Exposure to tungsten particles via inhalation triggers early toxicity marker expression in the rat brain.

IF 2 4区 医学 Q4 TOXICOLOGY Inhalation Toxicology Pub Date : 2024-04-01 Epub Date: 2024-06-05 DOI:10.1080/08958378.2024.2349895
Léo Macé, Chloé Brizais, Florence Bachelot, Annabelle Manoury, Sébastien Thomé, Céline Gloaguen, Imène Garali, Victor Magneron, Virginie Monceau, Amandine Sache, Frédéric Voyer, Christelle Elie, Laurence Roy, François Gensdarmes, Dmitry Klokov, Michelle L Block, Chrystelle Ibanez
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Abstract

Objective: Our work is focused on tungsten, considered as an emerging contaminant. Its environmental dispersion is partly due to mining and military activities. Exposure scenario can also be occupational, in areas such as the hard metal industry and specific nuclear facilities. Our study investigated the cerebral effects induced by the inhalation of tungsten particles.

Methods: Inhalation exposure campaigns were carried out at two different concentrations (5 and 80 mg/m3) in single and repeated modes (4 consecutive days) in adult rats within a nose-only inhalation chamber. Processes involved in brain toxicity were investigated 24 h after exposure.

Results and discussion: Site-specific effects in terms of neuroanatomy and concentration-dependent changes in specific cellular actors were observed. Results obtained in the olfactory bulb suggest a potential early effect on the survival of microglial cells. Depending on the mode of exposure, these cells showed a decrease in density accompanied by an increase in an apoptotic marker. An abnormal phenotype of the nuclei of mature neurons, suggesting neuronal suffering, was also observed in the frontal cortex, and can be linked to the involvement of oxidative stress. The differential effects observed according to exposure patterns could involve two components: local (brain-specific) and/or systemic. Indeed, tungsten, in addition to being found in the lungs and kidneys, was present in the brain of animals exposed to the high concentration.

Conclusion: Our data question the perceived innocuity of tungsten relative to other metals and raise hypotheses regarding possible adaptive or neurotoxic mechanisms that could ultimately alter neuronal integrity.

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吸入钨粒子会引发大鼠大脑中早期毒性标记的表达。
目标:我们的工作重点是钨,它被认为是一种新出现的污染物。钨在环境中的扩散部分是由于采矿和军事活动造成的。在硬金属工业和特定核设施等领域,接触钨的情况也可能是职业性的。我们的研究调查了吸入钨颗粒对大脑的影响:方法:在纯鼻吸入室中对成年大鼠进行两种不同浓度(5 毫克/立方米和 80 毫克/立方米)的吸入暴露试验,分别采用单一和重复模式(连续 4 天)。结果和讨论:在神经解剖学和特定细胞行为体的浓度依赖性变化方面,观察到了特定部位的效应。在嗅球中获得的结果表明,可能会对小胶质细胞的存活产生早期影响。根据暴露方式的不同,这些细胞的密度下降,同时凋亡标记物增加。在额叶皮层也观察到成熟神经元细胞核的异常表型,这表明神经元受到了伤害,可能与氧化应激有关。根据接触模式观察到的不同影响可能涉及两个部分:局部(大脑特异性)和/或系统性。事实上,钨除了存在于肺部和肾脏外,还存在于接触高浓度钨的动物的大脑中:我们的数据对钨相对于其他金属的无害性提出了质疑,并就最终可能改变神经元完整性的适应性或神经毒性机制提出了假设。
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来源期刊
Inhalation Toxicology
Inhalation Toxicology 医学-毒理学
CiteScore
4.10
自引率
4.80%
发文量
38
审稿时长
6-12 weeks
期刊介绍: Inhalation Toxicology is a peer-reviewed publication providing a key forum for the latest accomplishments and advancements in concepts, approaches, and procedures presently being used to evaluate the health risk associated with airborne chemicals. The journal publishes original research, reviews, symposia, and workshop topics involving the respiratory system’s functions in health and disease, the pathogenesis and mechanism of injury, the extrapolation of animal data to humans, the effects of inhaled substances on extra-pulmonary systems, as well as reliable and innovative models for predicting human disease.
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