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首页> 美国卫生研究院文献>Journal of Neurophysiology >Control of Movement: Modulation of spinal motor networks by astrocyte-derived adenosine is dependent on D1-like dopamine receptor signaling
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Control of Movement: Modulation of spinal motor networks by astrocyte-derived adenosine is dependent on D1-like dopamine receptor signaling

机译:运动控制:星形胶质细胞衍生的腺苷对脊髓运动网络的调节取决于D1样多巴胺受体信号传导

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Astrocytes modulate many neuronal networks, including spinal networks responsible for the generation of locomotor behavior. Astrocytic modulation of spinal motor circuits involves release of ATP from astrocytes, hydrolysis of ATP to adenosine, and subsequent activation of neuronal A1 adenosine receptors (A1Rs). The net effect of this pathway is a reduction in the frequency of locomotor-related activity. Recently, it was proposed that A1Rs modulate burst frequency by blocking the D1-like dopamine receptor (D1LR) signaling pathway; however, adenosine also modulates ventral horn circuits by dopamine-independent pathways. Here, we demonstrate that adenosine produced upon astrocytic stimulation modulates locomotor-related activity by counteracting the excitatory effects of D1LR signaling and does not act by previously described dopamine-independent pathways. In spinal cord preparations from postnatal mice, a D1LR agonist, SKF 38393, increased the frequency of locomotor-related bursting induced by 5-hydroxytryptamine and N-methyl-d-aspartate. Bath-applied adenosine reduced burst frequency only in the presence of SKF 38393, as did adenosine produced after activation of protease-activated receptor-1 to stimulate astrocytes. Furthermore, the A1R antagonist 8-cyclopentyl-1,3-dipropylxanthine enhanced burst frequency only in the presence of SKF 38393, indicating that endogenous adenosine produced by astrocytes during network activity also acts by modulating D1LR signaling. Finally, modulation of bursting by adenosine released upon stimulation of astrocytes was blocked by protein kinase inhibitor-(14–22) amide, a protein kinase A (PKA) inhibitor, consistent with A1R-mediated antagonism of the D1LR/adenylyl cyclase/PKA pathway. Together, these findings support a novel, astrocytic mechanism of metamodulation within the mammalian spinal cord, highlighting the complexity of the molecular interactions that specify motor output.>NEW & NOTEWORTHY Astrocytes within the spinal cord produce adenosine during ongoing locomotor-related activity or when experimentally stimulated. Here, we show that adenosine derived from astrocytes acts at A1 receptors to inhibit a pathway by which D1-like receptors enhance the frequency of locomotor-related bursting. These data support a novel form of metamodulation within the mammalian spinal cord, enhancing our understanding of neuron-astrocyte interactions and their importance in shaping network activity.
机译:星形胶质细胞调节许多神经元网络,包括负责运动行为产生的脊髓网络。脊髓运动回路的星形细胞调节涉及星形胶质细胞释放ATP,ATP水解为腺苷以及随后激活神经元A1腺苷受体(A1Rs)。该途径的最终效果是降低了与运动有关的活动的频率。最近,有人提出通过阻断D1样多巴胺受体(D1LR)信号通路来调节A1R的爆发频率。然而,腺苷还通过不依赖多巴胺的途径调节腹角电路。在这里,我们证明了星形胶质细胞刺激产生的腺苷通过抵消D1LR信号的兴奋作用来调节与运动相关的活动,而不是由先前描述的多巴胺非依赖性途径起作用。在产后小鼠的脊髓制剂中,D1LR激动剂SKF 38393增加了由5-羟色胺和N-甲基-d-天冬氨酸诱导的与运动相关的爆发的频率。巴斯应用的腺苷只有在存在SKF 38393的情况下才能降低猝发频率,就像激活蛋白酶激活的受体1刺激星形胶质细胞后产生的腺苷一样。此外,仅在SKF 38393存在的情况下,A1R拮抗剂8-环戊基-1,3-二丙基黄嘌呤提高了猝发频率,这表明星形胶质细胞在网络活动期间产生的内源性腺苷也通过调节D1LR信号传导起作用。最后,蛋白激酶抑制剂-(14-22)酰胺(一种蛋白激酶A(PKA)抑制剂)阻断了星形胶质细胞刺激时释放的腺苷对突触的调节,与A1R介导的对D1LR /腺苷酸环化酶/ PKA途径的拮抗作用相一致。 。在一起,这些发现支持了哺乳动物脊髓内新的星形细胞介导的调节机制,突显了指定运动输出的分子相互作用的复杂性。> NEW&NOTEWORTHY 脊髓内的星形胶质细胞在进行运动时会产生腺苷相关的活动或通过实验刺激。在这里,我们表明,源自星形胶质细胞的腺苷作用于A1受体,以抑制D1样受体增强运动相关性猝发频率的途径。这些数据支持哺乳动物脊髓内一种新型的元调节形式,增强了我们对神经元-星形细胞相互作用及其在形成网络活动中的重要性的理解。

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