Neurobehavioural and Histological Study of the Effects of Low-Dose and High-Dose Vanadium in Brain, Liver and Kidney of Mice

Taidinda Gilbert, Francis Olaolorun, Amany Ladagu, Funmilayo Olopade, Olumayowa Igado, James Olopade
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Abstract

Vanadium is a ubiquitous transition metal that has been generating contrasting research interest. Therapeutically, vanadium possess antidiabetic, antitumor, antiparasitic and even neuroprotective activities. On the flip side, vanadium has been reported to cause multisystemic toxicities with a strong predilection for the nervous system. Despite several reports on potential benefits of low-dose vanadium (LDV) and toxic effects of high-dose vanadium (HDV), there are no comparative studies done thus far. This study therefore explored the comparative effects of LDV and HDV exposure in mice during postnatal development. A total of nine (9) nursing mice were used in this study; with three nursing mice and their pups (n = 12 pups per group) randomly assigned to each of the three test groups. The nursing dam were given intraperitoneal (i.p) injection of vanadium at 0.15mg/kg and 3mg/kg for LDV and HDV respectively, and subseqently to the pups from postnatal day (PND) 15 till sacrifice on PND 90. We discovered that neurodevelopmental motor function test of mice-pups exposed to LDV here showed improved motor development, muscular strength and memory capacities whereas HDV led to motor function impairment, reduced muscular strength and memory capacities. LDV-exposed mice showed mild histological lesions in cerebral cortex whereas high-dose showed distinct histological lesions in different parts of the brain ranging from cerebellar Purkinje neuronal pathology (central chromatolysis), pyramidal neuronal loss in CA1 region, architectural distortion as well as fewer neurons in olfactory bulb. We saw mild lesions with LDV in both liver and kidney, however, with HDV exposure, there was diffuse hepatocellular vacuolar degeneration and congestion of blood vessels in liver, shrinkage of renal glomerulus and degenerated epithelial cells of kidney. Conclusively, beneficial effect of vanadium is proven as it facilitated body weight gain which translate in organ weight at low-dose, while high-dose caused decreased neurobehaviour and histological lesions.
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低、高剂量钒对小鼠脑、肝、肾影响的神经行为学和组织学研究
钒是一种普遍存在的过渡金属,引起了不同研究的兴趣。在治疗上,钒具有抗糖尿病、抗肿瘤、抗寄生虫甚至神经保护作用。另一方面,钒已被报道引起多系统毒性,对神经系统有强烈的偏好。尽管有一些关于低剂量钒(LDV)的潜在益处和高剂量钒(HDV)的毒性作用的报道,但迄今为止还没有进行比较研究。因此,本研究探讨了LDV和HDV暴露对小鼠出生后发育的比较影响。本研究共使用9只哺乳小鼠;将3只哺乳小鼠及其幼崽(每组12只)随机分为3个实验组。分别以0.15mg/kg和3mg/kg的剂量腹腔注射钒治疗LDV和HDV,并从出生后第15天(PND)至90天(PND)牺牲。我们发现暴露于LDV的小鼠幼崽的神经发育运动功能测试显示出运动发育,肌肉力量和记忆能力的改善,而HDV则导致运动功能障碍,肌肉力量和记忆能力的降低。ldv暴露小鼠表现为大脑皮层轻度组织学病变,而高剂量暴露小鼠表现为小脑浦肯野神经元病变(中枢色解)、CA1区锥体神经元丢失、结构畸变以及嗅球神经元减少等脑不同部位明显组织学病变。我们发现LDV在肝脏和肾脏均有轻微病变,但HDV暴露后,肝细胞弥漫性空泡变性和肝脏血管充血,肾小球缩小,肾脏上皮细胞变性。最后,钒的有益作用被证明是在低剂量时促进体重增加并转化为器官重量,而高剂量时导致神经行为和组织学病变减少。
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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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