Eisenberger Tobias, Di Donato Nataliya, Baig Shahid M, Neuhaus Christine, Beyer Anke, Decker Eva, Mürbe Dirk, Decker Christian, Bergmann Carsten, Bolz Hanno J
Center for Human Genetics, Ingelheim, Germany.
Hum Mutat. 2014 May;35(5):565-70. doi: 10.1002/humu.22532. Epub 2014 Mar 31.
MYO1A is considered the gene underlying autosomal dominant nonsyndromic hearing loss DFNA48, based on six missense variants, one small in-frame insertion, and one nonsense mutation. Results from NGS targeting 66 deafness genes in 109 patients identified three families challenging this assumption: two novel nonsense (p.Tyr740* and p.Arg262*) and a known missense variant were identified heterozygously not only in index patients, but also in unaffected relatives. Deafness in these families clearly resulted from mutations in other genes (MYO7A, EYA1, and CIB2). Most of the altogether 10 MYO1A mutations are annotated in dbSNP, and population frequencies (dbSNP, 1000 Genomes, Exome Sequencing Project) above 0.1% contradict pathogenicity under a dominant model. One healthy individual was even homozygous for p.Arg262*, compatible with homozygous Myo1a knockout mice lacking any overt pathology. MYO1A seems dispensable for hearing and overall nonessential. MYO1A adds to the list of "erroneous disease genes", which will expand with increasing availability of large-scale sequencing data.
基于六个错义变体、一个小的框内插入和一个无义突变,MYO1A被认为是常染色体显性非综合征性听力损失DFNA48的潜在基因。对109名患者中66个耳聋基因进行靶向测序的结果发现了三个家族对这一假设提出了挑战:在索引患者及其未受影响的亲属中均杂合鉴定出两个新的无义突变(p.Tyr740和p.Arg262)以及一个已知的错义变体。这些家族中的耳聋显然是由其他基因(MYO7A、EYA1和CIB2)的突变引起的。总共10个MYO1A突变中的大多数都在dbSNP中注释,并且群体频率(dbSNP、千人基因组计划、外显子测序计划)高于0.1%与显性模型下的致病性相矛盾。甚至有一名健康个体为p.Arg262*纯合子,这与缺乏任何明显病理特征的Myo1a基因敲除纯合小鼠一致。MYO1A似乎对听力并非必需,总体而言也不重要。MYO1A被列入“错误的疾病基因”名单,随着大规模测序数据可用性的增加,该名单将会扩大。
