Medical Laboratory Center, First Medical Center of Chinese PLA General Hospital, Medical School of Chinese PLA, Beijing, China.
Department of Orthopedic Trauma, Peking University People's Hospital, Beijing, China.
Acta Haematol. 2021;144(2):176-181. doi: 10.1159/000507689. Epub 2020 Jun 29.
Mutations in the F10-coding gene can cause factor X (FX) deficiency, leading to abnormal coagulation activity and severe tendency for hemorrhage. Therefore, identifying mutations in F10 is important for diagnosing congenital FX deficiency.
We studied a 63-year-old male patient with FX deficiency and 10 of his family members. Clotting and immunological methods were used to determine activated partial thromboplastin time (aPTT), prothrombin time (PT), thrombin time (TT), fibrinogen levels, FX activity, and FX antigen levels. The platelet count was determined. A mixing study was performed to eliminate the presence of coagulation factor inhibitors and lupus anticoagulant. Mutations were searched using whole-exome sequencing and certified by Sanger sequencing.
Genetic analysis of the proband identified two single-base substitutions: c.1085G>A (p.Ser362Asn) and c.1152C>A (p.Tyr384Ter, termination codon, caused by the DNA sequence TAA). His FX activity and antigen levels were 1.7% and 408.53 pg/mL, respectively; aPTT and PT were 52.3 and 48.0 s, respectively. One brother had the same compound heterozygous mutations, and his FX activity and antigen levels were 1.3% and 465.47 pg/mL, respectively; his aPTT and PT were 65.2 and 54.5 s, respectively. His mother, another brother, and one sister were heterozygous for c.1085G>A (p.Ser362Asn), and his daughter and grandson (6 years old) were heterozygous for c.1152C>A (p.Tyr384Ter).
The heterozygous variants p.Ser362Asn or p.Tyr384Ter indicate mild FX deficiency, but the compound heterozygous mutation of the two causes severe congenital FX deficiency and bleeding. Genetic analysis of these two mutations may help characterize the bleeding tendency and confirm congenital FX deficiency.
F10 编码基因突变可导致因子 X (FX) 缺乏,引起凝血活酶异常和严重出血倾向。因此,鉴定 F10 基因突变对于诊断先天性 FX 缺乏症具有重要意义。
我们研究了一名 63 岁男性 FX 缺乏症患者及其 10 名家族成员。采用凝血和免疫方法测定活化部分凝血活酶时间(aPTT)、凝血酶原时间(PT)、凝血酶时间(TT)、纤维蛋白原水平、FX 活性和 FX 抗原水平。血小板计数。进行混合研究以排除凝血因子抑制剂和狼疮抗凝物的存在。通过全外显子组测序寻找突变,并通过 Sanger 测序进行验证。
对先证者的基因分析发现了两个单碱基替换:c.1085G>A(p.Ser362Asn)和 c.1152C>A(p.Tyr384Ter,终止密码子,由 DNA 序列 TAA 引起)。他的 FX 活性和抗原水平分别为 1.7%和 408.53 pg/mL;aPTT 和 PT 分别为 52.3 和 48.0 s。一位哥哥有相同的复合杂合突变,其 FX 活性和抗原水平分别为 1.3%和 465.47 pg/mL;aPTT 和 PT 分别为 65.2 和 54.5 s。他的母亲、另一个兄弟和一个妹妹为 c.1085G>A(p.Ser362Asn)杂合子,他的女儿和孙子(6 岁)为 c.1152C>A(p.Tyr384Ter)杂合子。
杂合变体 p.Ser362Asn 或 p.Tyr384Ter 提示轻度 FX 缺乏,但这两种复合杂合突变导致严重先天性 FX 缺乏症和出血。对这两种突变的遗传分析可能有助于确定出血倾向并确认先天性 FX 缺乏症。
