[Molecular Pathogenic Mechanism Study of Two Cases of Inherited Dysfibrinogenemia].

Q4 Medicine

中国实验血液学杂志 Pub Date : 2025-02-01 DOI:10.19746/j.cnki.issn.1009-2137.2025.01.027

Min Wang, Tian-Ping Chen, Ao-Shuang Jiang, Cheng-Lin Zhu, Nan Wei, Li-Juan Zhu, Li-Jun Qu, Hong-Jun Liu

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Abstract

Objective: To analyze two families with inherited dysfibrinogenemia, and explore the molecular pathogenic mechanisms.

Methods: The coagulation indexes of the probands and their family members were detected. The FGA, FGB, and FGG exons and their flanking sequences were amplified by PCR, and the mutation sites were identified by sequencing. SIFT, PolyPhen2, LRT, ReVe, MutationTaster, phyloP, and phastCons bioinformatics software were used to predict the functional impact of the mutation sites. Protein structure and amino acid conservation analysis of the variant were conducted using PyMOL and Clustal X software.

Results: The thrombin time (TT) of the proband in family 1 was prolonged to 37.00 s, and Fg∶C decreased to 0.52 g/L. The TT of the proband in family 2 was 20.30 s, and Fg∶C was 1.00 g/L, which was lower than the normal range. Genetic analysis revealed that the proband in family 1 had a heterozygous mutation c.80T>C in FGA, resulting in the substitution of phenylalanine 27 with serine (Phe27Ser). The proband in family 2 had a heterozygous mutation c.1007T>A in FGG, resulting in the substitution of methionine 336 with lysine (Met336Lys). Bioinformatics software prediction analysis indicated that both mutations were deleterious variants. PyMOL mutation models revealed that the Aα chain mutation (Phe27Ser) in family 1 and γ chain mutation (Met336Lys) in family 2 resulted in alterations in spatial structure and reduced protein stability. Clustal X results showed that both Aα Phe27 and γMet336 were highly conserved across homologous species.

Conclusion: Heterozygous mutations of FGA gene c.80T>C and FGG gene c.1007T>A are both pathogenic variants, causing inherited dysfibrinogenemia.

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2例遗传性异常纤维蛋白原血症的分子致病机制研究

目的分析两个遗传性纤维蛋白原不良血症家族，探讨其分子致病机制：方法：检测两个家族成员的凝血指标。通过 PCR 扩增 FGA、FGB 和 FGG 外显子及其侧翼序列，并通过测序确定突变位点。利用 SIFT、PolyPhen2、LRT、ReVe、MutationTaster、phyloP 和 phastCons 等生物信息学软件预测突变位点的功能影响。使用 PyMOL 和 Clustal X 软件对变异体进行了蛋白质结构和氨基酸保护分析：结果：家族 1 中原发性凝血酶时间（TT）延长至 37.00 秒，Fg∶C 下降至 0.52 克/升。家族 2 中的原发性血栓形成时间为 20.30 秒，Fg∶C 为 1.00 克/升，低于正常范围。遗传分析表明，家族 1 中的病例在 FGA 中有一个 c.80T>C 的杂合突变，导致苯丙氨酸 27 被丝氨酸取代（Phe27Ser）。家族 2 中的原告在 FGG 中有一个 c.1007T>A 的杂合突变，导致蛋氨酸 336 被赖氨酸取代（Met336Lys）。生物信息学软件预测分析表明，这两个突变都是有害变异。PyMOL 突变模型显示，家族 1 中的 Aα 链突变（Phe27Ser）和家族 2 中的γ 链突变（Met336Lys）导致了空间结构的改变和蛋白质稳定性的降低。Clustal X结果显示，Aα Phe27和γMet336在同源物种中高度保守：结论：FGA基因c.80T>C和FGG基因c.1007T>A的杂合突变均为致病变异，可导致遗传性纤维蛋白原不良血症。

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