周围光照对泥螈视网膜神经节细胞兴奋性和抑制性输入的推拉效应。
Push-pull effect of surround illumination on excitatory and inhibitory inputs to mudpuppy retinal ganglion cells.
作者信息
Belgum J H, Dvorak D R, McReynolds J S, Miyachi E
机构信息
Department of Physiology, University of Michigan, Ann Arbor 48109.
出版信息
J Physiol. 1987 Jul;388:233-43. doi: 10.1113/jphysiol.1987.sp016612.
Abstract
- Changes in membrane potential and conductance were measured in on-centre and off-centre ganglion cells during the responses to illumination of different portions of the receptive field. 2. In on-centre ganglion cells the sustained depolarizing response to steady illumination of the receptive field centre was associated with a net increase in conductance. In the presence of centre illumination, stimulation of the surround with an annulus of light caused a hyperpolarization and a net decrease in conductance, and the reversal potential of the light-evoked response was shifted in a negative direction. In the absence of centre illumination the same annular stimulus caused a hyperpolarization and a net increase in conductance. 3. In off-centre ganglion cells the sustained hyperpolarizing response to centre illumination was associated with a net increase in conductance. In the presence of centre illumination, stimulation of the surround with an annulus caused a depolarization and a net decrease in conductance, and the reversal potential of the light-evoked response was shifted in a positive direction. In the absence of centre illumination the same annulus caused a depolarization and a net increase in conductance. 4. The results indicate that illumination of the receptive field surround can affect both the excitatory and inhibitory sustained inputs to a given ganglion cell in a 'push-pull' manner, by decreasing the synaptic input that was increased by centre illumination and increasing the synaptic input of opposite sign. The relative effect of a given surround illumination on these two inputs, and hence the sign and magnitude of the net conductance change, varied with the amount of centre illumination.
摘要
- 在对感受野不同部分进行光照刺激时,测量了中心型和周边型神经节细胞的膜电位和电导变化。2. 在中心型神经节细胞中,对感受野中心持续光照的去极化反应与电导的净增加相关。在中心有光照的情况下,用环形光刺激周边会导致超极化和电导净减少,且光诱发反应的反转电位向负方向移动。在没有中心光照时,相同的环形刺激会导致超极化和电导净增加。3. 在周边型神经节细胞中,对中心光照的持续超极化反应与电导净增加相关。在中心有光照的情况下,用环形刺激周边会导致去极化和电导净减少,且光诱发反应的反转电位向正方向移动。在没有中心光照时,相同的环形刺激会导致去极化和电导净增加。4. 结果表明,感受野周边的光照可以通过减少中心光照增加的突触输入并增加相反符号的突触输入,以“推挽”方式影响给定神经节细胞的兴奋性和抑制性持续输入。给定周边光照对这两种输入的相对影响,以及因此净电导变化的符号和幅度,随中心光照量而变化。
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