Cell-cell interaction during synaptogenesis.

Journal de physiologie Pub Date : 1990-01-01
I Chow
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Abstract

1. Neuromuscular synapse formation was studied using nerve and muscle cells dissociated from Xenopus embryos and kept in culture for 1 to 3 days. Within a few minutes of manipulated contact with isolated cholinergic neurons, miniature endplate potential-like depolarizations (MEPPs) due to spontaneous release of acetylcholine (ACh) from the neurons were detected in the muscle cells. 2. Addition of an antibody to a frog neural cell adhesion molecule (anti-NCAM) into the culture medium of nerve-muscle co-cultured for 1-3 days decreased the percentage of functional nerve-muscle contacts. 3. Acute exposure to anti-NCAM (1 hour) inhibited significantly muscle cell contact-triggered ACh release from initially identified cholinergic neurons. 4. Lysed muscle cells manipulated into contact with neurons induced ACh release, whereas lysed neurons did not, suggesting the presence of specific molecules on the muscle cell membrane capable of triggering ACh release from the cholinergic neuron. 5. Transient appearance of electrical coupling was detected between neuronal soma and muscle cell, suggesting the possibility of exchange of modulators for the formation and maintenance of neuromuscular synapses. 6. Neuromuscular synaptogenesis constitutes a complex process where at least two different types of direct cell-cell interaction seem to occur: a) cell surface molecule contact (and binding) for cell recognition and triggering of ACh release, and b) transient intercytoplasmic communication between the cells for possible passage of modulatory molecules.

突触发生过程中细胞间的相互作用。
1. 利用爪蟾胚胎分离的神经和肌肉细胞,培养1 ~ 3天,研究神经肌肉突触的形成。在与分离的胆碱能神经元接触几分钟后,在肌肉细胞中检测到由神经元自发释放乙酰胆碱(ACh)引起的微型终板电位样去极化(MEPPs)。2. 在神经-肌肉共培养的培养基中加入一种蛙神经细胞粘附分子抗体(anti-NCAM),使神经-肌肉的功能性接触率降低1-3天。3.急性暴露于抗ncam(1小时)显著抑制肌肉细胞接触触发的乙酰胆碱能神经元释放乙酰胆碱能。4. 溶解的肌肉细胞被操纵与神经元接触,诱导乙酰胆碱释放,而溶解的神经元则没有,这表明肌肉细胞膜上存在能够触发胆碱能神经元释放乙酰胆碱的特定分子。5. 在神经元体和肌肉细胞之间检测到短暂的电偶联现象,表明可能交换调节剂以形成和维持神经肌肉突触。6. 神经肌肉突触形成是一个复杂的过程,其中至少发生两种不同类型的细胞-细胞直接相互作用:a)细胞表面分子接触(和结合),用于细胞识别和触发乙酰胆碱释放;b)细胞间的短暂胞质间通信,用于调节分子的可能通道。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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