Department of Biological Sciences, Western Michigan University, 1903 W Michigan Ave, Kalamazoo, MI 49008-5410, USA.
Behav Brain Res. 2012 Dec 1;235(2):293-301. doi: 10.1016/j.bbr.2012.08.018. Epub 2012 Aug 17.
The olfactory system is a useful model for studying central nervous system recovery from damage due to its neuroplasticity. We recently developed a novel method of deafferentation by repeated exposure of Triton X-100 to the olfactory organ of adult zebrafish. This long-term, reversible method of deafferentation allows both degeneration and regeneration to be observed in the olfactory bulb. The aim of the present study is to examine olfactory bulb innervation, glomerular patterns, and olfactory-mediated behavior with repeated Triton X-100 treatment and the potential for recovery following cessation of treatment. Olfactory bulbs of control, chronic-treated, and recovery animals were examined for the presence or absence of glomeruli that have been identified in the zebrafish glomerular map. Following chronic treatment, the number of glomeruli was dramatically reduced; however, partial innervation remained in the lateral region of the bulb. When animals were given time to recover, complete glomerular distribution returned. A behavioral assay was developed to determine if innervation remaining correlated with behavior of the fish. Chronic-treated fish did not respond to odorants involved with social behavior but continued to react to odorants that mediate feeding behavior. Following recovery, responses to odorants involved with social behavior returned. The morphological and behavioral effects of chronic Triton X-100 treatment in the olfactory system suggest there may be differential susceptibility or resistance to external damage in a subset of sensory neurons. The results of this study demonstrate the remarkable regenerative ability of the olfactory system following extensive and long-term injury.
嗅觉系统是研究中枢神经系统损伤后神经可塑性的有用模型。我们最近开发了一种通过重复暴露于 Triton X-100 于成年斑马鱼嗅觉器官的去传入方法。这种长期、可逆的去传入方法允许观察嗅球中的退化和再生。本研究的目的是研究嗅球神经支配、肾小球模式和嗅觉介导的行为,以及在停止治疗后恢复的潜力。用在斑马鱼肾小球图谱中鉴定的肾小球检查对照、慢性处理和恢复动物的嗅球。在慢性处理后,肾小球的数量显著减少;然而,在嗅球的外侧区域仍存在部分神经支配。当动物有时间恢复时,完整的肾小球分布恢复。开发了一种行为测定法来确定剩余的神经支配是否与鱼的行为相关。慢性处理的鱼对涉及社交行为的气味没有反应,但继续对介导摄食行为的气味作出反应。恢复后,涉及社交行为的气味的反应恢复。慢性 Triton X-100 处理对嗅觉系统的形态和行为影响表明,在感觉神经元的亚群中,对外界损伤可能存在不同的敏感性或抗性。本研究的结果表明,在广泛和长期损伤后,嗅觉系统具有显著的再生能力。