Finsterer Josef, Fellinger Johannes
Department of Neurology, Krankenanstalt Rudolfstiftung, Vienna, Austria.
Int J Pediatr Otorhinolaryngol. 2005 May;69(5):621-47. doi: 10.1016/j.ijporl.2004.12.002.
Half of the cases with congenital impaired hearing are hereditary (HIH). HIH may occur as part of a multisystem disease (syndromic HIH) or as disorder restricted to the ear and vestibular system (nonsyndromic HIH). Since nonsyndromic HIH is almost exclusively caused by cochlear defects, affected patients suffer from sensorineural hearing loss. One percent of the total human genes, i.e. 300-500, are estimated to cause syndromic and nonsyndromic HIH. Of these, approximately 120 genes have been cloned thus far, approximately 80 for syndromic HIH and 42 for nonsyndromic HIH. In the majority of the cases, HIH manifests before (prelingual), and rarely after (postlingual) development of speech. Prelingual, nonsyndromic HIH follows an autosomal recessive trait (75-80%), an autosomal dominant trait (10-20%), an X-chromosomal, recessive trait (1-5%), or is maternally inherited (0-20%). Postlingual nonsyndromic HIH usually follows an autosomal dominant trait. Of the 41 mutated genes that cause nonsyndromic HIH, 15 cause autosomal dominant HIH, 15 autosomal recessive HIH, 6 both autosomal dominant and recessive HIH, 2 X-linked HIH, and 3 maternally inherited HIH. Mutations in a single gene may not only cause autosomal dominant, nonsyndromic HIH, but also autosomal recessive, nonsyndromic HIH (GJB2, GJB6, MYO6, MYO7A, TECTA, TMC1), and even syndromic HIH (CDH23, COL11A2, DPP1, DSPP, GJB2, GJB3, GJB6, MYO7A, MYH9, PCDH15, POU3F4, SLC26A4, USH1C, WFS1). Different mutations in the same gene may cause variable phenotypes within a family and between families. Most cases of recessive HIH result from mutations in a single locus, but an increasing number of disorders is recognized, in which mutations in two different genes (GJB2/GJB6, TECTA/KCNQ4), or two different mutations in a single allele (GJB2) are involved. This overview focuses on recent advances in the genetic background of nonsyndromic HIH.
先天性听力受损病例中有一半是遗传性的(遗传性听力损失,HIH)。HIH可能是多系统疾病的一部分(综合征性HIH),也可能是仅限于耳朵和前庭系统的疾病(非综合征性HIH)。由于非综合征性HIH几乎完全由耳蜗缺陷引起,受影响的患者会出现感音神经性听力损失。据估计,人类基因总数的1%,即300 - 500个基因,会导致综合征性和非综合征性HIH。其中,迄今为止已克隆了约120个基因,约80个与综合征性HIH相关,42个与非综合征性HIH相关。在大多数情况下,HIH在言语发育之前(语前)出现,很少在言语发育之后(语后)出现。语前非综合征性HIH遵循常染色体隐性遗传特征(75 - 80%)、常染色体显性遗传特征(10 - 20%)、X染色体隐性遗传特征(1 - 5%)或母系遗传(0 - 20%)。语后非综合征性HIH通常遵循常染色体显性遗传特征。在导致非综合征性HIH的41个突变基因中,15个导致常染色体显性HIH,15个导致常染色体隐性HIH,6个导致常染色体显性和隐性HIH,2个导致X连锁HIH,3个导致母系遗传HIH。单个基因的突变不仅可能导致常染色体显性非综合征性HIH,还可能导致常染色体隐性非综合征性HIH(GJB2、GJB6、MYO6、MYO7A、TECTA、TMC1),甚至综合征性HIH(CDH23、COL11A2、DPP1、DSPP、GJB2、GJB3、GJB6、MYO7A、MYH9、PCDH15、POU3F4、SLC26A4、USH1C、WFS1)。同一基因的不同突变可能在一个家族内部和不同家族之间导致不同的表型。大多数隐性HIH病例是由单个位点的突变引起的,但越来越多被认识到的疾病涉及两个不同基因(GJB2/GJB6、TECTA/KCNQ4)的突变,或单个等位基因中的两个不同突变(GJB2)。本综述重点关注非综合征性HIH遗传背景的最新进展。
