H. Al‐Kateb, S. Bähring, K. Hoffmann, K. Strauch, A. Busjahn, G. Nürnberg, M. Jouma, Eckehard K F Bautz, H. A. Dresel, F. Luft
{"title":"ARH基因突变和染色体13q位点影响一种新型遗传-隐性家族性高胆固醇血症的胆固醇水平","authors":"H. Al‐Kateb, S. Bähring, K. Hoffmann, K. Strauch, A. Busjahn, G. Nürnberg, M. Jouma, Eckehard K F Bautz, H. A. Dresel, F. Luft","doi":"10.1161/01.RES.0000018002.43041.08","DOIUrl":null,"url":null,"abstract":"We studied a Syrian family with 3 children who had low-density lipoprotein cholesterol (LDL) concentrations of 13.3, 12.2, and 8.6 mmol/L, respectively. Three other siblings and the parents all had LDL values <4.52 mmol/L, suggesting an autosomal-recessive mode of inheritance. The extended pedigree had 66 additional persons with normal LDL values. A genome-wide scan in the core family with 427 markers showed support for linkage on both chromosomes 1 and 13. Markers on chromosome 1 revealed a 3.07 multipoint LOD score between 1p36.1-p35, an 18-cM interval. Surprisingly, we also found linkage to 13q22-q32, a 14-cM interval, with a 3.08 LOD score. We had identified this locus earlier as containing a gene strongly influencing LDL in another Arab family with autosomal-dominant familial hypercholesterolemia and in normal dizygotic twins. We found evidence for an interaction between these loci. We next genotyped our twin panel and confirmed linkage of the 1p36.1-p35 locus to LDL (P <0.002) in this normal population. Elucidation of ARH, the LDL receptor adaptor protein at chromosome 1p35, caused us to sequence that gene. We first identified the genomic structure of ARH gene and then sequenced the gene in our family. We found an intron 1 acceptor splice-site mutation. This mutation was not found in any other family members, in 31 nonrelated Syrian persons, or in 30 Germans. Our results underscore the importance of ARH on chromosome 1 and the chromosome 13q locus to LDL, not only in families with unusual illnesses, but also to the general population.","PeriodicalId":10314,"journal":{"name":"Circulation Research: Journal of the American Heart Association","volume":"44 1","pages":"951-958"},"PeriodicalIF":0.0000,"publicationDate":"2002-05-17","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"57","resultStr":"{\"title\":\"Mutation in the ARH Gene and a Chromosome 13q Locus Influence Cholesterol Levels in a New Form of Digenic-Recessive Familial Hypercholesterolemia\",\"authors\":\"H. Al‐Kateb, S. Bähring, K. Hoffmann, K. Strauch, A. Busjahn, G. Nürnberg, M. Jouma, Eckehard K F Bautz, H. A. Dresel, F. 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We next genotyped our twin panel and confirmed linkage of the 1p36.1-p35 locus to LDL (P <0.002) in this normal population. Elucidation of ARH, the LDL receptor adaptor protein at chromosome 1p35, caused us to sequence that gene. We first identified the genomic structure of ARH gene and then sequenced the gene in our family. We found an intron 1 acceptor splice-site mutation. This mutation was not found in any other family members, in 31 nonrelated Syrian persons, or in 30 Germans. 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引用次数: 57
摘要
我们研究了一个有3个孩子的叙利亚家庭,他们的低密度脂蛋白胆固醇(LDL)浓度分别为13.3、12.2和8.6 mmol/L。其他3名兄弟姐妹和父母的LDL值均<4.52 mmol/L,提示常染色体隐性遗传模式。扩展谱系中有66人LDL值正常。对核心家族的427个标记进行全基因组扫描显示,1号和13号染色体上都存在连锁。1号染色体上的标记显示,1p36.1-p35之间的多点LOD评分为3.07,间隔为18cm。令人惊讶的是,我们还发现了与13q22-q32的连锁,间隔为14 cm, LOD评分为3.08。我们早前发现,在另一个常染色体显性家族性高胆固醇血症的阿拉伯家族和正常的异卵双胞胎中,这个位点含有一个强烈影响LDL的基因。我们发现了这些基因座之间相互作用的证据。接下来,我们对双胞胎进行基因分型,并确认在正常人群中存在1p36.1-p35位点与LDL的连锁关系(P <0.002)。染色体1p35上的低密度脂蛋白受体衔接蛋白ARH的解析使我们对该基因进行了测序。我们首先确定了ARH基因的基因组结构,然后对我们家族的ARH基因进行了测序。我们发现一个内含子1受体剪接位点突变。在其他家族成员、31名无血缘关系的叙利亚人和30名德国人中均未发现该突变。我们的研究结果强调了ARH在1号染色体和13q染色体上对LDL位点的重要性,不仅在患有罕见疾病的家庭中,而且对一般人群也是如此。
Mutation in the ARH Gene and a Chromosome 13q Locus Influence Cholesterol Levels in a New Form of Digenic-Recessive Familial Hypercholesterolemia
We studied a Syrian family with 3 children who had low-density lipoprotein cholesterol (LDL) concentrations of 13.3, 12.2, and 8.6 mmol/L, respectively. Three other siblings and the parents all had LDL values <4.52 mmol/L, suggesting an autosomal-recessive mode of inheritance. The extended pedigree had 66 additional persons with normal LDL values. A genome-wide scan in the core family with 427 markers showed support for linkage on both chromosomes 1 and 13. Markers on chromosome 1 revealed a 3.07 multipoint LOD score between 1p36.1-p35, an 18-cM interval. Surprisingly, we also found linkage to 13q22-q32, a 14-cM interval, with a 3.08 LOD score. We had identified this locus earlier as containing a gene strongly influencing LDL in another Arab family with autosomal-dominant familial hypercholesterolemia and in normal dizygotic twins. We found evidence for an interaction between these loci. We next genotyped our twin panel and confirmed linkage of the 1p36.1-p35 locus to LDL (P <0.002) in this normal population. Elucidation of ARH, the LDL receptor adaptor protein at chromosome 1p35, caused us to sequence that gene. We first identified the genomic structure of ARH gene and then sequenced the gene in our family. We found an intron 1 acceptor splice-site mutation. This mutation was not found in any other family members, in 31 nonrelated Syrian persons, or in 30 Germans. Our results underscore the importance of ARH on chromosome 1 and the chromosome 13q locus to LDL, not only in families with unusual illnesses, but also to the general population.