Department of Otorhinolaryngology-Head and Neck Surgery, Seoul National University Hospital, Seoul, South Korea.
Sensory Organ Research Institute, Seoul National University Medical Research Center, Seoul, South Korea.
Ear Hear. 2022;43(6):1698-1707. doi: 10.1097/AUD.0000000000001237. Epub 2022 Jun 17.
Sensorineural hearing loss is the most common sensory disorder in humans. Genetic analyses have greatly increased our understanding of the pathogenic mechanisms in play. Thus, characterization of audiologic phenotypes by the genetic etiology may aid elucidation of the etiologies of certain types of inherited hearing loss. Further, delineation of specific audiologic phenotypes based on the genetic etiology aids our understanding of some types of inherited hearing loss in terms of the prediction of clinical course, revelation of genotype-phenotype correlations, and application of appropriate audiologic rehabilitation. Here, we describe the interesting audiologic characteristics of LMX1A -associated deafness, which revealed significant asymmetry between two ears.
Among 728 probands of which genomic DNA went through exome sequencing regardless of any specific audiologic phenotypes, probands for which exome sequencing was performed and a causative LMX1A variant was found were all included. Five LMX1A -associated DFNA7 families (approximately 0.7%), the pedigrees of whom indicated autosomal-dominant hearing loss, were identified, and segregation was studied using Sanger sequencing. The affected individuals underwent comprehensive evaluations, including medical history reviews, physical examinations, imaging, and auditory phenotyping. We functionally characterized the novel LMX1A variants via computational structural modeling and luciferase reporter assays.
Among 728 probands of which genomic DNA went through exome sequencing, we identified four novel LMX1A heterozygous variants related to DFNA7 (c.622C>T:p.Arg208*, c.719A>G:p.Gln240Arg, c.721G>A:p.Val241Met, and c.887dup:p.Gln297Thrfs41) and one harboring a de novo heterozygous missense LMX1A variant (c.595A>G;p.Arg199Gly) previously reported. It is important to note that asymmetric hearing loss was identified in all probands and most affected individuals, although the extent of asymmetry varied. Structural modeling revealed that the two missense variants, p.Gln240Arg and p.Val241Met, affected conserved residues of the homeodomain, thus attenuating LMX1A-DNA interaction. In addition, Arg208-induced premature termination of translation destroyed the structure of the LMX1A protein, including the DNA-binding homeodomain, and p.Gln297Thrfs41 led to the loss of the C-terminal helix involved in LIM2 domain interaction. Compared with the wild-type protein, all mutant LMX1A proteins had significantly reduced transactivation efficiency, indicating that the ability to elicit transcription of the downstream target genes of LMX1A was severely compromised. Thus, in line with the American College of Medical Genetics and Genomics guideline specified to genetic hearing loss, the four novel LMX1A variants were identified as "pathogenic" (p.Arg208 and p.Gln297Thrfs*41), "likely pathogenic" (p.Val241Met), and as a "variant of uncertain significance'' (p.Gln240Arg).
For the first time, we suggest that LMX1A is one of the candidate genes which, if altered, could be associated with dominantly inherited asymmetric hearing loss. We also expand the genotypic spectrum of disease-causing variants of LMX1A causing DFNA7 by doubling the number of LMX1A variants reported thus far in the literature.
感音神经性听力损失是人类最常见的感觉障碍。遗传分析极大地提高了我们对致病机制的理解。因此,通过遗传病因学对听力学表型进行特征描述,可能有助于阐明某些类型遗传性听力损失的病因。此外,基于遗传病因学对特定的听力学表型进行描述,有助于我们根据临床病程的预测、基因型-表型相关性的揭示以及适当的听力学康复来理解某些类型的遗传性听力损失。在这里,我们描述了 LMX1A 相关耳聋的有趣听力学特征,其表现出两个耳朵之间显著的不对称性。
在对任何特定的听力学表型都进行外显子组测序的 728 名先证者中,我们纳入了所有进行外显子组测序并发现了致病 LMX1A 变异的先证者。鉴定出了 5 个 LMX1A 相关的 DFNA7 家族(约 0.7%),这些家族的系谱表明为常染色体显性遗传性听力损失,并通过 Sanger 测序研究了其遗传分离。受影响的个体接受了全面评估,包括病史回顾、体格检查、影像学和听觉表型。我们通过计算结构建模和荧光素酶报告基因检测对新的 LMX1A 变异进行了功能表征。
在对 728 名进行外显子组测序的先证者中,我们发现了 4 个与 DFNA7 相关的新的 LMX1A 杂合变异(c.622C>T:p.Arg208*,c.719A>G:p.Gln240Arg,c.721G>A:p.Val241Met,和 c.887dup:p.Gln297Thrfs41)和一个携带先前报道的新生杂合错义 LMX1A 变异(c.595A>G:p.Arg199Gly)。重要的是,所有先证者和大多数受影响的个体都存在不对称性听力损失,尽管不对称程度有所不同。结构建模显示,两种错义变异 p.Gln240Arg 和 p.Val241Met 影响同源域的保守残基,从而减弱了 LMX1A-DNA 相互作用。此外,Arg208诱导的翻译提前终止破坏了 LMX1A 蛋白的结构,包括 DNA 结合同源域,而 p.Gln297Thrfs41 导致涉及 LIM2 结构域相互作用的 C 末端螺旋丢失。与野生型蛋白相比,所有突变型 LMX1A 蛋白的转录激活效率显著降低,表明 LMX1A 下游靶基因的转录能力严重受损。因此,根据美国医学遗传学与基因组学学院指定的遗传性听力损失指南,这 4 个新的 LMX1A 变异被确定为“致病性”(p.Arg208和 p.Gln297Thrfs*41)、“可能致病性”(p.Val241Met)和“意义不明的变异”(p.Gln240Arg)。
我们首次提出 LMX1A 是导致显性遗传性不对称听力损失的候选基因之一。我们还通过将迄今为止文献中报道的 LMX1A 致病变异的数量增加一倍,扩展了 LMX1A 引起的 DFNA7 疾病变异的基因型谱。
