Molecular insights into the role of genetic determinants of congenital hypothyroidism.

Q2 Agricultural and Biological Sciences
Genomics and Informatics Pub Date : 2021-09-01 Epub Date: 2021-09-30 DOI:10.5808/gi.21034
Yedukondalu Kollati, Radha Rama Devi Akella, Shaik Mohammad Naushad, Rajesh K Patel, G Bhanuprakash Reddy, Vijaya R Dirisala
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引用次数: 0

Abstract

In our previous studies, we have demonstrated the association of certain variants of the thyroid-stimulating hormone receptor (TSHR), thyroid peroxidase (TPO), and thyroglobulin (TG) genes with congenital hypothyroidism. Herein, we explored the mechanistic basis for this association using different in silico tools. The mRNA 3'-untranslated region (3'-UTR) plays key roles in gene expression at the post-transcriptional level. In TSHR variants (rs2268477, rs7144481, and rs17630128), the binding affinity of microRNAs (miRs) (hsa-miR-154-5p, hsa-miR-376a-2-5p, hsa-miR-3935, hsa-miR-4280, and hsa-miR-6858-3p) to the 3'-UTR is disrupted, affecting post-transcriptional gene regulation. TPO and TG are the two key proteins necessary for the biosynthesis of thyroid hormones in the presence of iodide and H2O2. Reduced stability of these proteins leads to aberrant biosynthesis of thyroid hormones. Compared to the wild-type TPO protein, the p.S398T variant was found to exhibit less stability and significant rearrangements of intra-atomic bonds affecting the stoichiometry and substrate binding (binding energies, ΔG of wild-type vs. mutant: ‒15 vs. ‒13.8 kcal/mol; and dissociation constant, Kd of wild-type vs. mutant: 7.2E-12 vs. 7.0E-11 M). The missense mutations p.G653D and p.R1999W on the TG protein showed altered ΔG (0.24 kcal/mol and 0.79 kcal/mol, respectively). In conclusion, an in silico analysis of TSHR genetic variants in the 3'-UTR showed that they alter the binding affinities of different miRs. The TPO protein structure and mutant protein complex (p.S398T) are less stable, with potentially deleterious effects. A structural and energy analysis showed that TG mutations (p.G653D and p.R1999W) reduce the stability of the TG protein and affect its structure-functional relationship.

Abstract Image

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Abstract Image

先天性甲状腺功能减退症遗传决定因素的分子作用。
在我们之前的研究中,我们已经证明了促甲状腺激素受体(TSHR)、甲状腺过氧化物酶(TPO)和甲状腺球蛋白(TG)基因的某些变异与先天性甲状腺功能减退症的关联。在这里,我们使用不同的硅工具探索了这种关联的机制基础。mRNA 3'-非翻译区(3'-UTR)在转录后水平的基因表达中起着关键作用。在TSHR变体(rs2268477、rs7144481和rs17630128)中,microRNAs (mir) (hsa-miR-154-5p、hsa-miR-376a-2-5p、hsa-miR-3935、hsa-miR-4280和hsa-miR-6858-3p)与3'-UTR的结合亲和力被破坏,影响转录后基因调控。TPO和TG是碘化物和H2O2存在下甲状腺激素生物合成所必需的两个关键蛋白。这些蛋白质稳定性的降低导致甲状腺激素的异常生物合成。与野生型TPO蛋白相比,发现p.S398T变体表现出较低的稳定性和显著的原子内键重排,影响化学统计和底物结合(结合能,ΔG野生型与突变型:-15 vs -13.8 kcal/mol;野生型和突变型的解离常数Kd分别为7.2E-12和7.0E-11 M)。TG蛋白上的p.G653D和p.R1999W错配突变发生了改变ΔG(分别为0.24 kcal/mol和0.79 kcal/mol)。总之,对3'-UTR中TSHR遗传变异的计算机分析表明,它们改变了不同mir的结合亲和力。TPO蛋白结构和突变蛋白复合物(p.S398T)不太稳定,具有潜在的有害作用。结构和能量分析表明,TG突变(p.G653D和p.R1999W)降低了TG蛋白的稳定性,并影响了其结构-功能关系。
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
Genomics and Informatics
Genomics and Informatics Agricultural and Biological Sciences-Ecology, Evolution, Behavior and Systematics
CiteScore
1.90
自引率
0.00%
发文量
0
审稿时长
12 weeks
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