泥螈视网膜中光、多巴胺释放与水平细胞耦合之间的关系。
The relationship between light, dopamine release and horizontal cell coupling in the mudpuppy retina.
作者信息
Dong C J, McReynolds J S
机构信息
Department of Physiology, University of Michigan, Ann Arbor 48109-0622.
出版信息
J Physiol. 1991;440:291-309. doi: 10.1113/jphysiol.1991.sp018709.
Abstract
- The effect of different experimental conditions on electrical coupling between horizontal cells in the mudpuppy retina was studied by comparing the changes in responses to illumination of the central and peripheral portions of the receptive field, using centred spot and annulus stimuli. An increase in the amplitude of the response to a centred spot stimulus and a decrease in the amplitude of the response to a concentric annulus indicated a decrease in coupling, and vice versa. 2. Dopamine (10-250 microM) caused a decrease in coupling between horizontal cells. The uncoupling effect of dopamine was much greater in dark-adapted than in light-adapted retinas. The effect of the D1-receptor agonist SKF38393 was similar to that of dopamine. The effect of the D2-receptor agonist LY171555 on coupling was opposite to that of dopamine; this was attributed to a reduction in endogenous dopamine release. 3. The D1 antagonist SCH23390 (15 microM) caused an increase in coupling between horizontal cells. This effect was much greater in light-adapted than in dark-adapted retinas. 4. The glutamate analogue 2-amino-4-phosphonobutyrate (APB), which hyperpolarizes on-centre bipolar cells and blocks their responses to light, caused an increase in coupling between horizontal cells. This effect of APB was greater in light-adapted retinas than in dark-adapted retinas. The effect of APB on coupling could be reversed by the addition of dopamine, but the effect of dopamine on coupling could not be reversed by the addition of APB. These results suggest that APB increases horizontal cell coupling by causing a decrease in dopamine release. 5. In dark-adapted retinas, 2.5 min exposure to an adapting light caused a decrease in coupling between horizontal cells; the uncoupling effect of the adapting light was blocked in the presence of either SCH23390 or APB. 6. The results suggest that coupling between horizontal cells in the mudpuppy retina is decreased by dopamine acting at D1 receptors, that the release of dopamine affecting horizontal cells is greater under light-adapted conditions, and that the pathway by which exposure to light increases this dopamine release is mainly via on-centre bipolar cells.
摘要
- 通过比较使用中心光斑和环形刺激时,泥螈视网膜水平细胞对感受野中心和周边部分光照反应的变化,研究了不同实验条件对水平细胞间电耦合的影响。对中心光斑刺激反应的幅度增加以及对同心环形刺激反应的幅度减小表明耦合减弱,反之亦然。2. 多巴胺(10 - 250微摩尔)导致水平细胞间耦合减弱。多巴胺的解耦作用在暗适应视网膜中比在明适应视网膜中更强。D1受体激动剂SKF38393的作用与多巴胺相似。D2受体激动剂LY171555对耦合的作用与多巴胺相反;这归因于内源性多巴胺释放的减少。3. D1拮抗剂SCH23390(15微摩尔)导致水平细胞间耦合增强。这种作用在明适应视网膜中比在暗适应视网膜中更强。4. 谷氨酸类似物2 - 氨基 - 4 - 膦酰丁酸(APB)可使中心型双极细胞超极化并阻断其对光的反应,它导致水平细胞间耦合增强。APB的这种作用在明适应视网膜中比在暗适应视网膜中更明显。添加多巴胺可逆转APB对耦合的作用,但添加APB不能逆转多巴胺对耦合的作用。这些结果表明,APB通过减少多巴胺释放来增加水平细胞耦合。5. 在暗适应视网膜中,暴露于适应光2.5分钟会导致水平细胞间耦合减弱;在存在SCH23390或APB的情况下,适应光的解耦作用会被阻断。6. 结果表明,多巴胺作用于D1受体可使泥螈视网膜水平细胞间耦合减弱,在明适应条件下影响水平细胞的多巴胺释放量更大,且光照增加这种多巴胺释放的途径主要是通过中心型双极细胞。
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