Mariana Maia-Gil, Maria Gorjão, Roman Belousov, Jaime A Espina, João Coelho, Juliette Gouhier, Ana P Ramos, Elias H Barriga, Anna Erzberger, Caren Norden
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引用次数: 0
摘要
核定位是细胞和发育生物学的一个重要方面。神经上皮细胞的细胞核在有丝分裂前向顶端移动就是一个例子,这对正常的组织形成至关重要。虽然人们已经探索了促使细胞核向顶端移动的细胞骨架机制,但对核特性对细胞核顶端迁移的影响却不甚了解。如各种体外研究所示,核的特性(如可变形性)与层粘连蛋白 A/C的表达水平有关。有趣的是,许多早期发育的细胞核(包括神经上皮细胞核)只表达低水平的片层蛋白 A/C。因此,我们研究了在密集的斑马鱼视网膜神经上皮细胞中增加层粘连蛋白 A 的表达是否会影响核的可变形性,进而影响迁移现象。我们发现,在视网膜细胞核中过量表达片层 A 会增加核的硬度,进而影响核的顶端迁移。有趣的是,没有过表达片层A但被嵌入较硬的片层A过表达环境中的细胞核也会表现出顶端核迁移受损,这表明这些影响可能是细胞非自主的。此外,在不太拥挤的后脑神经上皮细胞中,只观察到对顶端核迁移的轻微影响。总之,这表明细胞核的物质特性以组织依赖的方式影响核移动。
Nuclear deformability facilitates apical nuclear migration in the developing zebrafish retina.
Nuclear positioning is a crucial aspect of cell and developmental biology. One example is the apical movement of nuclei in neuroepithelia before mitosis, which is essential for proper tissue formation. While the cytoskeletal mechanisms that drive nuclei to the apical side have been explored, the influence of nuclear properties on apical nuclear migration is less understood. Nuclear properties, such as deformability, can be linked to lamin A/C expression levels, as shown in various in vitro studies. Interestingly, many nuclei in early development, including neuroepithelial nuclei, express only low levels of lamin A/C. Therefore, we investigated whether increased lamin A expression in the densely packed zebrafish retinal neuroepithelium affects nuclear deformability and, consequently, migration phenomena. We found that overexpressing lamin A in retinal nuclei increases nuclear stiffness, which in turn indeed impairs apical nuclear migration. Interestingly, nuclei that do not overexpress lamin A but are embedded in a stiffer lamin A-overexpressing environment also exhibit impaired apical nuclear migration, indicating that these effects can be cell non-autonomous. Additionally, in the less crowded hindbrain neuroepithelium, only minor effects on apical nuclear migration are observed. Together, this suggests that the material properties of the nucleus influence nuclear movements in a tissue-dependent manner.
期刊介绍:
Current Biology is a comprehensive journal that showcases original research in various disciplines of biology. It provides a platform for scientists to disseminate their groundbreaking findings and promotes interdisciplinary communication. The journal publishes articles of general interest, encompassing diverse fields of biology. Moreover, it offers accessible editorial pieces that are specifically designed to enlighten non-specialist readers.