Department of Ophthalmology, Radboud University Medical Center, Nijmegen, the Netherlands.
Department of Ophthalmology, University Hospital of Cologne, Cologne, Germany.
JAMA Ophthalmol. 2016 Mar;134(3):287-93. doi: 10.1001/jamaophthalmol.2015.5592.
Rare variants in the complement genes CFH, CFI, C9, and C3 have been found to be highly associated with age-related macular degeneration (AMD); however, the effect on clinical characteristics and familial segregation by these variants is lacking.
To determine the contribution of rare CFH Arg1210Cys, CFI Gly119Arg, C9 Pro167Ser, and C3 Lys155Gln variants in the development of AMD in 22 multiplex families and to describe clinical differences in carriers vs noncarriers in these families and a large case-control cohort.
DESIGN, SETTING, AND PARTICIPANTS: This retrospective case-control study included 114 affected and 60 unaffected members of 22 multiplex families with AMD as well as 1589 unrelated patients with AMD and 1386 unrelated control individuals enrolled in the European Genetic Database (EUGENDA). Patients were recruited from March 29, 2006, to April 26, 2013, and data were collected from April 20, 2012, to May 7, 2014. All participants underwent an extensive ophthalmic examination and completed a questionnaire. Venous blood samples were obtained from all participants for genetic analysis, including whole-exome sequencing and measurements of complement activation. Data were analyzed from September 23, 2014, to November 4, 2015.
Differences between carriers and noncarriers of rare variants in age at onset of symptoms, the family history of AMD, complement activation levels (C3d:C3 ratio), the presence of reticular pseudodrusen, and AMD phenotype.
Among the 114 affected and 60 unaffected members of 22 multiplex families with AMD and the 1598 unrelated patients with AMD and 1386 controls in the EUGENDA cohort who underwent analysis, the presence of the CFI Gly119Arg, C9 Pro167Ser, or C3 Lys155Gln variant was confirmed in 18 individuals in 5 families but did not completely segregate with the disease. In the case-control cohort, the 91 affected carriers of these variants were younger at symptom onset (mean [SD] age, 67.4 [8.5] vs 71.3 [8.9] years; P = .01) and more often reported a positive family history (35 of 79 [44.3%] vs 367 of 1201 [30.6%]; P = .008) compared with the 1498 noncarriers. Patients with advanced atrophic AMD carried these rare variants more frequently than patients with neovascular AMD (11 of 93 [11.8%] vs 40 of 835 [4.8%]; P = .04).
Previously reported rare variants do not completely segregate within families with AMD. However, patients carrying these rare variants differ clinically from noncarriers by an earlier age at symptom onset, higher prevalence of a positive family history, and AMD phenotype. These results suggest that genetic tests for AMD might be designed to detect common and rare genetic variants, especially in families, because rare variants contribute to the age at onset and progression of the disease.
已发现补体基因 CFH、CFI、C9 和 C3 中的罕见变异与年龄相关性黄斑变性(AMD)高度相关;然而,这些变异对临床特征和家族分离的影响尚不清楚。
确定 22 个多重家族中罕见的 CFH Arg1210Cys、CFI Gly119Arg、C9 Pro167Ser 和 C3 Lys155Gln 变异在 AMD 发病中的作用,并描述这些家族和大型病例对照队列中携带者与非携带者的临床差异。
设计、设置和参与者:本回顾性病例对照研究包括 22 个 AMD 多重家族的 114 名受影响和 60 名未受影响的成员,以及 1589 名无关的 AMD 患者和 1386 名无关的对照个体,这些患者均纳入欧洲遗传数据库(EUGENDA)。患者于 2006 年 3 月 29 日至 2013 年 4 月 26 日招募,数据于 2012 年 4 月 20 日至 2014 年 5 月 7 日收集。所有参与者均接受了广泛的眼科检查并完成了问卷调查。从所有参与者中采集静脉血样进行基因分析,包括全外显子组测序和补体激活测量。数据于 2015 年 11 月 4 日分析。
在 22 个 AMD 多重家族的 114 名受影响和 60 名未受影响的成员以及 EUGENDA 队列中的 1598 名无关 AMD 患者和 1386 名对照个体中,分析了罕见变异在症状发作年龄、AMD 家族史、补体激活水平(C3d:C3 比值)、存在网状假性血管性痴呆和 AMD 表型方面的差异。
在接受分析的 22 个 AMD 多重家族的 114 名受影响和 60 名未受影响的成员以及 EUGENDA 队列中的 1598 名无关 AMD 患者和 1386 名对照个体中,在 5 个家族的 18 名个体中证实存在 CFI Gly119Arg、C9 Pro167Ser 或 C3 Lys155Gln 变异,但这些变异并未完全与疾病分离。在病例对照队列中,这些变异的 91 名受影响的携带者发病年龄更小(平均[标准差]年龄,67.4[8.5]岁比 71.3[8.9]岁;P =.01),更常报告阳性家族史(35 名/79[44.3%]比 367 名/1201[30.6%];P =.008),而非携带者。患有晚期萎缩性 AMD 的患者比患有新生血管性 AMD 的患者更常携带这些罕见变异(11 名/93[11.8%]比 40 名/835[4.8%];P =.04)。
先前报道的罕见变异在 AMD 家族中并未完全分离。然而,与非携带者相比,携带这些罕见变异的患者在发病年龄更早、阳性家族史更常见以及 AMD 表型方面存在差异。这些结果表明,AMD 的遗传检测可能被设计为检测常见和罕见的遗传变异,尤其是在家族中,因为罕见变异会影响疾病的发病年龄和进展。
