Department of Laboratory Medicine & Genetics, Samsung Medical Center, Sungkyunkwan University School of Medicine, Seoul, Korea.
Haemophilia. 2012 Nov;18(6):1008-13. doi: 10.1111/j.1365-2516.2012.02895.x. Epub 2012 Jun 29.
Haemophilia A (HA) is an X-linked recessive bleeding disorder caused by defects in the F8 gene encoding the coagulation factor VIII. Mutation analysis in HA is important to confirm the diagnosis, genotype-phenotype correlations and for genetic counselling and family study. The aim of this study was to detect causative mutations of F8 in severe HA patients in Korea and to correlate the mutation type with the risk of inhibitor development. A total of 100 unrelated Korean patients with severe HA were enrolled for this study. The Nijeman modification of the Bethesda assay was used to determine the presence of inhibitor. Molecular analysis of F8 was performed using a combination of molecular techniques, including long-distance polymerase chain reaction, direct sequencing and multiplex ligation-dependent probe amplification (MLPA). We identified causative mutations in 98% of severe HA patients (98/100). Inv22 and Inv1 mutations were detected in 30 patients and one patient, respectively. A total of 59 unique mutations were identified in 69 non-inversion patients, including 24 novel mutations. The overall prevalence of inhibitor was 26%. Inhibitor risk was highest in patients with large deletion mutations identified using MLPA (100%). Among those with point mutations, the prevalence of inhibitor was highest when the mutation occurred in the A3 and C2 domains (60% and 50%, respectively). The molecular diagnostic strategy involving multiplex PCR, sequencing and dosage analyses identified causative mutations in most cases of severe HA. The high inhibitor risk was associated with large deletion mutations and point mutations in A3 and C2 domains.
血友病 A(HA)是一种 X 连锁隐性出血性疾病,由编码凝血因子 VIII 的 F8 基因缺陷引起。HA 中的突变分析对于确认诊断、基因型-表型相关性以及遗传咨询和家族研究非常重要。本研究旨在检测韩国严重 HA 患者 F8 中的致病突变,并将突变类型与抑制剂发展风险相关联。本研究共纳入 100 名韩国严重 HA 患者。采用 Nijeman 改良的 Bethesda 测定法测定抑制剂的存在。采用包括长距离聚合酶链反应、直接测序和多重连接依赖性探针扩增(MLPA)在内的组合分子技术对 F8 进行分子分析。我们在 98%的严重 HA 患者(98/100)中鉴定出了致病突变。在 30 名患者和 1 名患者中分别检测到 Inv22 和 Inv1 突变。在 69 名非反转患者中,共发现 59 个独特的突变,其中包括 24 个新突变。抑制剂的总体患病率为 26%。在使用 MLPA 鉴定的大缺失突变患者中,抑制剂风险最高(100%)。在点突变患者中,当突变发生在 A3 和 C2 结构域时,抑制剂的患病率最高(分别为 60%和 50%)。涉及多重 PCR、测序和剂量分析的分子诊断策略在大多数严重 HA 病例中确定了致病突变。高抑制剂风险与大缺失突变和 A3 和 C2 结构域的点突变相关。
