非洲爪蟾脊髓网络中控制游泳时甘氨酸释放的胺能调节
Aminergic modulation of glycine release in a spinal network controlling swimming in Xenopus laevis.
作者信息
McDearmid J R, Scrymgeour-Wedderburn J F, Sillar K T
机构信息
Gatty Marine Laboratory, School of Biological & Medical Sciences, University of St Andrews, Fife, UK.
出版信息
J Physiol. 1997 Aug 15;503 ( Pt 1)(Pt 1):111-7. doi: 10.1111/j.1469-7793.1997.111bi.x.
Abstract
- Neuromodulators can effect changes in neural network function by strengthening or weakening synapses between neurons via presynaptic control of transmitter release. We have examined the effects of two biogenic amines on inhibitory connections of a spinal rhythm generator in Xenopus tad poles. 2. Glycinergic inhibitory potentials occurring mid-cycle in motoneurons during swimming activity are reduced by 5-hydroxytryptamine (5-HT; serotonin) and enhanced by noradrenaline (NA). These opposing effects on inhibitory synaptic strength are mediated presynaptically where 5-HT decreases and NA increases the probability of glycine release from inhibitory terminals. 3. The amines also have contrasting effects on swimming: 5-HT increased motor burst durations while NA reduced swimming frequency. Aminergic modulation of glycinergic transmission may thus control fundamental parameters of swimming and force the spinal network to generate opposite extremes of its spectrum of possible outputs.
摘要
- 神经调质可通过对神经递质释放的突触前控制来增强或减弱神经元之间的突触,从而影响神经网络功能。我们研究了两种生物胺对非洲爪蟾蝌蚪脊髓节律发生器抑制性连接的影响。2. 在游泳活动期间,运动神经元周期中期出现的甘氨酸能抑制电位会被5-羟色胺(5-HT;血清素)降低,而被去甲肾上腺素(NA)增强。对抑制性突触强度的这些相反作用是通过突触前介导的,其中5-HT降低而NA增加抑制性终末释放甘氨酸的概率。3. 这些胺类物质对游泳也有相反的作用:5-HT增加运动爆发持续时间,而NA降低游泳频率。因此,甘氨酸能传递的胺能调节可能控制游泳的基本参数,并迫使脊髓网络产生其可能输出频谱的相反极端情况。
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