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首页> 美国卫生研究院文献>The Journal of Neuroscience >Differential effects of serotonin FMRFamide and small cardioactive peptide on multiple distributed processes modulating sensorimotor synaptic transmission in Aplysia
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Differential effects of serotonin FMRFamide and small cardioactive peptide on multiple distributed processes modulating sensorimotor synaptic transmission in Aplysia

机译:血清素FMRF酰胺和小的心脏活性肽对调节海葵中感觉运动突触传递的多个分布式过程的差异作用

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At least two processes contribute to the modulation by 5-HT of the connections between sensory neurons and motor neurons in Aplysia. The first involves broadening of the presynaptic spike through modulation of 5-HT-sensitive K+ channels that leads to elevated levels of intracellular Ca2+ and increased release of transmitter. A second process (or set of processes) apparently accounts for the amount of facilitation not produced by presynaptic spike broadening. This spike duration-independent (SDI) process is particularly prominent in depressed synapses. We used a protocol in which spikes were prebroadened into a range of durations in which further spike broadening by itself has little or no effect on facilitation of the EPSP.5-HT produced pronounced facilitation in depressed synapses under these conditions. Another modulatory agent, small cardioactive peptide (SCPb), also broadened spikes in sensory neurons but did not produce facilitation comparable to that produced by 5-HT. These results indicate that 5-HT activates the SDI process whereas SCPb fails to do the same. A 5 min preexposure to the modulatory peptide FMRFamide inhibited 5-HT-induced activation of the SDI process, whereas a 1 min preexposure did not. Another process(es) that may modulate synaptic efficacy in sensorimotor synapses involves changes in the properties of the motor (follower) neuron, such as input resistance. FMRFamide decreased the input resistance of postsynaptic neurons. This action could contribute to the effects of FMRFamide when administered alone, but it did not appear to be responsible for the inhibitory action of FMRFamide on 5-HT-induced facilitation. Neither 5-HT nor SCPb had a clear effect on input resistance. The actions of these three agents, therefore, seem to be differentially distributed among various pre- and postsynaptic processes involved in the modulation of synaptic transmission.
机译:至少两个过程有助于通过5-HT调节海葵中感觉神经元和运动神经元之间的连接。第一个涉及通过调节5-HT敏感的K +通道来扩大突触前突触,从而导致细胞内Ca2 +水平升高和递质释放增加。第二个过程(或一组过程)显然说明了突触前尖峰加宽未产生的促进作用。这种不依赖尖峰持续时间(SDI)的过程在突触抑制过程中尤为突出。我们使用了一种方案,其中尖峰被预加宽到一定的持续时间范围,其中进一步的尖峰加宽本身对EPSP的促进作用几乎没有或没有影响。5-HT在这些条件下对抑郁突触产生了明显的促进作用。另一种调节剂,小心脏活性肽(SCPb),也使感觉神经元的峰增宽,但不能产生与5-HT相当的促进作用。这些结果表明5-HT激活了SDI过程,而SCPb却没有这样做。暴露于调节肽FMRFamide的5分钟可以抑制5-HT诱导的SDI活化,而暴露1分钟则没有。可能在感觉运动突触中调节突触功效的另一个过程涉及运动(跟随者)神经元特性的变化,例如输入阻力。 FMRFamide降低了突触后神经元的输入阻力。单独给药时,此作用可能有助于FMRFamide的作用,但它似乎并不负责FMRFamide对5-HT诱导的促进作用的抑制作用。 5-HT和SCPb均未对输入电阻产生明显影响。因此,这三种作用剂的作用似乎在突触传递调节所涉及的各种突触前和突触后过程中有差异地分布。

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