成年大鼠氟诱导神经障碍中的分子和免疫组化改变
Molecular and immunohistochemical alterations in fluoride-induced neurological impediment in adult rats.
作者信息
Kumar Sachindra, Swamy Ravindra Shantakumar, Bhushan Rashmi, Chhabra Vishal, Shenoy Smita, Murti Krishna, Singh Shubhankar Kumar, Kumar Nitesh
机构信息
Department of Pharmacology and Toxicology, National Institute of Pharmaceutical Education and Research, Hajipur, Industrial area Hajipur, Vaishali, Bihar 844102, India; Department of Pharmacology, Manipal College of Pharmaceutical Sciences, Manipal Academy of Higher Education, Manipal, Karnataka 576 104, India.
Division of Anatomy, Department of Basic Medical Sciences (DBMS), Manipal Academy of Higher Education, Manipal, Karnataka 576 104, India.
出版信息
J Trace Elem Med Biol. 2024 Dec;86:127511. doi: 10.1016/j.jtemb.2024.127511. Epub 2024 Aug 23.
UNLABELLED
This study highlights the potential neurotoxic and impaired behavioral effects associated with high fluoride concentrations in drinking water.
PURPOSE
Fluoride is known to cause neurotoxicity, evinced by lower I.Q. levels in children from high-fluoride regions as compared to those in low-fluoride regions. Thus, the present study was designed to investigate the molecular mechanism behind the neurological and behavioural changes induced by sodium fluoride in Wistar rats.
MATERIAL AND METHODS
A total of 24 female Wistar rats, aged six weeks and weighing approximately 150-220 g, were randomly divided into three groups: Group I (control) received reverse osmosis (R.O.) water, Group II received Sodium Fluoride (NaF) at 10 ppm, and Group III received NaF at 50 ppm in their drinking water for 60 days. The animals underwent behavioural tests including the Forced Swim Test (F.S.T.), Open Field Test (OFT), and Novel Object Recognition Test (N.O.R.T.), to assess any alterations in behaviour. After 60 days, the animals were euthanized, and their blood and brain samples were analysed to evaluate biochemical changes by Western Blot/I.H.C. analysis of B.A.X., Bcl2, LC3B, TLR4, PARP1, p53, Caspase, α-Synuclein, PARKIN, NeuN, KI67, DNM-1, and M.F.N. for assessing molecular pathways for toxicity.
RESULTS
Impaired locomotion, memory impairment, and behaviour resembling depression in the animals were evinced by reduced mobility index in the F.S.T., discrimination index in the N.O.R.T., and reduced locomotor activity in the open field test results. Additionally, alterations in antioxidant levels and oxidative stress parameters were observed in the brain. The expression levels of various apoptotic and inflammatory biomarkers (B.A.X., Bcl2, TLR4, PARP1, p53, and Caspase) showed apoptosis in neurons. The confocal studies showed increased expression of inflammatory (α-Synuclein, PARKIN), apoptotic (LC3B, B.A.X., p53, KI67), and mitochondrial dysfunction (NeuN, DNM-1, M.F.N.) markers in fluoride-treated animals. Toxicity was more prominent in 50 ppm of fluoride-treated animals.
CONCLUSION
Fluoride showed potent neuronal toxicity as evidenced by alterations of various molecular markers.
未标注
本研究强调了饮用水中高氟浓度可能产生的神经毒性和行为障碍影响。
目的
已知氟化物会导致神经毒性,高氟地区儿童的智商水平低于低氟地区儿童,这证明了这一点。因此,本研究旨在探究氟化钠诱导Wistar大鼠神经和行为变化背后的分子机制。
材料与方法
将24只六周龄、体重约150 - 220克的雌性Wistar大鼠随机分为三组:第一组(对照组)饮用反渗透(R.O.)水,第二组饮用含10 ppm氟化钠(NaF)的水,第三组饮用含50 ppm NaF的水,持续60天。对动物进行行为测试,包括强迫游泳试验(F.S.T.)、旷场试验(OFT)和新物体识别试验(N.O.R.T.),以评估行为的任何变化。60天后,对动物实施安乐死,并分析其血液和脑样本,通过蛋白质免疫印迹/免疫组化分析B.A.X.、Bcl2、LC3B、TLR4、PARP1、p53、半胱天冬酶、α-突触核蛋白、帕金蛋白、NeuN、KI67、DNM-1和M.F.N.来评估生化变化,以评估毒性的分子途径。
结果
强迫游泳试验中运动指数降低、新物体识别试验中辨别指数降低以及旷场试验结果中运动活动减少,表明动物存在运动障碍、记忆障碍和类似抑郁的行为。此外,在大脑中观察到抗氧化剂水平和氧化应激参数的变化。各种凋亡和炎症生物标志物(B.A.X.、Bcl2、TLR4、PARP1、p53和半胱天冬酶)的表达水平显示神经元发生凋亡。共聚焦研究显示,氟化物处理动物中炎症(α-突触核蛋白、帕金蛋白)、凋亡(LC3B、B.A.X.、p53、KI67)和线粒体功能障碍(NeuN、DNM-1、M.F.N.)标志物的表达增加。在50 ppm氟化物处理的动物中,毒性更为显著。
结论
各种分子标志物的改变证明氟化物具有强大的神经毒性。
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