小胶质细胞引发的大鼠内侧前额皮质锥体神经元的低兴奋性可塑性

Yuki Yamawaki , Yayoi Wada , Sae Matsui , Gen Ohtsuki
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引用次数: 4

摘要

脂多糖(LPS)是革兰氏阴性菌的外部成分,通过小胶质细胞诱导先天免疫的强烈反应,从而引发神经元内在兴奋性的调节。然而,神经生理特性的调节在神经元之间是否相似尚不清楚。本研究发现,在LPS作用下,幼鼠内侧前额叶皮层(mPFC)第5层(L5)锥体神经元表现出低兴奋性。我们在体外全细胞膜片钳下长时间记录L5锥体神经元的放电频率,我们发现LPS使L5锥体神经元的放电频率降低。L2/3锥体神经元对lps暴露的固有兴奋性降低,但在快速尖峰中间神经元中没有发现。免疫激活引起的兴奋性降低是由于锥体神经元中小电导Ca2+激活的K+通道(SK通道)和小胶质细胞释放的肿瘤坏死因子(TNF)-α的活性增加。我们发现L5锥体神经元放电频率的降低依赖于神经元内Ca2+和PP2B。这些结果表明,在mPFC急性炎症期间,通过Ca2+依赖性磷酸酶的SK通道上调引起锥体神经元的低兴奋性。这种机制与小脑浦肯野细胞相反,在浦肯野细胞中,免疫激活通过下调SK通道诱导高兴奋性。此外,自发性抑制性突触传递频率的降低反映了网络活性的降低。因此,我们的研究结果表明,小胶质细胞内在可塑性的方向性并不一致,取决于大脑区域和细胞类型。
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Microglia-triggered hypoexcitability plasticity of pyramidal neurons in the rat medial prefrontal cortex

Lipopolysaccharide (LPS), an outer component of Gram-negative bacteria, induces a strong response of innate immunity via microglia, which triggers a modulation of the intrinsic excitability of neurons. However, it is unclear whether the modulation of neurophysiological properties is similar among neurons. Here, we found the hypoexcitability of layer 5 (L5) pyramidal neurons after exposure to LPS in the medial prefrontal cortex (mPFC) of juvenile rats. We recorded the firing frequency of L5 pyramidal neurons long-lastingly under in vitro whole-cell patch-clamp, and we found a reduction of the firing frequency after applying LPS. A decrease in the intrinsic excitability against LPS-exposure was also found in L2/3 pyramidal neurons but not in fast-spiking interneurons. The decrease in the excitability by immune-activation was underlain by increased activity of small-conductance Ca2+-activated K+ channels (SK channels) in the pyramidal neurons and tumor necrosis factor (TNF)-α released from microglia. We revealed that the reduction of the firing frequency of L5 pyramidal neurons was dependent on intraneuronal Ca2+ and PP2B. These results suggest the hypoexcitability of pyramidal neurons caused by the upregulation of SK channels via Ca2+-dependent phosphatase during acute inflammation in the mPFC. Such a mechanism is in contrast to that of cerebellar Purkinje cells, in which immune activation induces hyperexcitability via downregulation of SK channels. Further, a decrease in the frequency of spontaneous inhibitory synaptic transmission reflected network hypoactivity. Therefore, our results suggest that the directionality of the intrinsic plasticity by microglia is not consistent, depending on the brain region and the cell type.

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