Steps in the formation of a bipolar outgrowth pattern by cultured neurons, and their substrate dependence.

F. F. De-Miguel, J. Vargas
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引用次数: 6

Abstract

We studied the steps in the formation of the bipolar outgrowth pattern of cultured adult Anterior Pagoda (AP) neurons of the leech growing on a central nervous system (CNS) homogenate as substrate. This pattern, which consists of two primary neurites directed in opposite directions plus some bifurcations, resembles their embryonic pattern but is different from the patterns they develop in culture on leech laminin or Concanavalin A as substrates. In eight neurons that were studied, one primary neurite formed and branched several hours before the second one. Time-lapse video analysis showed that between 12 and 36 h of growth, the more proximal branch of the early neurite migrated retrogradely, rotated, and formed the second primary branch. Both neurites elongated until the total neurite length reached 130-160 microm, when the elongation of primary neurites became synchronous with the retraction of secondary processes, suggesting competition. The substrate dependence of these events was tested by plating AP neurons on leech laminin. On this substrate AP neurons produced multiple independent primary neurites with branches. Retraction of some large branches was followed by their regrowth, and did not correlate with the changes in other neurites. We propose that the dynamics in the formation of the bipolar outgrowth pattern of AP neurons arise from inhibitory extracellular matrix molecules, which reduce the synthesis of precursors for neurite formation.
培养神经元形成双极生长模式的步骤及其对底物的依赖性。
研究了水蛭成年前塔(AP)神经元在中枢神经系统(CNS)匀浆基质上形成双极生长模式的步骤。这种模式由两个方向相反的初级神经突加上一些分叉组成,类似于它们的胚胎模式,但与它们在水蛭层粘连蛋白或豆豆蛋白A作为底物培养时形成的模式不同。在被研究的8个神经元中,一个初级神经突比第二个形成和分支早几个小时。延时视频分析显示,在生长12 ~ 36 h之间,早期神经突较近端的分支逆行迁移、旋转,形成第二初级分支。两个神经突都伸长,直到总神经突长度达到130 ~ 160微米,此时初级神经突的伸长与次级神经突的缩回同步,表明存在竞争。这些事件的底物依赖性通过水蛭层粘连蛋白镀AP神经元来检测。在这个底物上,AP神经元产生了多个独立的带分支的初级神经突。一些大分支的缩回随后是它们的再生,而与其他神经突的变化无关。我们提出,AP神经元双极生长模式形成的动力学源于抑制细胞外基质分子,这减少了神经突形成前体的合成。
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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