幼体虎螈视网膜中向水平细胞的突触传递。
Synaptic transmission to the horizontal cells in the retina of the larval tiger salamander.
作者信息
Marshall L M, Werblin F S
出版信息
J Physiol. 1978 Jun;279:321-46. doi: 10.1113/jphysiol.1978.sp012347.
Abstract
- The receptive field diameter for most horizontal cells far exceeds the lateral spread of processes for any cell. Therefore horizontal cells probably receive synaptic input from neighbours as well as from the photoreceptors. The electrical effects of these two synaptic inputs were studied. 2. We have characterized the electrical properties of the horizontal cell inputs by determining the current-voltage curves in dark and light. These curves were compared with those obtained in the presence of Co2+ or Mg2 was nearly identical to the curve in the light. 4. The putative transmitter substances glutamate, aspartate and GABA depolarized the cells by increasing conductance. Current-voltage curves measured in the presence of these substances intersected the dark and light curves at +50 mV, the same level at which the dark and light curves intersect. 5. The light response of cells uith broad receptive fields, between 1.0 and 2.0 mm, showed little or no change in conductance associated with the light response. The input resistance was near 20 Momega, and the current-voltage curves intersected at an extrapolated potential level near 200 mV. 6. In the presence of ACh, electrical properties of the broad field cells reverted to those of the narrow field cells: the receptive field was reduced to 0.5 mm, the imput resistance increased, and the current-voltage curves intersected near +50 mV. Thus ACh appeared to interrupt synaptic input from neighbouring horizontal cells. 7. The results confirm the suggestion that horizontal cells receive a tonic excitatory input from the photoreceptors which is decreased by light. They show that horizontal cells receive an additional input from their neighbours, not associated with a measurable conductance change. The input from neighbours is selectively interrupted by ACh, but the nature of this synapse and of the cholinergic action is not known.
摘要
- 大多数水平细胞的感受野直径远远超过任何细胞突起的横向伸展范围。因此,水平细胞可能不仅从光感受器接收突触输入,还从相邻细胞接收突触输入。我们研究了这两种突触输入的电效应。2. 我们通过测定暗适应和明适应时的电流-电压曲线,对水平细胞输入的电特性进行了表征。将这些曲线与在存在钴离子(Co2+)或镁离子(Mg2+)时获得的曲线进行了比较。3. 在黑暗中记录的电流-电压曲线与在存在Co2+或Mg2+时获得的曲线几乎与明适应时的曲线相同。4. 假定的递质谷氨酸、天冬氨酸和γ-氨基丁酸(GABA)通过增加电导使细胞去极化。在存在这些物质时测量的电流-电压曲线在+50毫伏处与暗适应和明适应曲线相交,暗适应和明适应曲线也是在这个水平相交。5. 感受野在1.0至2.0毫米之间的具有宽感受野的细胞的光反应,与光反应相关的电导几乎没有变化。输入电阻接近20兆欧,电流-电压曲线在外推电位水平接近200毫伏处相交。6. 在存在乙酰胆碱(ACh)的情况下,宽视野细胞的电特性恢复为窄视野细胞的电特性:感受野缩小到0.5毫米,输入电阻增加,电流-电压曲线在+50毫伏附近相交。因此,ACh似乎中断了来自相邻水平细胞的突触输入。7. 这些结果证实了以下观点:水平细胞从光感受器接收紧张性兴奋性输入,该输入在光照时减少。结果表明,水平细胞从其相邻细胞接收额外输入,且该输入与可测量的电导变化无关。来自相邻细胞的输入被ACh选择性中断,但这种突触的性质以及胆碱能作用的性质尚不清楚。
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