内源性神经前体细胞通过整合和新生神经元的存活来实现有效的神经修复是否存在瓶颈?
Is integration and survival of newborn neurons the bottleneck for effective neural repair by endogenous neural precursor cells?
机构信息
Department of Anatomy and Neuroscience, The University of Melbourne Parkville, VIC, Australia.
出版信息
Front Neurosci. 2014 Feb 20;8:29. doi: 10.3389/fnins.2014.00029. eCollection 2014.
Abstract
After two decades of research the existence of adult neural precursor cells and the phenomenon of adult neurogenesis is well established. However, there has been little or no effective harnessing of these endogenous cells to promote functional neuronal replacement following neural injury or disease. Neural precursor cells can respond to neural damage by proliferating, migrating to the site of injury, and differentiating into neuronal or glial lineages. However, after a month or so, very few or no newborn neurons can be detected, suggesting that even though neuroblasts are generated, they generally fail to survive as mature neurons and contribute to the local circuitry. Is this lack of survival and integration one of the major bottlenecks that inhibits effective neuronal replacement and subsequent repair of the nervous system following injury or disease? In this perspective article the possibility that this bottleneck can be targeted to enhance the integration and subsequent survival of newborn neurons will be explored and will suggest some possible mechanisms that may need to be modulated for this to occur.
摘要
经过二十年的研究,成年神经前体细胞的存在和成年神经发生现象已得到充分证实。然而,对于如何利用这些内源性细胞在神经损伤或疾病后促进功能性神经元替代,目前的研究还很少或几乎没有。神经前体细胞可以通过增殖、迁移到损伤部位并分化为神经元或神经胶质谱系来对神经损伤做出反应。然而,大约一个月后,几乎检测不到或检测不到新生神经元,这表明尽管产生了神经母细胞,但它们通常无法作为成熟神经元存活下来并有助于局部回路。这种缺乏生存能力和整合能力是否是抑制神经损伤或疾病后有效神经元替代和随后神经系统修复的主要瓶颈之一?在这篇观点文章中,将探讨是否可以针对这个瓶颈来增强新生神经元的整合和随后的存活能力,并提出一些可能需要调节的机制,以促进这种情况的发生。
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