中枢神经系统组织共培养中胆碱能纤维的生长。

Journal de physiologie Pub Date : 1991-01-01
B H Gähwiler, L Rietschin, U Gerber
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引用次数: 0

摘要

在中隔和海马体的共培养中,起源于中隔切片的胆碱能纤维生长到邻近的海马体组织中,并与锥体细胞建立了功能性的胆碱能连接。为了进一步了解控制胆碱能纤维生长的机制,我们在生长培养基中添加了TTX (2 × 10(-7) M)来阻止传播的电活动。在这些条件下,存活的胆碱能细胞明显减少。少量胆碱能纤维仍侵入海马靶组织,但其数量与对照培养相比明显减少。然而,同时应用NGF和TTX不仅能提高酶水平,增强胆碱能神经元的存活率,而且在几乎所有的中隔-海马共培养中都能导致海马长入。因此,这些数据表明,在没有尖峰活动的情况下,胆碱能纤维能够生长成共培养的靶组织。为了测试中隔胆碱能纤维生长的特异性,我们将中隔切片与原位缺乏主要胆碱能神经支配的不同脑区(特别是小脑)的切片共同培养。在绝大多数这样的共培养中,胆碱能纤维仍然限制在间隔片内,而不支配小脑组织。这种失败可能部分与缺乏目标组织释放的营养因子有关。因此,我们在存在和不存在NGF的情况下培养了中隔-小脑培养。在整个培养过程中应用100 ng/ml NGF后,大量起源于间隔片的ache阳性纤维侵入共培养的小脑片。(摘要删节250字)
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Cholinergic fiber growth in co-cultures of CNS tissue.

In co-cultures prepared from the septum and the hippocampus, cholinergic fibers originating in the septal slices grew into the neighboring hippocampal tissue and established functional cholinergic connections with pyramidal cells. To get further insight into the mechanisms governing cholinergic fiber growth, we have added TTX to the growth medium (2 x 10(-7) M) to block propagated electrical activity. Under these conditions, considerably fewer cholinergic cells appeared to survive. A few cholinergic fibers still invaded hippocampal target tissue, but their number was markedly reduced compared with control cultures. Simultaneous application of NGF together with TTX, however, not only increased enzyme levels and enhanced survival of cholinergic neurons, but also led to hippocampal ingrowth in virtually all septo-hippocampal co-cultures. These data, therefore, suggest, that in the absence of spiking activity, cholinergic fibers are capable of growing into a co-cultured target tissue. To test the specificity of growth of septal cholinergic fibers, we have co-cultured septal slices with slices of various brain areas which in situ lack a major cholinergic innervation, in particular the cerebellum. In the vast majority of such co-cultures, cholinergic fibers remained restricted within the septal slices, without innervating cerebellar tissue. This failure might in part be related to the lack of trophic factors released by the target tissue. We have, therefore, grown septo-cerebellar cultures in the presence and absence of NGF. Following application of 100 ng/ml NGF during the entire growth of the cultures, numerous AChE-positive fibers originating in the septal slices invaded the co-cultured cerebellar slices.(ABSTRACT TRUNCATED AT 250 WORDS)

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