Alharbi Khalid K, Spanakis Emmanuel, Tan Karen, Smith Matt J, Aldahmesh Mohammed A, O'Dell Sandra D, Sayer Avan Aihie, Lawlor Debbie A, Ebrahim Shah, Davey Smith George, O'Rahilly Stephen, Farooqi Sadaf, Cooper Cyrus, Phillips David I W, Day Ian N M
Human Genetics Division, School of Medicine, University of Southampton, Southampton General Hospital, Southampton, United Kingdom.
Hum Mutat. 2007 Mar;28(3):294-302. doi: 10.1002/humu.20404.
Identification of unknown mutations has remained laborious, expensive, and only viable for studies of selected cases. Population-based "reference ranges" of rarer sequence diversity are not available. However, the research and diagnostic interpretation of sequence variants depends on such information. Additionally, this is the only way to determine prevalence of severe, moderate, and silent mutations and is also relevant to the development of screening programs. We previously described a system, meltMADGE, suitable for mutation scanning at the population level. Here we describe its application to a population-based study of MC4R (melanocortin 4 receptor) mutations, which are associated with obesity. We developed nine assays representing MC4R and examined a population sample of 1,100 subjects. Two "paucimorphisms" were identified (c.307G>A/p.Val103Ile in 27 subjects and c.-178A>C in 22 subjects). Neither exhibited any anthropometric effects, whereas there would have been >90% power to detect a body mass index (BMI) effect of 0.5 kg/m(2) at P=0.01. Two "private" variants were also identified. c.335C>T/p.Thr112Met has been previously described and appears to be silent. A novel variant, c.260C>A/p.Ala87Asp, was observed in a subject with a BMI of 31.5 kg/m(2) (i.e., clinically obese) but not on direct assay of a further 3,525 subjects. This mutation was predicted to be deleterious and analysis using a cyclic AMP (cAMP) responsive luciferase reporter assay showed substantial loss of function of the mutant receptor. This population-based mutation scan of MC4R suggests that there is no severe MC4R mutation with high prevalence in the United Kingdom, but that obesity-causing MC4R mutation at 1 in 1,100 might represent one of the commonest autosomal dominant disorders in man.
未知突变的鉴定一直都很费力、昂贵,并且仅适用于特定病例的研究。目前尚无基于人群的罕见序列多样性“参考范围”。然而,序列变异的研究和诊断解读依赖于此类信息。此外,这是确定严重、中度和沉默突变患病率的唯一方法,并且与筛查项目的开展也相关。我们之前描述了一种系统,即熔解MADGE,适用于人群水平的突变扫描。在此,我们描述其在一项基于人群的黑素皮质素4受体(MC4R)突变研究中的应用,该突变与肥胖相关。我们开发了九种针对MC4R的检测方法,并对1100名受试者的人群样本进行了检测。鉴定出了两种“寡态性”(27名受试者中存在c.307G>A/p.Val103Ile,22名受试者中存在c.-178A>C)。两者均未表现出任何人体测量学效应,而在P=0.01时,检测体重指数(BMI)效应为0.5 kg/m²的效力本应有>90%。还鉴定出了两种“私人”变异。c.335C>T/p.Thr112Met此前已有描述,似乎是沉默变异。在一名BMI为31.5 kg/m²(即临床肥胖)的受试者中观察到一种新变异c.260C>A/p.Ala87Asp,但在另外3525名受试者的直接检测中未发现。该突变预计具有有害性,使用环磷酸腺苷(cAMP)反应性荧光素酶报告基因检测分析显示突变受体功能大幅丧失。这项基于人群的MC4R突变扫描表明,在英国不存在高患病率的严重MC4R突变,但1100分之一的致肥胖MC4R突变可能是人类最常见的常染色体显性疾病之一。
