Sodium Fluoride Exposure Induces Developmental Toxicity and Cardiotoxicity in Zebrafish Embryos

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Feiqing Wang, Fa Chen, Wen Song, Yanju Li, Haiyan Wu, Tingting Tian, Mengxian Tian, Dongxin Tang, Yang Liu
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Abstract

Fluorosis is a worldwide public health problem, in which the heart is an important target organ. However, studies on its toxicological mechanism in embryonic development are limited. This study assessed the toxicity of sodium fluoride (NaF) toward zebrafish embryos. We determined the mortality, hatching rate, phenotypic malformation, heart function, and morphology of zebrafish embryos after exposure to NaF. Subsequently, the molecular mechanism was revealed using high-throughput RNA sequencing analysis. The expression levels of key genes for heart development were detected using quantitative real-time reverse transcription PCR. The 50% lethal concentration (LC50) value of NaF toward zebrafish embryos at 96 h post-fertilization was 335.75 mg/L. When the concentration of NaF was higher than 200 mg/L, severe deformities, such as pericardial edema, yolk sac edema, spine curvature, shortened body length, reduced head area, and eye area, were observed. The heart rate of the embryos exposed to NaF decreased in a dose-dependent fashion. The distance between the sinus venosus and bulbus arteriosus was significantly increased in the NaF-exposed group compared with that in the control group. The stroke volume and cardiac output decreased significantly in the NaF groups. Compared with the control group, the expression levels of Gata4, Tbx5a, Hand2, Tnnt2c, Nppa, and Myh6 were significantly increased in the NaF-treated group. Through transcriptome sequencing, 1354 differentially expressed genes (DEGs) were detected in the NaF (200 mg/L) treated groups, including 1253 upregulated genes and 101 downregulated genes. Gene ontology functional analysis and Kyoto Encyclopedia of Genes and Genomes pathway analyses of the DEGs showed that cardiac-related pathways, such as actin cytoskeleton regulation, Jak-Stat, PI3k-Akt, and Ras, were activated in the NaF-exposed group. This study revealed the underlying mechanism of fluoride-induced cardiac morphological and functional abnormalities and provides clues for the clinical prevention and treatment of fluorosis.

Abstract Image

氟化钠暴露诱导斑马鱼胚胎的发育毒性和心脏毒性
氟中毒是一个世界性的公共健康问题,其中心脏是一个重要的目标器官。然而,有关其在胚胎发育过程中的毒理机制的研究还很有限。本研究评估了氟化钠(NaF)对斑马鱼胚胎的毒性。我们测定了暴露于 NaF 后斑马鱼胚胎的死亡率、孵化率、表型畸形、心脏功能和形态。随后,我们利用高通量 RNA 测序分析揭示了其分子机制。利用实时逆转录定量 PCR 技术检测了心脏发育关键基因的表达水平。受精后 96 h NaF 对斑马鱼胚胎的 50%致死浓度(LC50)值为 335.75 mg/L。当 NaF 浓度高于 200 mg/L 时,斑马鱼胚胎会出现严重畸形,如心包水肿、卵黄囊水肿、脊柱弯曲、体长缩短、头部面积和眼部面积缩小等。暴露于 NaF 的胚胎心率下降与剂量有关。与对照组相比,暴露于 NaF 组的胚胎静脉窦和球动脉之间的距离明显增加。NaF 组的每搏输出量和心输出量明显下降。与对照组相比,NaF处理组中Gata4、Tbx5a、Hand2、Tnnt2c、Nppa和Myh6的表达水平明显升高。通过转录组测序,在NaF(200 mg/L)处理组中检测到1354个差异表达基因(DEGs),包括1253个上调基因和101个下调基因。对DEGs进行的基因本体功能分析和京都基因组百科全书通路分析表明,心脏相关通路,如肌动蛋白细胞骨架调控、Jak-Stat、PI3k-Akt和Ras,在NaF暴露组中被激活。这项研究揭示了氟诱导心脏形态和功能异常的内在机制,为临床预防和治疗氟中毒提供了线索。
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
CiteScore
7.20
自引率
4.30%
发文量
567
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