Zhou Z J
Department of Physiology, University of Arkansas for Medical Sciences, Little Rock, Arkansas 72205, USA.
J Neurosci. 1998 Jun 1;18(11):4155-65. doi: 10.1523/JNEUROSCI.18-11-04155.1998.
Spontaneous, rhythmic waves of excitation in the developing mammalian retina play a critical role in the formation of precise neuronal connectivity in the visual system. However, it is not known what circuits in the retina are responsible for the production of these waves. Using patch-clamp recordings in the whole-mount neonatal rabbit retina, this study reports that the displaced starburst amacrine cell, a unique cholinergic interneuron in the ganglion cell layer of the retina, undergoes rhythmic bursts of membrane depolarization with a frequency and duration similar to those of spontaneous retinal waves. Simultaneous patch-clamp recordings from pairs of neighboring starburst and ganglion cells show that the rhythmic activity in starburst cells is closely correlated with that in ganglion cells, and that the excitation in both cell types is most likely driven by synaptic input. However, in contrast to ganglion cells, displaced starburst cells usually do not generate spontaneous somatic action potentials. Instead, they seem to use subthreshold potentials (at least at the soma) to mediate the rhythmic excitation. The results suggest that acetylcholine is likely released rhythmically in the developing retina. Thus, starburst amacrine cells form the first identified network of retinal interneurons that directly participate in spontaneous rhythmic activities in the developing retina.
在发育中的哺乳动物视网膜中,自发的、有节律的兴奋波在视觉系统精确神经元连接的形成中起着关键作用。然而,尚不清楚视网膜中的哪些回路负责产生这些波。本研究利用全层新生兔视网膜的膜片钳记录,报告了移位的星爆无长突细胞,这是视网膜神经节细胞层中一种独特的胆碱能中间神经元,其膜去极化会出现节律性爆发,频率和持续时间与自发视网膜波相似。对相邻星爆细胞和神经节细胞对进行同步膜片钳记录显示,星爆细胞的节律性活动与神经节细胞的节律性活动密切相关,且两种细胞类型的兴奋很可能由突触输入驱动。然而,与神经节细胞不同,移位的星爆细胞通常不会产生自发的体细胞动作电位。相反,它们似乎利用阈下电位(至少在胞体处)来介导节律性兴奋。结果表明,乙酰胆碱可能在发育中的视网膜中有节律地释放。因此,星爆无长突细胞构成了首个被确定的直接参与发育中视网膜自发节律活动的视网膜中间神经元网络。