胆碱能药物对兔视网膜神经节细胞感受野特性的影响。
Effects of cholinergic drugs on receptive field properties of rabbit retinal ganglion cells.
作者信息
Ariel M, Daw N W
出版信息
J Physiol. 1982 Mar;324:135-60. doi: 10.1113/jphysiol.1982.sp014104.
Abstract
- Retinal ganglion cells were recorded extracellularly from the rabbit's eye in situ to study the effects of cholinergic drugs on receptive field properties. Physostigmine, an acetylcholinesterase inhibitor, and nicotine increased the spontaneous activity of nearly all retinal ganglion cell types. The effectiveness of physostigmine was roughly correlated with the neurone's inherent level of spontaneous activity. Brisk cells, having high rates of spontaneous firing, showed large increases in their maintained discharge, whereas sluggish cells, with few or no spontaneous spikes, showed small and sometimes transient increases in spontaneous activity during physostigmine.2. The sensitivity of ganglion cells to spots of optimal size and position did not change substantially during the infusion of physostigmine. However, the responsiveness to light (number of spikes per stimulus above the spontaneous level) increased. This effect occurred with sluggish and more complex cells, rarely with brisk cells.3. Another effect of physostigmine on sluggish and more complex cells was to make these cells ;on-off'. The additional response to the inappropriate change in contrast had a long latency and lacked an initial transient burst.4. Complex receptive field properties such as orientation sensitivity, radial grating inhibition, speed tuning and size specificity were also examined. These inhibitory properties were still present during infusion of physostigmine and, in most cases, the trigger feature of each cell type remained.5. These results are consistent with pharmacological results on ACh release from the retina. There appear to be two types of release of ACh, having their most powerful influences on separate classes of cells. One release (transient), occurs at light onset and offset and acts primarily on sluggish and more complex ganglion cells; the other release (tonic) is not light-modulated and acts primarily on brisk cells. A wiring diagram for the ACh cells is suggested.
摘要
在原位兔眼中对视网膜神经节细胞进行细胞外记录,以研究胆碱能药物对感受野特性的影响。乙酰胆碱酯酶抑制剂毒扁豆碱和尼古丁增加了几乎所有视网膜神经节细胞类型的自发活动。毒扁豆碱的有效性大致与神经元的固有自发活动水平相关。自发放电频率高的活跃细胞在持续放电中显示出大幅增加,而自发放电很少或没有自发放电尖峰的迟钝细胞在使用毒扁豆碱期间自发活动显示出小幅度增加,有时是短暂增加。
在注入毒扁豆碱期间,神经节细胞对最佳大小和位置光斑的敏感性没有实质性变化。然而,对光的反应性(每个刺激高于自发水平的尖峰数量)增加。这种效应在迟钝和更复杂的细胞中出现,在活跃细胞中很少出现。
毒扁豆碱对迟钝和更复杂细胞的另一个作用是使这些细胞变为“开 - 关”型。对对比度不适当变化的额外反应具有长潜伏期,并且缺乏初始瞬发爆发。
还检查了复杂的感受野特性,如方向敏感性、径向光栅抑制、速度调谐和大小特异性。在注入毒扁豆碱期间,这些抑制特性仍然存在,并且在大多数情况下,每种细胞类型的触发特征仍然保留。
这些结果与视网膜乙酰胆碱释放的药理学结果一致。似乎有两种类型的乙酰胆碱释放,它们对不同类别的细胞有最强烈的影响。一种释放(瞬态)发生在光开始和结束时,主要作用于迟钝和更复杂的神经节细胞;另一种释放(持续性)不受光调节,主要作用于活跃细胞。提出了乙酰胆碱能细胞的接线图。
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