20

自引率

3.30%

发文量

270

审稿时长

76 days

期刊介绍： Neurobiology of Disease is a major international journal at the interface between basic and clinical neuroscience. The journal provides a forum for the publication of top quality research papers on: molecular and cellular definitions of disease mechanisms, the neural systems and underpinning behavioral disorders, the genetics of inherited neurological and psychiatric diseases, nervous system aging, and findings relevant to the development of new therapies.