Quantitative in toto live imaging analysis of apical nuclear migration in the mouse telencephalic neuroepithelium.

IF 1.7 4区 生物学 Q4 CELL BIOLOGY
Tsukasa Shimamura, Takaki Miyata
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引用次数: 0

Abstract

In the embryonic neuroepithelium (NE), neural progenitor cells undergo cell cycle-dependent interkinetic nuclear migration (IKNM) along the apicobasal axis. Extensive IKNM supports increasing cell production rates per unit apical surface, as typically observed in the mammalian telencephalic NE. Apical nucleokinesis during the G2 phase is an essential premitotic event, but its occurrence has not yet been quantitatively analyzed at a large 3D-scale with sufficient spatiotemporal resolution. Here, we comprehensively analyzed apically migrating nuclei/somata in reference to their surroundings from embryonic day (E)11 to E13 in the mouse telencephalon. The velocity of apical nucleokinesis decreased, with more frequent nuclear pausing occurring at E12 and E13, whereas the nuclear density in the middle NE zone (20-40-μm deep) increased. This result, together with the results of Shh-mediated overproliferation experiments in which the nuclear density was increased in vivo at E11, suggests that apical nucleokinesis is physically influenced by the surrounding nuclei. Mean square displacement analysis for nuclei being passed by the apically migrating nuclei via horizontal sectioning in toto-recorded movies revealed that the "tissue fluidity" or physical permissiveness of the NE to apical nucleokinesis gradually decreased (E11 > E12 > E13). To further investigate the spatial relationship between preexisting mitoses and subsequent premitotic apical nucleokinesis, the horizontal distribution of mitoses was cumulatively (~3 hr) analyzed under in toto monitoring. The four-dimensional cumulative apical mitoses presented a "random", not "clustered" or "regular", distribution pattern throughout the period examined. These methodologies provide a basis for future comparative studies of interspecies differences.

小鼠端脑神经上皮细胞顶端核迁移的定量全图活体成像分析。
在胚胎神经上皮(NE)中,神经祖细胞会沿着尖基轴进行细胞周期依赖性动核间迁移(IKNM)。广泛的IKNM支持每单位顶端表面的细胞生成率不断提高,这在哺乳动物端脑NE中是典型的现象。G2 期的顶端核运动是一个重要的减数分裂前事件,但其发生尚未在大三维尺度上以足够的时空分辨率进行定量分析。在这里,我们参照小鼠端脑从胚胎第 11 天到第 13 天的周围环境,全面分析了顶端迁移的细胞核/肿块。顶端核运动的速度下降,在 E12 和 E13 出现更频繁的核停顿,而中间 NE 区(20-40μm 深)的核密度增加。这一结果连同 Shh 介导的过度增殖实验结果(其中 E11 阶段体内核密度增加)表明,顶端核运动受到周围细胞核的物理影响。在全图记录的影片中,通过水平切片对被顶端迁移的细胞核穿过的细胞核进行均方位移分析,发现东北核对顶端核运动的 "组织流动性 "或物理允许性逐渐降低(E11 > E12 > E13)。为了进一步研究前期有丝分裂和随后的凋亡前顶端核动之间的空间关系,在整体监测下对有丝分裂的水平分布进行了累积分析(约 3 小时)。在整个研究期间,四维累积的顶端有丝分裂呈 "随机 "分布模式,而非 "集群 "或 "规则 "分布模式。这些方法为今后比较研究种间差异提供了基础。
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来源期刊
Development Growth & Differentiation
Development Growth & Differentiation 生物-发育生物学
CiteScore
4.60
自引率
4.00%
发文量
62
审稿时长
6 months
期刊介绍: Development Growth & Differentiation (DGD) publishes three types of articles: original, resource, and review papers. Original papers are on any subjects having a context in development, growth, and differentiation processes in animals, plants, and microorganisms, dealing with molecular, genetic, cellular and organismal phenomena including metamorphosis and regeneration, while using experimental, theoretical, and bioinformatic approaches. Papers on other related fields are also welcome, such as stem cell biology, genomics, neuroscience, Evodevo, Ecodevo, and medical science as well as related methodology (new or revised techniques) and bioresources. Resource papers describe a dataset, such as whole genome sequences and expressed sequence tags (ESTs), with some biological insights, which should be valuable for studying the subjects as mentioned above. Submission of review papers is also encouraged, especially those providing a new scope based on the authors’ own study, or a summarization of their study series.
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