Plastic Surgery Hospital, Chinese Academy of Medical Sciences and Peking Union Medical College, China; Institute of Basic Medical Sciences Chinese Academy of Medical Sciences, School of Basic Medicine Peking Union Medical College, China.
Institute of Basic Medical Sciences Chinese Academy of Medical Sciences, School of Basic Medicine Peking Union Medical College, China.
Gene. 2020 Oct 5;757:144945. doi: 10.1016/j.gene.2020.144945. Epub 2020 Jul 7.
HOX genes are important regulatory genes patterning head formation, including development of the ear. Microtia is a congenital ear anomaly characterized by lacking all or part of the structures of the outer ear. To date, only four HOXA2 mutations were reported in families with autosomal-recessive or dominant microtia, with or without hearing impairment. More identified mutations are needed to confirm the correlation between genotype and phenotype. Here, we collect two Chinese families with non-syndromic bilateral microtia. Next generation sequencing identified two heterozygous nonsense HOXA2 mutations, one in each family. One mutation (c.637A > T, p.Lys213*) is newly reported, while the other one (c.703C > T,p.Gln235*) is consistent with a previous report. In mouse, Hoxa2 can bind to a long-range enhancer and regulate expression of the Hmx1 gene, which is a crucial transcription factor in eye and ear development. Using dual luciferase reporter assays, we showed that both HOXA2 mutations have impaired activation of the long-range enhancer of HMX1. In the present study, we report the first two bilateral non-syndromic microtia cases with HOXA2 mutations of Chinese origin and identify a novel mutation. Our results also provide molecular insights about how these nonsense HOXA2 mutations could affect the activation of its downstream target HMX1 by interacting with the long-range enhancer.
HOX 基因是重要的调节基因,对头部形成具有重要作用,包括耳朵的发育。小耳畸形是一种先天性外耳畸形,表现为外耳全部或部分缺失。迄今为止,仅在常染色体隐性或显性遗传的小耳畸形家族中报道了四个 HOXA2 突变,伴有或不伴有听力障碍。需要更多的已识别突变来确认基因型与表型之间的相关性。在这里,我们收集了两个有非综合征性双侧小耳畸形的中国家庭。下一代测序鉴定出两个杂合无义 HOXA2 突变,每个家庭一个。一个突变(c.637A>T,p.Lys213*)是新报道的,另一个突变(c.703C>T,p.Gln235*)与之前的报道一致。在小鼠中,Hoxa2 可以与长距离增强子结合,并调节 Hmx1 基因的表达,该基因是眼睛和耳朵发育的关键转录因子。通过双荧光素酶报告基因检测,我们表明这两种 HOXA2 突变都损害了 HMX1 长距离增强子的激活。在本研究中,我们报道了首例源自中国的双侧非综合征性小耳畸形伴 HOXA2 突变的两个病例,并发现了一个新的突变。我们的结果还提供了分子见解,说明这些无义 HOXA2 突变如何通过与长距离增强子相互作用影响其下游靶基因 HMX1 的激活。
