Warby Simon C, Montpetit Alexandre, Hayden Anna R, Carroll Jeffrey B, Butland Stefanie L, Visscher Henk, Collins Jennifer A, Semaka Alicia, Hudson Thomas J, Hayden Michael R
Centre for Molecular Medicine and Therapeutics, Child and Family Research Institute, University of British Columbia, BC, Canada.
Am J Hum Genet. 2009 Mar;84(3):351-66. doi: 10.1016/j.ajhg.2009.02.003. Epub 2009 Feb 26.
Huntington disease (HD) is an autosomal-dominant disorder that results from >or=36 CAG repeats in the HD gene (HTT). Approximately 10% of patients inherit a chromosome that underwent CAG expansion from an unaffected parent with <36 CAG repeats. This study is a comprehensive analysis of genetic diversity in HTT and reveals that HD patients of European origin (n = 65) have a significant enrichment (95%) of a specific set of 22 tagging single nucleotide polymorphisms (SNPs) that constitute a single haplogroup. The disease association of many SNPs is much stronger than any previously reported polymorphism and was confirmed in a replication cohort (n = 203). Importantly, the same haplogroup is also significantly enriched (83%) in individuals with 27-35 CAG repeats (intermediate alleles, n = 66), who are unaffected by the disease, but have increased CAG tract sizes relative to the general population (n = 116). These data support a stepwise model for CAG expansion into the affected range (>or=36 CAG) and identifies specific haplogroup variants in the general population associated with this instability. The specific variants at risk for CAG expansion are not present in the general population in China, Japan, and Nigeria where the prevalence of HD is much lower. The current data argue that cis-elements have a major predisposing influence on CAG instability in HTT. The strong association between specific SNP alleles and CAG expansion also provides an opportunity of personalized therapeutics in HD where the clinical development of only a small number of allele-specific targets may be sufficient to treat up to 88% of the HD patient population.
亨廷顿舞蹈症(HD)是一种常染色体显性疾病,由HD基因(HTT)中≥36个CAG重复序列引起。约10%的患者从CAG重复序列<36的未患病父母那里遗传了发生CAG扩增的染色体。本研究对HTT中的遗传多样性进行了全面分析,结果显示欧洲血统的HD患者(n = 65)中,构成单个单倍群的一组特定的22个标签单核苷酸多态性(SNP)显著富集(95%)。许多SNP与疾病的关联比之前报道的任何多态性都要强得多,并在一个复制队列(n = 203)中得到了证实。重要的是,在具有27 - 35个CAG重复序列(中间等位基因,n = 66)的个体中,同一单倍群也显著富集(83%),这些个体虽未患病,但相对于普通人群(n = 116),其CAG序列长度增加。这些数据支持了CAG扩增至受影响范围(≥36个CAG)的逐步模型,并确定了普通人群中与这种不稳定性相关的特定单倍群变体。在中国、日本和尼日利亚的普通人群中不存在有CAG扩增风险的特定变体,这些地区HD的患病率要低得多。目前的数据表明,顺式元件对HTT中CAG的不稳定性有主要的易感性影响。特定SNP等位基因与CAG扩增之间的强关联也为HD的个性化治疗提供了机会,在HD中,仅少数等位基因特异性靶点的临床开发可能就足以治疗高达88%的HD患者群体。