抗抑郁药通过 5-羟色胺转运体非依赖性抑制 L 型钙通道挽救应激诱导的突触可塑性障碍。

Antidepressants Rescue Stress-Induced Disruption of Synaptic Plasticity via Serotonin Transporter-Independent Inhibition of L-Type Calcium Channels.

机构信息

Department of Psychiatry, University Medical Center Freiburg, University of Freiburg, Freiburg, Germany.

出版信息

Biol Psychiatry. 2018 Jul 1;84(1):55-64. doi: 10.1016/j.biopsych.2017.10.008. Epub 2017 Oct 19.

DOI:10.1016/j.biopsych.2017.10.008

PMID:29174591

Abstract

BACKGROUND

Long-term synaptic plasticity is a basic ability of the brain to dynamically adapt to external stimuli and regulate synaptic strength and ultimately network function. It is dysregulated by behavioral stress in animal models of depression and in humans with major depressive disorder. Antidepressants have been shown to restore disrupted synaptic plasticity in both animal models and humans; however, the underlying mechanism is unclear.

METHODS

We examined modulation of synaptic plasticity by selective serotonin reuptake inhibitors (SSRIs) in hippocampal brain slices from wild-type rats and serotonin transporter (SERT) knockout mice. Recombinant voltage-gated calcium (Ca) channels in heterologous expression systems were used to determine the modulation of Ca channels by SSRIs. We tested the behavioral effects of SSRIs in the chronic behavioral despair model of depression both in the presence and in the absence of SERT.

RESULTS

SSRIs selectively inhibited hippocampal long-term depression. The inhibition of long-term depression by SSRIs was mediated by a direct block of voltage-activated L-type Ca channels and was independent of SERT. Furthermore, SSRIs protected both wild-type and SERT knockout mice from behavioral despair induced by chronic stress. Finally, long-term depression was facilitated in animals subjected to the behavioral despair model, which was prevented by SSRI treatment.

CONCLUSIONS

These results showed that antidepressants protected synaptic plasticity and neuronal circuitry from the effects of stress via a modulation of Ca channels and synaptic plasticity independent of SERT. Thus, L-type Ca channels might constitute an important signaling hub for stress response and for pathophysiology and treatment of depression.

摘要

背景

长期突触可塑性是大脑对外界刺激动态适应和调节突触强度进而调节网络功能的基本能力。在抑郁症动物模型和重度抑郁症患者中，行为应激会使其失调。抗抑郁药已被证明可恢复动物模型和人类中断的突触可塑性；然而，其潜在机制尚不清楚。

方法

我们检查了选择性 5-羟色胺再摄取抑制剂（SSRIs）对野生型大鼠和 5-羟色胺转运体（SERT）敲除小鼠海马脑片突触可塑性的调节作用。在异源表达系统中使用重组电压门控钙（Ca）通道来确定 SSRIs 对 Ca 通道的调节作用。我们在存在和不存在 SERT 的情况下，在慢性行为绝望抑郁模型中测试了 SSRIs 的行为效应。

结果

SSRIs 选择性抑制海马长时程抑郁。SSRIs 对长时程抑郁的抑制是通过直接阻断电压激活的 L 型 Ca 通道介导的，与 SERT 无关。此外，SSRIs 可保护野生型和 SERT 敲除小鼠免受慢性应激引起的行为绝望。最后，在经历行为绝望模型的动物中，长时程抑郁得到促进，而 SSRIs 治疗则阻止了这种促进。

结论

这些结果表明，抗抑郁药通过调节 Ca 通道和独立于 SERT 的突触可塑性来保护突触可塑性和神经元回路免受应激的影响。因此，L 型 Ca 通道可能构成应激反应以及抑郁症的病理生理学和治疗的重要信号枢纽。

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抗抑郁药通过 5-羟色胺转运体非依赖性抑制 L 型钙通道挽救应激诱导的突触可塑性障碍。

Antidepressants Rescue Stress-Induced Disruption of Synaptic Plasticity via Serotonin Transporter-Independent Inhibition of L-Type Calcium Channels.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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