Department of Biological Sciences, Western Michigan University, 1903 W. Michigan Ave., Kalamazoo, MI, 49008-5410, USA.
Department of Biological Sciences, Western Michigan University, 1903 W. Michigan Ave., Kalamazoo, MI, 49008-5410, USA.
J Neurosci Methods. 2019 Jan 1;311:47-56. doi: 10.1016/j.jneumeth.2018.10.014. Epub 2018 Oct 11.
Deafferentation of the zebrafish olfactory bulb allows investigation of neuroplasticity in a particularly dynamic brain region of a popular model animal known for its regenerative abilities. Current methods to remove sensory input to the zebrafish olfactory bulb differ in the extent of deafferentation and potential for recovery.
We present a novel method of olfactory bulb deafferentation using continuous wax plug insertions into the nasal cavity of zebrafish. Wax plugs were placed in the nasal cavity and replaced if needed over 1wk or 3wk survival periods. Wax plugs were removed from fish after 1wk of occlusion to analyze the potential recovery of the olfactory organ and bulb.
Wax plug insertions caused a dramatic reduction in olfactory organ size and structure and significantly reduced afferent input to the olfactory bulb after 1wk and 3wk. Removal of the wax plugs after 1wk allowed for recovery of the olfactory organ and subsequent reinnervation of the olfactory bulb.
Chemical ablation with detergent causes partial, temporary deafferentation of the olfactory bulb. Cautery ablation causes complete, permanent deafferentation of the olfactory bulb. Wax plug insertions cause nearly complete, temporary deafferentation, allowing both significant deafferentation and the potential for reinnervation of the olfactory bulb.
The wax plug insertion method of deafferentation described here is unique in that it destroys almost completely the structure of the olfactory organ and removes almost completely sensory input to the olfactory bulb, yet the organ returns to its typical morphology and afferent innervation returns.
去神经化斑马鱼嗅球允许在一个特别动态的大脑区域进行神经可塑性研究,该区域是一种具有再生能力的流行模型动物。目前去除斑马鱼嗅球感觉输入的方法在去神经化的程度和潜在的恢复能力上有所不同。
我们提出了一种使用连续蜡塞插入斑马鱼鼻腔的嗅球去神经化的新方法。蜡塞被插入鼻腔,如果需要,可以在 1 周或 3 周的存活期内更换。在闭塞 1 周后,将蜡塞从鱼身上取出,以分析嗅器官和嗅球的潜在恢复情况。
蜡塞插入导致嗅器官大小和结构明显减少,1 周和 3 周后嗅球传入输入显著减少。1 周后去除蜡塞允许嗅器官恢复,随后嗅球重新支配。
用去污剂进行化学消融导致嗅球部分、暂时去神经化。电灼消融导致嗅球完全、永久去神经化。蜡塞插入导致几乎完全、暂时去神经化,既允许嗅球的显著去神经化,又允许嗅球的再支配潜力。
这里描述的蜡塞插入去神经化方法是独特的,因为它几乎完全破坏了嗅器官的结构,并几乎完全去除了嗅球的感觉输入,但该器官恢复到其典型的形态,传入神经支配也恢复了。
