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外周感觉去传入会影响斑马鱼嗅球神经发生。

Peripheral sensory deafferentation affects olfactory bulb neurogenesis in zebrafish.

作者信息

Villanueva Ruth, Byrd-Jacobs Christine A

机构信息

Department of Biological Sciences, Western Michigan University, 1903 W. Michigan Ave., Kalamazoo, MI 49008, USA.

出版信息

Brain Res. 2009 May 7;1269:31-9. doi: 10.1016/j.brainres.2009.03.005. Epub 2009 Mar 17.

Abstract

The potential effects of the removal of olfactory input on adult neurogenesis in the olfactory bulb were examined. Olfactory organs of adult zebrafish were permanently and completely ablated by cautery and animals were exposed to bromodeoxyuridine then examined following short (4-hour) or long (3-week) survival periods. Short survival times allowed analysis of cell proliferation in the olfactory bulb. Long survival times permitted investigation of survival of adult-formed cells. Deafferentation did not immediately affect the dividing cells in the bulb but did affect the number of adult-formed cells, some of which expressed a neuronal marker, present in the bulb 3 weeks later. Thus, afferent removal influenced the fate of newly formed cells by impacting subsequent divisions, maturation, or survival of those cells. One week of deafferentation altered the pattern of cell genesis, with a significant increase in the number of dividing cells located in the olfactory bulb and also in the ventral telencephalic proliferation zone. Sham surgery did not impact either proliferation or survival of adult-formed cells in the olfactory bulb, suggesting that the deafferentation effect is specific. Thus, afferent innervation is necessary for normal cell proliferation and maintenance of the olfactory bulb in adult zebrafish.

摘要

研究了去除嗅觉输入对成年斑马鱼嗅球神经发生的潜在影响。通过烧灼法永久性地完全切除成年斑马鱼的嗅觉器官,然后让动物接触溴脱氧尿苷,在短(4小时)或长(3周)存活期后进行检查。短存活时间便于分析嗅球中的细胞增殖情况。长存活时间则可用于研究成年形成细胞的存活情况。去传入神经并未立即影响嗅球中的分裂细胞,但确实影响了3周后嗅球中成年形成细胞的数量,其中一些细胞表达了神经元标记物。因此,传入神经的去除通过影响这些细胞随后的分裂、成熟或存活,影响了新形成细胞的命运。去传入神经一周改变了细胞发生模式,嗅球和腹侧端脑增殖区中分裂细胞的数量显著增加。假手术并未影响嗅球中成年形成细胞的增殖或存活,这表明去传入神经的影响是特异性的。因此,传入神经支配对于成年斑马鱼嗅球中正常的细胞增殖和维持是必要的。

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