神经元的小帮手:初级纤毛在神经发生中的作用

Paola Lepanto, José L. Badano, F. R. Zolessi
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引用次数: 27

摘要

新神经元的产生涉及多种细胞外信号和细胞内信号。长期以来被视为“进化遗迹”的初级纤毛已成为许多细胞(包括神经祖细胞和分化神经元)的重要信号中枢。大多数祖细胞都有一个位于顶端的初级纤毛,它在细胞周期中组装和拆卸,而在分化的神经元中,这个细胞器的存在、位置和长度似乎更加多变。通过纤毛作用的主要细胞外信号之一是Sonic Hedgehog,它调节空间模式、细胞周期的进展和神经发生的时间。其他细胞外信号似乎与纤毛定位受体结合并影响树突发生等过程。所有观察到的动态,以及依赖纤毛的许多信号通路,表明纤毛细胞器是参与神经发生的重要结构。
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Neuron's little helper: The role of primary cilia in neurogenesis
ABSTRACT The generation of new neurons involves a great variety of cell-extrinsic and cell-intrinsic signals. The primary cilium, long regarded as an “evolutionary vestige,” has emerged as an essential signaling hub in many cells, including neural progenitors and differentiating neurons. Most progenitors harbor an apically-localized primary cilium, which is assembled and disassembled following the cell cycle, while the presence, position and length of this organelle appears to be even more variable in differentiating neurons. One of the main extracellular cues acting through the cilium is Sonic Hedgehog, which modulates spatial patterning, the progression of the cell cycle and the timing of neurogenesis. Other extracellular signals appear to bind to cilia-localized receptors and affect processes such as dendritogenesis. All the observed dynamics, as well as the many signaling pathways depending on cilia, indicate this organelle as an important structure involved in neurogenesis.
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