Department of Biology, University of West Georgia, Carrollton, GA 30118, United States.
Neurosci Lett. 2013 Apr 29;541:173-8. doi: 10.1016/j.neulet.2013.02.027. Epub 2013 Feb 26.
Mitral cells are the primary output cell from the olfactory bulb conveying olfactory sensory information to higher cortical areas. Gene-targeted deletion of the Shaker potassium channel Kv1.3 alters voltage-dependence and inactivation kinetics of mitral cell current properties, which contribute to the "Super-smeller" phenotype observed in Kv1.3-null mice. The goal of the current study was to determine if morphology and density are influenced by mitral cell excitability, olfactory environment, and stage of development. Wildtype (WT) and Kv1.3-null (KO) mice were exposed to a single odorant (peppermint or citralva) for 30 days. Under unstimulated conditions, postnatal day 20 KO mice had more mitral cells than their WT counterparts, but no difference in cell size. Odor-enrichment with peppermint, an olfactory and trigeminal stimulus, decreased the number of mitral cells in three month and one year old mice of both genotypes. Mitral cell density was most sensitive to odor-stimulation in three month WT mice. Enrichment at the same age with citralva, a purely olfactory stimulus, decreased cell density regardless of genotype. There were no significant changes in cell body shape in response to citralva exposure, but the cell area was greater in WT mice and selectively greater in the ventral region of the OB in KO mice. This suggests that trigeminal or olfactory stimulation may modify mitral cell area and density while not impacting cell body shape. Mitral cell density can therefore be modulated by the voltage and sensory environment to alter information processing or olfactory perception.
僧帽细胞是嗅球的主要输出细胞,将嗅觉感觉信息传递到更高的皮质区域。钾通道 Kv1.3 的基因靶向缺失改变了僧帽细胞电流特性的电压依赖性和失活动力学,这导致了 Kv1.3 缺失小鼠中观察到的“超级嗅觉者”表型。本研究的目的是确定僧帽细胞的兴奋性、嗅觉环境和发育阶段是否会影响其形态和密度。野生型 (WT) 和 Kv1.3 缺失型 (KO) 小鼠暴露于单一气味剂(薄荷醇或柠檬醛)30 天。在未受刺激的情况下,KO 小鼠在出生后第 20 天比 WT 小鼠有更多的僧帽细胞,但细胞大小没有差异。用薄荷醇(一种嗅觉和三叉神经刺激物)进行气味富集会减少两种基因型的三个月和一岁大的小鼠中的僧帽细胞数量。在三个月大的 WT 小鼠中,气味刺激对僧帽细胞密度最敏感。用纯嗅觉刺激物柠檬醛在相同年龄进行富集,无论基因型如何,都会降低细胞密度。对柠檬醛暴露的细胞体形状没有明显的变化,但 WT 小鼠的细胞面积更大,而 KO 小鼠嗅球的腹侧区域选择性更大。这表明三叉神经或嗅觉刺激可能会改变僧帽细胞的面积和密度,而不会影响细胞体的形状。因此,僧帽细胞密度可以通过电压和感觉环境进行调节,以改变信息处理或嗅觉感知。