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一个遗传性抗凝血酶缺陷症家系的表型与基因突变分析
引用本文:周星星,谢耀盛,谢海啸,王明山. 一个遗传性抗凝血酶缺陷症家系的表型与基因突变分析[J]. 温州医科大学学报, 2022, 52(12): 993-998. DOI: 10.3969/j.issn.2095-9400.2022.12.007
作者姓名:周星星  谢耀盛  谢海啸  王明山
作者单位:温州医科大学附属第一医院 医学检验中心 浙江省检验诊断及转化研究重点实验室,浙江 温州 325015
基金项目:温州市基础性科研项目(Y20190464);浙江省检验诊断及转化研究重点实验室(2022E10022)。
摘    要:目的:对一例遗传性抗凝血酶(AT)缺陷症患者及其家系成员进行凝血指标和基因表型分析,初步探讨其分子发病机制。方法:在Stago仪器上检测家系各成员外周血的血浆AT活性(AT:A)、AT抗原(AT:Ag)等凝血指标;提取外周血DNA并测序,定位基因突变位点;利用生物信息学软件分析突变对蛋白功能的影响。结果:先证者及其外祖母、父亲、母亲和弟弟的AT:A均有不同程度降低,且AT:Ag同步下降,所有家系成员蛋白S活性(PS:A)和蛋白C活性(PC:A)指标均无明显异常,表现为I型AT缺陷症。基因分析显示:先证者SERPINC1 基因存在第1号外显子c.1A>G杂合错义突变(p.Tyr2stop)以及第5号外显子c.1005G>A杂合同义突变;其父亲携带c.1A>G杂合错义突变,其外婆、母亲和弟弟携带c.1005G>A杂合同义突变。保守性分析显示,Tyr2在同源物种间高度保守;MutationTaster、PolyPhen-2和LRT三个在线生物信息学软件分析均显示p.Tyr2stop突变为“致病的、有害的”;蛋白模型分析显示,p.Tyr2stop突变会引起AT基因翻译过程提前终止,产生截短蛋白。结论:该先证者及家系成员AT:A和AT:Ag不同程度降低与SERPINC1 基因上存在的c.1A>G杂合错义突变和c.1005G>A杂合同义突变有关。

关 键 词:遗传性  抗凝血酶缺陷症  基因突变  血栓形成  
收稿时间:2022-09-20

Phenotype and gene mutation analysis of a family with hereditary antithrombin deficiency
ZHOU Xingxing,XIE Yaosheng,XIE Haixiao,WANG Mingshan. Phenotype and gene mutation analysis of a family with hereditary antithrombin deficiency[J]. JOURNAL OF WENZHOU MEDICAL UNIVERSITY, 2022, 52(12): 993-998. DOI: 10.3969/j.issn.2095-9400.2022.12.007
Authors:ZHOU Xingxing  XIE Yaosheng  XIE Haixiao  WANG Mingshan
Affiliation:Center of Laboratory Medicine, the First Affiliated Hospital of Wenzhou Medical University, Key Laboratory of Clinical Laboratory Diagnosis and Translational Research of Zhejiang Province, Wenzhou 325015, China
Abstract:Objective: To analyze the coagulation index and genotype of a patient with hereditary antithrombin (AT) deficiency and his family members, and to explore its molecular pathogenesis. Methods:The blood coagulation indexes such as plasma AT activity (AT:A) and AT antigen (AT:Ag) in the peripheral blood of each family member were detected on Stago instrument; the peripheral blood DNA was extracted and sequenced, and the gene mutation sites were located. The effect of mutations on protein function was analyzed by bioinformatics software. Results: The AT:A of the proband and his maternal grandmother, father, mother and younger brother all decreased to varying degrees, and AT:Ag decreased synchronously. There were no obvious abnormalities in PC:A and PS:A in all family members, showing type I AT Defects. Genetic analysis showed that the proband had a heterozygous missense mutation of c.1A>G (p.Tyr2stop) in exon 1 of SERPINC1 gene and a heterozygous synonymous mutation of c.1005G>A in exon 5; his father carried c.1A>G heterozygous missense mutation, his grandmother, mother and younger brother carry c.1005G>A heterozygous synonymous mutation.Conservation analysis showed that Tyr2 was highly conserved among homologous species. Analysis made by three online bioinformatics software, i.e., MutationTaster, PolyPhen-2 and LRT, showed that p.Tyr2stop mutation was “pathogenic and harmful”; protein model analysis showed that the p.Tyr2stop mutation could cause premature termination of AT gene translation, resulting in a truncated protein. Conclusion: The AT:A and AT:Ag reduction to different degrees in the proband and family members was related to the c.1A>G heterozygous missense mutationand the c.1005G>A heterosynonymous mutation in the SERPINC1 gene.
Keywords:hereditary  antithrombin deficiency  gene mutation  thrombosis  
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