Objective: This study aimed to primarily discuss the pathogenesis of hereditary coagulation factor Ⅴ (FⅤ) deficiency in a family with a consanguineous cousin marriage. Methods: The coagulation indices of the pedigree (three generations with seven individuals) and the thrombin levels of the proband and his father were assessed. All exons of the F5 gene were analyzed with Sanger sequencing, and a new mutation was confirmed with reverse sequencing. The corresponding sites of the family members were then determined. A set of online software was utilized to predict the conservation and pathogenicity of the mutation site. The pathogenicity of this mutation site was evaluated according to the American College of Medical Genetics and Genomics (ACMG) guidelines. Results: The prothrombin time (PT) and activated partial thromboplastin time (APTT) of the proband were 52.2 s and 108.3 s, respectively. FⅤ activity (FⅤ∶ C) and FⅤ antigen (FⅤ∶Ag) were greatly decreased by 2% and 4%, respectively. The problem was diagnosed as type Ⅰ F Ⅴ deficiency. PT and APTT of the proband's father, mother, and grandfather were slightly higher than the upper limit of the reference range, and FⅤ∶C and FⅤ∶Ag were approximately 50% of normal. The thromboplastin generation assay revealed that the amount of thromboplastin produced by the proband and his father was lower than that of the healthy controls and that the proband's ability to produce thromboplastin was more severely impaired. Sequencing analysis revealed that the proband demonstrated a homozygous missense mutation of c.5128T > C (p.Trp1682Arg) in exon 15 of the F5 gene. The grandfather, father, and mother of the proband were all heterozygous for c.5128 T > C. Conservative analysis revealed that p.Trp1682 was a highly conserved site in the homozygous species, and five online software programs, including Mutation Taster, SIFT, REVEL, PolyPhen-2, and CADD, indicated that the mutation was pathogenic. The ACMG guidelines recommend that the new mutation c.5128 T > C is a possible pathogenic mutation (PM2 + PM3 + PP1 + PP3 + PP4). The comparison of the protein models before and after the mutation revealed that the benzene ring and the hydrogen bond were reduced after the mutation, which changed the local structure of the F Ⅴ protein. Conclusion: The missense mutation c.5128T > C (p. Trp1682Arg) in exon 15 of the F5 gene was initially considered the genetic cause of the FⅤ deficiency family. This mutation is the first report globally, which further enriches the gene-phenotype spectrum of FⅤ deficiency.
目的: 探讨一个姑表近亲结婚导致的遗传性凝血因子Ⅴ(FⅤ)缺陷症家系分子致病机制。 方法: 检测家系成员(3代7人)凝血参数和先证者及其父亲的凝血活酶生成量。用Sanger测序法分析先证者F5基因全部外显子,发现突变位点后反向测序证实,再检测家系成员相应位点。运用多个在线软件预测突变位点的保守性及致病性。依据美国医学遗传学与基因组学学会(ACMG)指南标准化评估该突变点位的致病性。 结果: 先证者凝血酶原时间(PT)、活化部分凝血酶原时间(APTT)分别为52.2 s、108.3 s,FⅤ活性(FⅤ∶C)、FⅤ抗原(FⅤ∶Ag)严重降低(分别为2%、4%),诊断为Ⅰ型FⅤ缺陷症。其父亲、母亲、外祖父的PT和APTT稍高于参考值,FⅤ∶C和FⅤ∶Ag为参考值的50%左右。血浆凝血活酶生成试验显示先证者及其父亲的凝血活酶生成量低于健康对照,先证者凝血活酶生成能力受损更为严重。直接测序结果显示先证者F5基因第15号外显子存在c.5128T>C(p.Trp1682Arg)纯合错义突变。先证者外祖父、父亲、母亲均为c.5128T>C的杂合子。保守性分析显示p.Trp1682为高度保守位点,Mutation taster、SIFT、REVEL、PolyPhen-2、CADD在线软件分析均提示该突变具有致病性。根据ACMG指南,新突变c.5128T>C为可能致病突变(PM2+PM3+PP1+PP3+PP4)。对比突变前后蛋白质模型发现突变后减少了一个苯环及一条氢键,使FⅤ蛋白局部结构发生改变。 结论: F5基因第15外显子c.5128T>C(p.Trp1682Arg)错义突变初步考虑是该FⅤ缺陷症家系的遗传学病因,此突变为国际首次报道。.
Keywords: Coagulation factor Ⅴ deficiency; Consanguineous marriage; Genetic disease; Homozygous mutation.