Protein kinase C epsilon-mediated modulation of T-type calcium channels underlies alcohol withdrawal hyperexcitability in the midline thalamus

IF 3 Q2 SUBSTANCE ABUSE Alcohol (Hanover, York County, Pa.) Pub Date : 2024-05-13 DOI:10.1111/acer.15342
Hong Qu Shan, Thuy Smith, David C. Klorig, Dwayne W. Godwin
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Abstract

Background

Millions of people struggle with alcohol use disorder (AUD). Abrupt abstinence after a period of chronic alcohol use can precipitate the alcohol withdrawal syndrome (AWS), which includes hyperexcitability and, potentially, seizures. We have shown that T-type Ca2+ channels are novel, sensitive targets of alcohol, an effect that is dependent upon protein kinase C (PKC). The purpose of this study was to (1) understand midline thalamic neuronal hyperexcitability during alcohol withdrawal and its dependence on PKC; (2) characterize T channel functional changes using both current clamp and voltage clamp methods; and (3) determine which PKC isoform may be responsible for alcohol withdrawal (WD) effects.

Methods

Whole-cell patch clamp recordings were performed in midline thalamic neurons in brain slices prepared from C57bl/6 mice that underwent chronic intermittent alcohol exposure in a standard vapor chamber model. The recordings were compared to those from air-exposed controls. T-channel inactivation curves and burst responses were acquired through voltage-clamp and current-clamp recordings, respectively.

Results

Whole-cell voltage clamp recordings of native T-type current exhibited a depolarizing shift in the voltage-dependency of inactivation during alcohol withdrawal compared to air-exposed controls. A PKCε translocation inhibitor peptide mitigated this change. Current clamp recordings demonstrated more spikes per burst during alcohol withdrawal. Consistent with voltage clamp findings, the PKCɛ translocation inhibitor peptide reduced the number of spikes per burst after WD.

Conclusion

We found that alcohol WD produces T channel-mediated hyperexcitability in the midline thalamus, produced in part by a shift in the inactivation curve consistent with greater availability of T current. WD effects on T current inactivation were reduced to control levels by blocking PKCε translocation. Our results demonstrate that PKCε translocation plays an important role in the regulation of alcohol withdrawal-induced hyperexcitability in midline thalamic circuitry.

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蛋白激酶Cε介导的T型钙通道调节是丘脑中线酒精戒断过度兴奋的基础。
背景:数百万人饱受酒精使用障碍(AUD)的折磨。长期饮酒后突然戒酒会诱发酒精戒断综合征(AWS),包括过度兴奋和潜在的癫痫发作。我们已经证明,T 型 Ca2+ 通道是酒精的新型敏感靶点,这种效应依赖于蛋白激酶 C(PKC)。本研究的目的是:(1)了解酒精戒断期间丘脑中线神经元的过度兴奋性及其对 PKC 的依赖性;(2)使用电流钳和电压钳方法描述 T 通道功能变化的特征;(3)确定哪种 PKC 同工酶可能对酒精戒断(WD)效应负责:方法:在标准蒸气室模型中,对慢性间歇性酒精暴露的 C57bl/6 小鼠脑切片中丘脑中线神经元进行全细胞膜片钳记录。记录结果与暴露于空气的对照组进行了比较。分别通过电压钳和电流钳记录获得了 T 沟道失活曲线和猝发反应:结果:与暴露于空气的对照组相比,原生T型电流的全细胞电压钳记录显示,酒精戒断期间失活的电压依赖性发生了去极化转变。PKCε转位抑制剂肽减轻了这种变化。电流钳记录显示,在酒精戒断期间,每次猝发的尖峰数更多。与电压钳的结果一致,PKCɛ转位抑制剂肽减少了戒酒后每次爆发的尖峰数量:我们发现,酒精戒断会在丘脑中线产生由 T 沟道介导的过度兴奋,其部分原因是失活曲线的移动与 T 电流的更大可用性相一致。通过阻断 PKCε 的转位,WD 对 T 电流失活的影响降低到了控制水平。我们的研究结果表明,PKCε转位在调节酒精戒断诱导的丘脑中线回路过度兴奋中起着重要作用。
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