Quantitative changes in nuclear pores and chromatoid bodies induced by neuropeptides during cell differentiation in the planarian Dugesia japonica.

I Hori, Y Kishida
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Abstract

Neuropeptides were used in experiments to assess their effects on planarian cells. Intact and decapitated planarians exposed to 10(-6) M neuropeptides for two days were examined electron microscopically and quantitative changes in the nuclear pores and chromatoid bodies in various types of cells were ascertained. The data clearly indicated the diversity of effects produced in planarian cells by neuropeptide treatments. The number of nuclear pores increased considerably in each cell type treated with neuropeptides. In particular, the effects of neuropeptides were strongest in differentiating cells which were forming the regeneration blastema. Neuropeptide-treated cells also experienced a dramatic increase in the number of chromatoid bodies. The results obtained in this study suggest that synthesis of RNAs leading to increases in the numbers of nuclear pores and chromatoid bodies is facilitated in neuropeptide-treated cells which are undergoing cell differentiation. The different mechanisms of the effects induced in undifferentiated cells by neuropeptides are discussed.

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神经肽诱导拟涡虫细胞分化过程中核孔和染色质体的定量变化。
实验中使用神经肽来评估它们对涡虫细胞的影响。我们用电子显微镜观察了完整的和无头涡虫暴露于10(-6)M神经肽2天的情况,并确定了各种类型细胞的核孔和染色质体的定量变化。这些数据清楚地表明神经肽治疗在涡虫细胞中产生的影响的多样性。在神经肽处理的每种细胞类型中,核孔的数量都显著增加。其中,神经肽对形成再生胚的分化细胞的影响最大。神经肽处理的细胞也经历了染色质体数量的急剧增加。本研究的结果表明,在神经肽处理的细胞分化过程中,rna的合成促进了核孔和染色质体数量的增加。讨论了神经肽在未分化细胞中诱导作用的不同机制。
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