Peyvandi Flora, Menegatti Marzia, Santagostino Elena, Akhavan Sepideh, Uprichard James, Perry David J, Perkins Stephen J, Mannucci Pier M
Angelo Bianchi Bonomi Haemophilia and Thrombosis Centre, Luigi Villa Foundation, IRCCS Maggiore Hospital and University of Milan, Via Pace, 9-20122 Milan, Italy.
Br J Haematol. 2002 Jun;117(3):685-92. doi: 10.1046/j.1365-2141.2002.03486.x.
Factor X (FX) deficiency is a rare autosomal recessive disorder. The phenotype and genotype of 15 Iranian patients with FX deficiency from 13 unrelated families with a high frequency of consanguinity were analysed. Five different assays identified four patients from three families with a discrepancy between low-FX coagulant activity (FX:C) and higher-FX antigen (FX:Ag) (a type II deficiency). The remaining 11 patients had parallel reductions of FX:C and FX:Ag (a type I deficiency). Nine different homozygous candidate mutations were identified, of which eight were novel. The four type II cases were associated with an Arg(-1)Thr missense mutation in the prepropeptide: Arg(-1) is highly conserved in all vitamin K-dependent proteins. Four type I mutations (Gly78Asp, Cys81Tyr, Gly94Arg and Asp95Glu) were localized to the EGF-1 and EGF-2 domains, for which molecular views showed that the protein folding would be disrupted. The type I mutation Gly222Asp was localized in the catalytic domain of FX, and is sufficiently close to the Asp-His-Ser catalytic triad to disrupt its correct protein folding. The two type I splice site mutations were IVS1+3, A-->T and IVS2-3, T-->G. These novel homozygous FX mutations were consistent with their phenotypes and agree with experimental data from knockout mice, indicating that FX is an essential protein for survival.
因子X(FX)缺乏症是一种罕见的常染色体隐性疾病。分析了来自13个无亲缘关系但近亲结婚频率高的家庭的15名伊朗FX缺乏症患者的表型和基因型。五种不同的检测方法发现,三个家庭中的四名患者存在低FX凝血活性(FX:C)与较高FX抗原(FX:Ag)之间的差异(II型缺乏症)。其余11名患者的FX:C和FX:Ag呈平行降低(I型缺乏症)。鉴定出九个不同的纯合候选突变,其中八个是新发现的。四例II型病例与前肽中的Arg(-1)Thr错义突变相关:Arg(-1)在所有维生素K依赖性蛋白中高度保守。四个I型突变(Gly78Asp、Cys81Tyr、Gly94Arg和Asp95Glu)定位于EGF-1和EGF-2结构域,分子结构显示这些突变会破坏蛋白质折叠。I型突变Gly222Asp定位于FX的催化结构域,与天冬氨酸-组氨酸-丝氨酸催化三联体距离足够近,从而破坏其正确的蛋白质折叠。两个I型剪接位点突变分别为IVS1+3,A→T和IVS2-3,T→G。这些新发现的纯合FX突变与其表型一致,并且与基因敲除小鼠的实验数据相符,表明FX是生存所必需的蛋白质。
