Origins and evolution of huntington disease chromosomes

S.E Andrew , M.R Hayden
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引用次数: 27

Abstract

Huntington disease (HD) is one of five neurodegenerative disorders resulting from an expansion of a CAG repeat located within the coding portion of a novel gene. CAG repeat expansion beyond a particular repeat size has been shown to be a specific and sensitive marker for the disease. A strong inverse correlation is evident between CAG length and age of onset. Sporadic cases of HD have been shown to arise from intermediate sized alleles in the unaffected parent. The biochemical pathways underlying the relationship between CAG repeat length and specific cell death are not yet known. However, there is an increasing understanding of how and why specific chromosomes and not others expand into the disease range. Haplotype analysis has demonstrated that certain normal chromosomes, with CAG lengths at the high range of normal, are prone to further expansion and eventually result in HD chromosomes. New mutations preferentially occur on normal chromosomes with these same haplotypes associated with higher CAG lengths. The distribution of different haplotypes on control chromosomes in different populations is thus one indication of the frequency of new mutations for HD within that population. Analysis of normal chromosomes in different populations suggests that genetic factors contribute to expansion and account for the variation in prevalence rates for HD worldwide.

亨廷顿病染色体的起源和进化
亨廷顿病(HD)是由位于新基因编码部分的CAG重复扩增引起的五种神经退行性疾病之一。CAG重复扩增超过特定重复大小已被证明是该疾病的特异性和敏感标记。CAG长度与发病年龄呈明显的负相关。散发性HD病例已被证明是由未受影响的亲本中大小的等位基因引起的。CAG重复序列长度和特异性细胞死亡之间关系的生化途径尚不清楚。然而,人们对特定染色体而不是其他染色体如何以及为什么扩展到疾病范围的理解越来越多。单倍型分析表明,某些CAG长度在正常范围内的正常染色体容易进一步扩增,最终形成HD染色体。新的突变优先发生在具有相同单倍型的正常染色体上,这些单倍型与较高的CAG长度相关。因此,不同人群中控制染色体上不同单倍型的分布是该人群中HD新突变频率的一个指示。对不同人群中正常染色体的分析表明,遗传因素有助于扩大并解释全球HD患病率的差异。
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