山东大学耳鼻喉眼学报 ›› 2022, Vol. 36 ›› Issue (4): 27-34.doi: 10.6040/j.issn.1673-3770.0.2022.190

• • 上一篇    下一篇

耳聋基因panel在耳聋基因诊断中的临床应用

张艳红1, 李娟娟1, 曾宪海1, 缑灵山2, 王朝霞1, 魏建芳1, 马芳1, 邱书奇1   

  1. 1. 深圳市耳鼻咽喉研究所/深圳市龙岗区耳鼻咽喉医院 耳鼻咽喉科, 广东 深圳 518172;
    2. 徐州市妇幼保健院遗传医学中心, 江苏 徐州 221009
  • 出版日期:2022-07-20 发布日期:2022-07-11
  • 通讯作者: 曾宪海. E-mail:zxhklwx@163.com
  • 基金资助:
    深圳市医学重点学科建设经费(SZXK039);深圳市龙岗区科技发展专项资金-医疗卫生科技计划项目(LGKCYLWS2019000898)

Clinical application of target gene panel testing in genetic diagnosis of deafness

ZHANG Yanhong1, LI Juanjuan1, ZENG Xianhai1, GOU Lingshan2, WANG Zhaoxia1, WEI Jianfang1, MA Fang1, QIU Shuqi1   

  1. 1. Department of Otolaryngology, Longgang E.N.T. Hospital & Shenzhen Key laboratory of E.N.T, Institute of E.N.T, Shenzhen 518172, Guangdong, China;
    2. Center for Genetic Medicine, Xuzhou Maternity and Child Health Care Hospital, Xuzhou 221009, Jiangsu, China
  • Online:2022-07-20 Published:2022-07-11

PDF (PC)

202

摘要: 目的 探讨耳聋基因panel技术在耳聋患者基因诊断中的应用。 方法 40例耳聋患者首先采用荧光定量PCR结合Sanger测序法检测4个常见耳聋基因的25个位点突变,初检结果单杂合致病突变者行耳聋基因单基因测序或耳聋基因panel检测;初检结果未发现耳聋基因致病性突变者直接行耳聋基因panel检测。16例患者行父母耳聋基因溯源验证。 结果 40例患者中,耳聋基因筛查检出GJB2基因纯合或复合杂合突变8例、单杂合突变2例,SLC26A4基因纯合突变1例、单杂合突变2例。4例单杂合突变检出者接受进一步的耳聋单基因或耳聋基因panel测序,其中2例分别检出GJB2基因c.235delC/c.610delC及c.235delC/c.109G>A复合杂合突变,2例检出SLC26A4基因c.919-2A>G/c.1548_1549insC复合杂合突变。27例初检结果阴性患者接受了进一步的耳聋基因panel检测,检出GJB2基因c.109G>A纯合突变4例和c.571T>C/c.G109A复合杂合突变1例,MYO7A基因c.397dupC/c.3484A>T复合杂合突变1例,MYO15A 基因c.4779+2T>C/c.5008-2A>G复合杂合突变1例,ACTG1基因c.118C>T单杂合突变1例,CDH23基因c.1765G>A/c.6504T>A及c.6049G>A/c.7225-1G>A复合杂合突变各1例。在16例行父母溯源的耳聋患者中,15例患者耳聋基因突变分别遗传自其父母。 结论 对于耳聋基因热点突变检测结果阴性的耳聋患者,应用耳聋基因panel能有效提高遗传性致病基因检出效率,为其遗传学诊断和临床治疗提供依据。

关键词: 耳聋, GJB2基因, SLC26A4基因, MYO7A基因, 耳聋基因panel

Abstract: Objective This study aimed to explore the application of the deafness gene panel in the genetic analysis of patients with hearing loss. Methods The combination of real-time polymerase chain reaction(PCR)and Sanger sequencing was used to identify the 25 mutations of four common deafness genes in 40 deaf patients. Patients with heterozygous mutations, detected via deafness gene sequencing, underwent further single deafness gene sequencing or target gene panel testing. Those with negative real-time PCR results underwent target gene panel testing. The parents of the 16 patients underwent genetic analysis to identify inherited mutations. Results Among the 40 patients, there were eight patients with a homozygous or compound heterozygous mutation in the GJB2 gene and two patients with a single heterozygous mutation, according to the deafness genetic screening. Moreover, one patient had a homozygous mutation, while two had a single heterozygous mutation in the SLC26A4 gene. The four patients with single heterozygous mutations underwent further single deafness gene sequencing or target gene panel testing. Two patients had the compound heterozygous mutation, GJB2 c.235delC/c.610delC or c.235delC/c.109G>A. Meanwhile, two patients had SLC26A4 c.919-2A>G/c.1548_1549insC. Among the 27 patients with negative real-time PCR results, there were four patients with the homozygous mutation, GJB2 c.109G>A, one patient with c.571T>C/c.G109A, one patient with MYO7A c.397dupC/c.3484A>T, one patient with MYO15A c.4779+2T>C/c.5008-2A>G, and one patient with the heterozygous mutation, ACTG1 c.118C>T, based on target gene panel testing. Additionally, there were two patients with the compound heterozygous mutations, CDH23 c.1765G>A/c.6504T>A and c.6049G>A/c.7225-1G>A, respectively. Among the 16 patients, 15 inherited the deafness genetic mutations from their parents, according to the genetic analysis. Conclusion The deafness gene panel improved the genetic diagnostic rate among deaf patients with negative results of hotspot deafness gene mutations.

Key words: Deafness, GJB2 gene, SLC26A4 gene, MYO7A gene, Deafness gene panel

中图分类号: 

  • R764.43
[1] Lieu JEC, Kenna M, Anne S, et al. Hearing loss in children: a review[J]. JAMA, 2020, 324(21): 2195-2205. doi:10.1001/jama.2020.17647.
[2] Alford RL, Arnos KS, Fox M, et al. American College of Medical Genetics and Genomics guideline for the clinical evaluation and etiologic diagnosis of hearing loss[J]. Genet Med, 2014, 16(4): 347-355. doi:10.1038/gim.2014.2.
[3] 刘畅, 黄演林, 汪安石, 等. 阶梯式耳聋基因诊断策略及其临床实践[J]. 分子诊断与治疗杂志, 2022, 14(1): 6-9. doi:10.19930/j.cnki.jmdt.2022.01.002. LIU Chang, HUANG Yanlin, WANG Anshi, et al. A step-by-step approach for hearing loss diagnosis and its clinical practice[J]. Journal of Molecular Diagnostics and Therapy, 2022, 14(1): 6-9. doi:10.19930/j.cnki.jmdt.2022.01.002.
[4] 刘学忠, 欧阳小梅, Denise Yan, 等. 中国人群遗传性耳聋研究进展[J]. 中华耳科学杂志, 2006, 4(2): 81-89. doi:10.3969/j.issn.1672-2922.2006.02.001. LIU Xuezhong, OUYANG Xiaomei, Denise Yan, et al. The genetic deafness in Chinese population[J]. Chinese Journal of Otology, 2006, 4(2): 81-89. doi:10.3969/j.issn.1672-2922.2006.02.001.
[5] 徐丽娜, 高艳慧, 何双八. 南京地区耳聋患者常见耳聋基因突变的分析[J]. 山东大学耳鼻喉眼学报, 2019, 33(6): 45-48. doi:10.6040/j.issn.1673-3770.0.2019.184. XU Lina, GAO Yanhui, HE Shuangba. Analysis of common deafness genes for hearing loss in Nanjing[J]. Journal of Otolaryngology and Ophthalmology of Shandong University, 2019, 33(6): 45-48.doi:10.6040/j.issn.1673-3770.0.2019.184.
[6] Shang HQ, Yan D, Tayebi N, et al. Targeted next-generation sequencing of a deafness gene panel(MiamiOtoGenes)analysis in families unsuitable for linkage analysis[J]. Biomed Res Int, 2018, 2018: 3103986. doi:10.1155/2018/3103986.
[7] Xie L, Qiu Y, Jin Y, et al. Hearing screening combined with target gene panel testing increased etiological diagnostic yield in deaf children[J]. Neural Plast, 2021, 2021: 6151973. doi:10.1155/2021/6151973.
[8] Boudewyns A, van den Ende J, Sommen M, et al. Role of targeted next generation sequencing in the etiological work-up of congenitally deaf children[J]. Otol Neurotol, 2018, 39(6): 732-738. doi:10.1097/MAO.0000000000001847.
[9] Tropitzsch A, Schade-Mann T, Gamerdinger P, et al. Diagnostic yield of targeted hearing loss gene panel sequencing in a large German cohort with a balanced age distribution from a single diagnostic center: an eight-year study[J]. Ear Hear, 2022, 43(3): 1049-1066. doi:10.1097/AUD.0000000000001159.
[10] Richards S, Aziz N, Bale S, et al. Standards and guidelines for the interpretation of sequence variants: a joint consensus recommendation of the American College of Medical Genetics and Genomics and the Association for Molecular Pathology[J]. Genet Med, 2015, 17(5): 405-424. doi:10.1038/gim.2015.30.
[11] 王继. 遗传性耳聋的基因研究进展[J]. 医学综述, 2013, 19(3): 442-444. doi:10.3969/j.issn.1006-2084.2013.03.020. WANG Ji. Advances of study in gene of hereditary hearing impairment[J]. Medical Recapitulate, 2013, 19(3): 442-444. doi:10.3969/j.issn.1006-2084.2013.03.020.
[12] 孙菲菲, 胡松群, 唐艳, 等. 高通量基因捕获测序技术在12个耳聋家庭中的应用[J]. 山东大学耳鼻喉眼学报, 2017, 31(5): 45-49. doi:10.6040/j.issn.1673-3770.0.2017.351. SUN Feifei, HU Songqun, TANG Yan, et al. A next-generation sequencing gene panel for molecular diagnosis in twelve Chinese families with non-syndromic sensorineural hearing loss[J]. Journal of Otolaryngology and Ophthalmology of Shandong University, 2017, 31(5): 45-49.10.6040/j.issn.1673-3770.0.2017.351.
[13] 黄丽丽, 吴玉璘, 林宁, 等. 江苏省部分地区孕前人群耳聋基因微阵列芯片筛查及遗传咨询[J]. 听力学及言语疾病杂志, 2018, 26(6): 590-595. doi:10.3969/j.issn.1006-7299.2018.06.006. HUANG Lili, WU Yulin, LIN Ning, et al. Pre-pregnancy population screening of deafness gene micro-array and genetic consultation in Jiangsu[J]. Journal of Audiology and Speech Pathology, 2018, 26(6): 590-595. doi:10.3969/j.issn.1006-7299.2018.06.006.
[14] 王现蕾, 王雪瑶, 赵雪雷, 等. 儿童GJB2基因p.V37I位点突变与耳聋临床表型的相关性研究[J]. 中华耳科学杂志, 2019, 17(2): 227-233. doi:10.3969/j.issn.1672-2922.2019.02.017. WANG Xianlei, WANG Xueyao, ZHAO Xuelei, et al. Correlation between p.V37I mutation(c.109G & gt;A)in GJB2 and clinical phenotype of hearing loss in children[J]. Chinese Journal of Otology, 2019, 17(2): 227-233. doi:10.3969/j.issn.1672-2922.2019.02.017.
[15] Du YT, Huang LH, Cheng XH, et al. Analysis of p.V37I compound heterozygous mutations in the GJB2 gene in Chinese infants and young children[J]. Biosci Trends, 2016, 10(3): 220-226. doi:10.5582/bst.2016.01096.
[16] Shen J, Oza AM, del Castillo I, et al. Consensus interpretation of the p.Met34Thr and p.Val37Ile variants in GJB2 by the ClinGen Hearing Loss Expert Panel[J]. Genet Med, 2019, 21(11): 2442-2452. doi:10.1038/s41436-019-0535-9.
[17] Boucher S, Tai FWJ, Delmaghani S, et al. Ultrarare heterozygous pathogenic variants of genes causing dominant forms of early-onset deafness underlie severe presbycusis[J]. Proc Natl Acad Sci USA, 2020, 117(49): 31278-31289. doi:10.1073/pnas.2010782117.
[18] Peddu D, Amin S, Ying YLM. Characterization of sensorineural hearing loss in patients with MYH9-related disease: a systematic review[J]. Otol Neurotol, 2021, 43(3): e298-e308. doi:10.1097/mao.0000000000003450.
[19] Fakin A, Bonnet C, Kurtenbach A, et al. Characteristics of retinitis pigmentosa associated with ADGRV1 and comparison with USH2A in patients from a multicentric usher syndrome study treatrush[J]. Int J Mol Sci, 2021, 22(19): 10352. doi:10.3390/ijms221910352.
[20] Honda K, Griffith AJ. Genetic architecture and phenotypic landscape of SLC26A4-related hearing loss[J]. Hum Genet, 2022, 141(3/4): 455-464. doi:10.1007/s00439-021-02311-1.
[21] Tsukada K, Nishio SY, Hattori M, et al. Ethnic-specific spectrum of GJB2 and SLC26A4 mutations: their origin and a literature review[J]. Ann Otol Rhinol Laryngol, 2015, 124(Suppl 1): 61S-76S. doi:10.1177/0003489415575060.
[22] 袁永一, 黄莎莎, 王国建, 等. 27个省市聋校学生基于SLC26A4基因IVS7-2A>G突变的全序列分析[J]. 中华耳科学杂志, 2011, 9(1): 17-23. doi:10.3969/j.issn.1672-2922.2011.01.005. YUAN Yongyi, HUANG Shasha, WANG Guojian, et al. Sequencing analysis of entire SLC26A4 gene with focus on IVS7-2A>G mutation in 2352 patients with moderate to profound SNHL in China[J]. Chinese Journal of Otology, 2011, 9(1): 17-23. doi:10.3969/j.issn.1672-2922.2011.01.005.
[23] Roesch S, Rasp G, Sarikas A, et al. Genetic determinants of non-syndromic enlarged vestibular aqueduct: a review[J]. Audiol Res, 2021, 11(3): 423-442. doi:10.3390/audiolres11030040.
[24] Farjami M, Fathi M, Ghasemi MM, et al. Investigation of MYO15A and MYO7A mutations in Iranian patients with nonsyndromic hearing loss[J]. Fetal Pediatr Pathol, 2021, 40(2): 121-130. doi:10.1080/15513815.2019.1686790.
[25] Zhang J, Guan J, Wang HY, et al. Genotype-phenotype correlation analysis of MYO15A variants in autosomal recessive non-syndromic hearing loss[J]. BMC Med Genet, 2019, 20(1): 60. doi:10.1186/s12881-019-0790-2.
[26] Chen K, Huang B, Sun J, et al. Cochlear implantation outcomes in children with CDH23 mutations-associated hearing loss[J]. Otolaryngol Head Neck Surg, 2021,9:1945998211057427. doi:10.1177/01945998211057427.
[27] Zhang LM, Cheng JL, Zhou Q, et al. Targeted next-generation sequencing identified novel compound heterozygous variants in the CDH23 gene causing usher syndrome type ID in a Chinese patient[J]. Front Genet, 2020, 11: 422. doi:10.3389/fgene.2020.00422.
[1] 石安妮,张佳佳,白鹏,张重阳. 浅析“颈部七线法”针刺治疗突发性耳聋的内涵[J]. 山东大学耳鼻喉眼学报, 2022, 36(4): 103-107.
[2] 钟丽萍,官希龙,王晶晶,汤勇. 鼓室与全身应用激素治疗突发性耳聋的系统评价与Meta分析[J]. 山东大学耳鼻喉眼学报, 2021, 35(5): 1-10.
[3] 林育珊,卢标清. 从心脾论治突发性耳聋的疗效观察[J]. 山东大学耳鼻喉眼学报, 2020, 34(6): 6-11.
[4] 梁敏, 吴悔, 陈建勇, 张勤, 李姝娜, 郑贵亮, 何景春, 陈向平, 杨军. 前庭诱发肌源性电位预测突聋患者疗效的临床价值[J]. 山东大学耳鼻喉眼学报, 2020, 34(5): 27-32.
[5] 吴悔, 梁敏, 陈建勇, 张勤, 李姝娜, 郑贵亮, 何景春, 陈向平, 杨军. 全聋型突发性耳聋患者的预后与前庭症状及前庭功能关系的回顾性分析[J]. 山东大学耳鼻喉眼学报, 2020, 34(5): 33-38.
[6] 徐丽娜,高艳慧,何双八. 南京地区耳聋患者常见耳聋基因突变的分析[J]. 山东大学耳鼻喉眼学报, 2019, 33(6): 45-48.
[7] 刘军,冀飞,李万鑫. 重度-极重度感音性聋老年人人工耳蜗植入的初步探讨[J]. 山东大学耳鼻喉眼学报, 2017, 31(5): 10-15.
[8] 王启荣, 于淑东, 古林涛. 人工耳蜗植入术前评估[J]. 山东大学耳鼻喉眼学报, 2017, 31(5): 16-18.
[9] 孙菲菲,胡松群,唐艳,张洁,吴笛,邱金红,王志霞,张鲁平. 高通量基因捕获测序技术在12个耳聋家庭中的应用[J]. 山东大学耳鼻喉眼学报, 2017, 31(5): 45-49.
[10] 邓月,徐亚平,彭浒,陶绮蕾,范静平,孙爱华,吴建. 铁必复颗粒治疗缺铁感音神经性聋患者的疗效分析[J]. 山东大学耳鼻喉眼学报, 2017, 31(1): 75-79.
[11] 刘双双,牛玉萍,孙越,弭兆元,史桂芝. 山东省非综合征型耳聋患者十四项遗传性耳聋基因突变筛查结果分析[J]. 山东大学耳鼻喉眼学报, 2016, 30(4): 63-68.
[12] 蒋路云, 谢慧, 谢艳, 李昕蓉. 鼓室注射布地奈德混悬液治疗合并2型糖尿病的突发性耳聋42例[J]. 山东大学耳鼻喉眼学报, 2015, 29(3): 20-23.
[13] 周晓娓, 虞幼军, 赵远新, 刘振, 郑立岗. 传导性或混合性耳聋患者佩戴骨锚式助听器软带的预期效果[J]. 山东大学耳鼻喉眼学报, 2015, 29(2): 28-30.
[14] 严小玲, 毛敏, 翟锦明, 陈观贵, 张建国, 刘绮明, 薛进平. 鼓室内注射治疗难治性突发性耳聋52例[J]. 山东大学耳鼻喉眼学报, 2014, 28(5): 23-26.
[15] 张莹莹,梁耕田,刘莉,卢岭,刘金炎. 骨髓神经组织定向干细胞移植修复听神经损伤模型大鼠的实验研究[J]. 山东大学耳鼻喉眼学报, 2013, 27(5): 32-36.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
[1] 周斌,李滨 . 鼻内窥镜下鼻窦鼻息肉手术75例疗效观察[J]. 山东大学耳鼻喉眼学报, 2006, 20(1): 24 -26 .
[2] 张玉光,韩旭光,张华,王旭,徐湘辉 . 改良穿透性角膜移植术治疗真菌性角膜炎[J]. 山东大学耳鼻喉眼学报, 2006, 20(1): 94 -95 .
[3] 隆梅辉,何明强,牟艳云,田利健 . 上颌窦炎性肌纤维母细胞瘤1例并文献复习[J]. 山东大学耳鼻喉眼学报, 2008, 22(4): 329 -330 .
[4] 邹 俊,卢 奕,褚仁远 . 体外培养人胚晶状体上皮细胞生长特性的研究[J]. 山东大学耳鼻喉眼学报, 2008, 22(5): 453 -456 .
[5] 夏文清,郑 敏,满晓飞,李建平 . 手法劈核治疗老年性白内障[J]. 山东大学耳鼻喉眼学报, 2008, 22(5): 467 -469 .
[6] 李学昌,王金磊,张玉莉,董文汇,韩在文 . 中药冲洗对鼻黏膜纤毛超微结构的影响[J]. 山东大学耳鼻喉眼学报, 2006, 20(6): 522 -524 .
[7] 康宏建,李晓红,王保安,周 涛 . 重型颅脑损伤患者行气管切开术的意义[J]. 山东大学耳鼻喉眼学报, 2007, 21(3): 234 -236 .
[8] 闫 蕊,朱淋洁 . 翼状胬肉显微手术切除后角膜干细胞移植[J]. 山东大学耳鼻喉眼学报, 2007, 21(3): 243 -244 .
[9] 黄 方,朱从月 . p21、p73及PTEN在头颈部多原发癌中的表达及意义[J]. 山东大学耳鼻喉眼学报, 2007, 21(5): 388 -392 .
[10] 徐豪杰,李学忠,陈成芳,王学海 . 鼻内镜下鼻腔泪囊吻合术17例[J]. 山东大学耳鼻喉眼学报, 2008, 22(2): 132 -134 .
网站版权所有 © 2018 《山东大学耳鼻喉眼学报》编辑部 
地址:山东省济南市山大南路27号(250100)电话:+86-0531-88366912 E-mail: ebhxb@sdu.edu.cn
本系统由北京玛格泰克科技发展有限公司设计开发