Regulatory connections of the folate cycle and pituitary-thyroid hormones in children from areas affected by the accident at the Chernobyl nuclear power plant

Yu.I. Bandazhevskyi, N. Dubova
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Abstract

The aim of this article is to formulate a scientific conception about the regulatory connections of the folate cycle (FC) and the pituitary-thyroid axis based on the results of the authors’ research conducted when examining children from areas affected by the Chоrnobyl accident. Materials and methods: analytical, bibliographic. The research materials are published research articles by the authors. Results. During the statistical and correlation analysis of metabolic parameters of children from areas bordering the Chоrnobyl nuclear power plant, an association was revealed between FC and hormones of the pituitary-thyroid axis. A scientific conception is presented about the participation of homocysteine (Hcy) in the regulation of hormonogenesis of the thyroid gland (TG), according to which Hcy activates the synthesis of thyroid-stimulating hormone (TSH) in the cells of the adenohypophysis (AH). In turn, TSH activates the process of T4 deodination with the formation of T3 in peripheral tissues. At the same time, Hcy is also directly involved in the formation of cysteine, a component of the coenzyme part of 5-Di deiodinase, which also enhances the process of T3 formation. T3, acting on the MTHFR FC, enhances the formation of CH3-MTHF, and thereby activates the process of Hcy methylation. A decrease in the concentration of Hcy in the blood leads to a decrease in the formation of TSH in AG cells. Thus, T3 blocks the synthesis of TSH, through FC, enhancing the process of Hcy methylation. Conclusions. The regulation of the interaction between hypertension and the thyroid gland is carried out using the sulfur-containing amino acid Hcy, a product of methionine metabolism. THS production is not suppressed by T3, but by a decrease in Hcy blood concentration associated with T3 effects on FC. The increase in Hcy content in the blood of children from settlements located near the Chоrnobyl Nuclear Power Plant is due to mutation of the genes responsible for the synthesis of the main FC enzymes, as well as exposure to radionuclides incorporated into their body. The state of hyperhomocysteinemia can cause changes in thyroid hormone metabolism, creating the illusion of hypothyroidism.
切尔诺贝利核电站事故受灾地区儿童体内叶酸循环与垂体-甲状腺激素的调节关系
本文旨在根据作者对来自切尔诺贝利核电站事故受灾地区儿童的研究结果,对叶酸循环(FC)和垂体-甲状腺轴的调控关系提出科学构想。材料和方法:分析、文献。研究材料为作者发表的研究文章。研究结果在对切尔诺贝利核电站周边地区儿童的新陈代谢参数进行统计和相关分析期间,发现 FC 与垂体-甲状腺轴激素之间存在关联。研究提出了同型半胱氨酸(Hcy)参与调节甲状腺(TG)激素生成的科学概念,根据该概念,Hcy 会激活腺嗜酸细胞(AH)中促甲状腺激素(TSH)的合成。反过来,促甲状腺激素又会激活 T4 的脱碘过程,并在外周组织中形成 T3。同时,Hcy 还直接参与半胱氨酸的形成,半胱氨酸是 5-Di 脱碘酶辅酶部分的组成成分,也会促进 T3 的形成过程。T3 作用于 MTHFR FC,促进 CH3-MTHF 的形成,从而激活 Hcy 甲基化过程。血液中 Hcy 浓度的降低会导致 AG 细胞中 TSH 的形成减少。因此,T3 通过 FC 阻止促甲状腺激素的合成,从而促进 Hcy 甲基化过程。结论高血压与甲状腺之间的相互作用是通过含硫氨基酸 Hcy(蛋氨酸代谢的产物)来调节的。THS的产生并不受T3的抑制,而是受到与T3对FC的影响相关的Hcy血液浓度下降的抑制。来自切尔诺贝利核电站附近居民点的儿童血液中 Hcy 含量增加的原因是负责合成主要 FC 酶的基因发生了突变,以及接触了他们体内的放射性核素。高同型半胱氨酸血症会导致甲状腺激素代谢发生变化,造成甲状腺功能减退的假象。
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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