Cerebellar and Olfactory Bulb Perturbations Induced by Vanadium Neurotoxicity in the African Giant Rat (Cricetomys gambianus, Waterhouse).

Q4 Medicine
Oluwaseun Mustapha, Fiyinfoluwa Omojola, Francis Olaolorun, Matthew Olude
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引用次数: 0

Abstract

The African giant rat, AGR (Cricetomys gambianus) is a unique rodent known for its keen sense of smell which has enabled its use in the diagnosis of tuberculosis and demining activities in war torn countries. This keen sense of smell and the ability to navigate tight spaces are skills modulated by the olfactory bulb and cerebellum. While the brain is generally susceptible to environmental pollutants such as heavy metals, vanadium has predilection for these two brain regions. This work was thus designed to investigate the probable neurotoxic effect of vanadium on the neuronal cytoarchitecture of the cerebellum and olfactory bulb in this rodent. To achieve this, twelve adults male AGRs were divided into two groups (vanadium and control groups) and were given intraperitoneal injections of 3mg/kg body weight sodium metavanadate and normal saline respectively for 14 days. After which they were sacrificed, and brains harvested for histological investigations using Nissl and Golgi staining techniques. Results from our experiment revealed Purkinje cell degeneration and pyknosis as revealed by a lower intact-pyknotic cell (I-P) ratio, higher pyknotic Purkinje cell density and poor dendritic arborizations in the molecular layer of the cerebellum in the vanadium treated group. In the olfactory bulb, neuronal loss in the glomerular layer was observed as shrunken glomeruli. These neuronal changes have been linked to deficits in motor function and disruption of odor transduction in the olfactory bulb. This work has further demonstrated the neurotoxic effects of vanadium on the cerebellum and olfactory bulb of the AGR and the likely threat it may pose to the translational potentials of this rodent. We therefore propose the use of this rodent as a suitable model for better understanding vanadium induced olfactory and cerebellar dysfunctions.

非洲大鼠(Cricetomys gambianus, Waterhouse)钒神经毒性引起的小脑和嗅球紊乱
非洲大鼠(Cricetomys gambianus)是一种独特的啮齿类动物,以其敏锐的嗅觉而闻名,这使其能够用于结核病的诊断和战乱国家的排雷活动。这种敏锐的嗅觉和在狭小空间中穿梭的能力是由嗅球和小脑调节的。虽然大脑普遍易受重金属等环境污染物的影响,但钒却偏爱这两个脑区。因此,这项工作旨在研究钒对啮齿动物小脑和嗅球神经元细胞结构的可能神经毒性作用。为此,将12只成年雄性AGR分成两组(钒组和对照组),分别腹腔注射3毫克/千克体重的偏钒酸钠和生理盐水,连续14天。之后,它们被处死,并收获大脑,使用 Nissl 和高尔基染色技术进行组织学研究。我们的实验结果显示,钒处理组小脑分子层中的完整-钝化细胞(I-P)比值较低,钝化的浦肯野细胞密度较高,树突轴化较差,这表明浦肯野细胞变性和钝化。在嗅球中,观察到肾小球层的神经元丧失,表现为肾小球萎缩。这些神经元变化与嗅球的运动功能缺陷和气味传导中断有关。这项工作进一步证明了钒对AGR小脑和嗅球的神经毒性作用,以及它可能对这种啮齿动物的转化潜力构成的威胁。因此,我们建议使用这种啮齿动物作为合适的模型,以更好地了解钒诱导的嗅觉和小脑功能障碍。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Nigerian Journal of Physiological Sciences
Nigerian Journal of Physiological Sciences Medicine-Physiology (medical)
CiteScore
0.80
自引率
0.00%
发文量
23
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