Department of Biology, Science and Research Branch, Islamic Azad University, Tehran, Iran.
Biotechnology Department, Pasteur Institute of Iran, Tehran, Iran.
J Trace Elem Med Biol. 2024 Jul;84:127469. doi: 10.1016/j.jtemb.2024.127469. Epub 2024 May 10.
Cadmium (Cd) exposure in mothers can cause respiratory issues in newborns, but the exact toxicity mechanisms are not fully understood. Vitamin D deficiency in Cd-exposed rats is associated with increased cadmium accumulation in tissues. Finding a cost-effective medication that is vital for the body while also reducing the effects of poisoning is crucial in treating poisonings. To investigate the mechanisms of Cd-induced lung toxicity, we examined the impact of prolonged Cd exposure in female rats before pregnancy on newborn lung health, focusing on sera TNF-α level, lung P53, Foxo1 mRNA, and lung VEGF, and BMP-4 protein level. A total of 50 rats were divided into control, Cd, Cd+Vitamin D, Cd+Mg, and Cd + Vitamin D+Mg groups. Cd exposure resulted in higher serum TNF-α levels and a significant rise in P53 mRNA levels. Additionally, the occurrence of hemorrhage, inflammatory cell infiltration, and thickening of alveolar walls decreased following treatment with vitamin D + Mg. Although Cd did not affect the newborns' body weight, it did impair their lung function. These findings suggest that the Cd-induced increase in the P53 gene expression could be alleviated by vitamin D and Mg, along with the elevation of VEGF and BMP-4 proteins and Foxo1 gene expression. The study revealed that environmental toxins can sometimes harm molecules and proteins, leading to damage in critical fetal tissues. However, these issues can be mitigated through essential supplements. STRUCTURED ABSTRACT: The increasing role of Cd in the erratic behavior of numerous biological and molecular entities, notably the development of fetal lung tissue, has made it beneficial to investigate the possible adverse effects of Cd exposure in pregnant mothers and fetal organ development, where instinctive molecular events occur. Researchers are encouraged to create new aspects of medications to reduce clinical symptoms and improve the quality of life due to exposure to metal toxins, particularly in industrialized countries. The present study aimed to evaluate histopathological and molecular modifications of fetal lungs caused by maternal Cd toxicosis and evaluate the possible ameliorating effects of vitamin D and Mg alone and in combination with fetal lung developmental abnormalities, followed by maternal toxin induction, which can be generalized to humans. Fifty female Wistar rats were purchased from the Pasteur Institute of Iran. To induce the model, cadmium at a dose of 2 mg/kg body weight was injected intraperitoneally into the female rats over 28 days before mating (5 days after injection in a week). Afterward, the female rats were randomly divided into type IV polycarbonate cages and mated with healthy male rats. The pregnancy was confirmed by observation of the vaginal plaque, which was subsequently observed, and the number of days of embryo formation was calculated. Subsequently, the pregnant rats were assigned to the following groups and received PBS, vitamin D, Mg, or vitamin D + Mg. At the end of the nine-day treatment period (the 6th day of pregnancy to the 14th day), the neonates were born vaginally, and their body weight and mortality were recorded. The P53 and Foxo1 gene expression levels in the left and right lobes of the homogenized lungs of the newborns in each group were assessed. TNF-alpha was detected in the sera collected from the newborns by ELISA. The isolated left and right lung tissues were homogenized in radioimmunoprecipitation assay (RIPA) buffer and the superior phase was collected to determine the total protein content by Lowry's method and VEGF and BMP-4 protein levels. The obtained lung samples from newborn rats were fixed in a 10% formalin solution for tissue processing. The fixed samples were embedded in paraffin, and serial paraffin sections were prepared for hematoxylin and eosin staining. This study is the first to examine how maternal Cd exposure affects fetal lung development and to estimate the impact of prescribing Mg and vitamin D during pregnancy. The present study assessed the effects of a repeated dose of Cd for 4 weeks before pregnancy on the lung development of newborn rats born to mothers treated with vitamin D and Mg. The results showed that the P53 gene was overexpressed in the model group, while Foxo1 gene expression was downregulated, negatively impacting the lung structure and developmental indices of the fetuses. Therefore, the intake of vitamin D and Mg may contribute to improving the various stages of Cd-induced lung injury by modulating lung inflammation and mucosal secretion while also positively influencing the number of surviving offspring.
镉(Cd)暴露会导致母亲的新生儿出现呼吸道问题,但确切的毒性机制尚不完全清楚。镉暴露大鼠的维生素 D 缺乏与组织中镉蓄积增加有关。寻找一种既对身体有益又能降低中毒影响的经济有效的药物对于治疗中毒至关重要。为了研究镉诱导的肺毒性机制,我们研究了妊娠前雌性大鼠长期暴露于镉对新生儿肺健康的影响,重点研究了血清 TNF-α 水平、肺 P53、Foxo1mRNA 和肺 VEGF、BMP-4 蛋白水平。将 50 只大鼠分为对照组、Cd 组、Cd+维生素 D 组、Cd+Mg 组和 Cd+维生素 D+Mg 组。Cd 暴露导致血清 TNF-α 水平升高,P53mRNA 水平显著升高。此外,维生素 D+Mg 治疗后,出血、炎症细胞浸润和肺泡壁增厚的发生减少。虽然 Cd 没有影响新生儿的体重,但它确实损害了他们的肺功能。这些发现表明,Cd 诱导的 P53 基因表达增加可以通过维生素 D 和 Mg 以及 VEGF 和 BMP-4 蛋白和 Foxo1 基因表达的升高来缓解。该研究表明,环境毒素有时会损害分子和蛋白质,导致胎儿组织中关键细胞的损伤。然而,通过必要的补充剂可以减轻这些问题。 摘要:镉(Cd)在许多生物和分子实体的异常行为中越来越重要,特别是在胎儿肺组织的发育中,因此研究母体 Cd 中毒和胎儿器官发育过程中可能产生的不利影响很有必要,因为在这个过程中会发生本能的分子事件。研究人员鼓励创造新的药物方面,以减少金属毒素暴露引起的临床症状,提高生活质量,特别是在工业化国家。本研究旨在评估母体 Cd 中毒引起的胎儿肺组织的组织病理学和分子改变,并评估维生素 D 和 Mg 单独及联合应用对胎儿肺发育异常的可能改善作用,随后诱导母体毒素,这可以推广到人类。50 只雌性 Wistar 大鼠购自伊朗巴斯德研究所。为了诱导模型,在交配前 28 天(注射后 5 天,一周内),将 2mg/kg 体重的 Cd 腹腔注射到雌性大鼠体内。之后,将雌性大鼠随机分为 IV 型聚碳酸酯笼中,并与健康雄性大鼠交配。通过观察阴道斑块来确认怀孕,随后观察并计算胚胎形成的天数。随后,将怀孕的大鼠分为以下几组,并给予 PBS、维生素 D、Mg 或维生素 D+Mg。在 9 天的治疗期结束时(妊娠第 6 天至第 14 天),新生儿经阴道分娩,记录其体重和死亡率。评估各组新生大鼠左、右肺匀浆中 P53 和 Foxo1 基因的表达水平。通过 ELISA 法检测新生儿血清中 TNF-α 的含量。用放射性免疫沉淀assay(RIPA)缓冲液提取左、右肺组织匀浆,用 Lowry 法测定总蛋白含量,用 VEGF 和 BMP-4 蛋白水平。从新生大鼠肺组织中提取的样本用 10%福尔马林溶液固定用于组织处理。固定样本用石蜡包埋,制备连续石蜡切片,进行苏木精和伊红染色。这项研究首次研究了母体 Cd 暴露如何影响胎儿肺的发育,并估计了在怀孕期间服用 Mg 和维生素 D 的影响。本研究评估了在妊娠前 4 周重复给予 Cd 对母亲用维生素 D 和 Mg 治疗的新生大鼠肺发育的影响。结果表明,模型组 P53 基因过度表达,Foxo1 基因表达下调,对胎儿肺结构和发育指数产生负面影响。因此,维生素 D 和 Mg 的摄入可能通过调节肺炎症和粘膜分泌,同时对存活后代的数量产生积极影响,从而有助于改善 Cd 诱导的肺损伤的各个阶段。
