Forehand C J
Department of Anatomy and Neurobiology, Washington University School of Medicine, St. Louis, Missouri 63110.
J Neurosci. 1987 Oct;7(10):3274-81. doi: 10.1523/JNEUROSCI.07-10-03274.1987.
The number of preganglionic inputs that innervate rabbit ciliary ganglion cells is directly correlated with the number of dendrites arising from each ganglion cell (Purves and Hume, 1981). In general, the innervation of multiply innervated ciliary neurons by individual preganglionic axons is regionally restricted to a portion of the postsynaptic surface that usually includes the cell body and some, but not all, of the dendrites (Forehand and Purves, 1984). These observations suggest that dendrites modulate convergence to each cell by providing relatively separate postsynaptic domains for individual inputs. To examine this possibility further, I have assessed the distribution of synaptic boutons from individually labeled preganglionic axons on ciliary ganglion cells at the ultrastructural level. The results show that at least a third of the dendrites of these neurons are contacted exclusively by synaptic boutons from a single preganglionic axon. However, at least half of the dendrites (and nearly all of the cell bodies) of multiply innervated ganglion cells are innervated by at least 2 different preganglionic axons. Moreover, synapses from 2 different inputs often coexist in close proximity on the postsynaptic surface. Thus, individual preganglionic axons do not require exclusive dominion over a particular part of a postsynaptic cell in order to maintain their connection with the cell. These results suggest that competitive interactions between the inputs to these cells occur between the sets of boutons arising from different inputs, rather than at the level of individual boutons.(ABSTRACT TRUNCATED AT 250 WORDS)
支配兔睫状神经节细胞的节前输入数量与每个神经节细胞产生的树突数量直接相关(珀维斯和休姆,1981年)。一般来说,单个节前轴突对多重支配的睫状神经元的支配在区域上局限于突触后表面的一部分,通常包括细胞体和一些但不是全部的树突(福勒德和珀维斯,1984年)。这些观察结果表明,树突通过为单个输入提供相对独立的突触后区域来调节对每个细胞的汇聚。为了进一步研究这种可能性,我在超微结构水平上评估了来自单个标记的节前轴突的突触小体在睫状神经节细胞上的分布。结果表明,这些神经元至少三分之一的树突仅与单个节前轴突的突触小体接触。然而,多重支配的神经节细胞至少一半的树突(以及几乎所有的细胞体)由至少2种不同的节前轴突支配。此外,来自2种不同输入的突触常常在突触后表面紧密相邻共存。因此,单个节前轴突为了维持与细胞的连接并不需要对突触后细胞的特定部分拥有排他性的支配权。这些结果表明,这些细胞输入之间的竞争性相互作用发生在来自不同输入的突触小体组之间,而不是在单个突触小体水平。(摘要截选至250词)