Abstract
Dominant mutations in GJB2 may lead to various degrees of sensorineural hearing impairment and/or hyperproliferative epidermal disorders. So far studies of dominant GJB2 mutations were mostly limited to case reports of individual patients and families. In this study, we identified 7 families, 11 subjects with dominant GJB2 mutations by sequencing of GJB2 in 2168 Chinese Han probands with sensorineural hearing impairment and characterized the associated spectrum, de novo rate and genotype-phenotype correlation. We identified p.R75Q, p.R75W and p.R184Q as the most frequent dominant GJB2 mutations among Chinese Hans, which had a very high de novo rate (71% of probands). A majority (10/11) of subjects carrying dominant GJB2 mutations exhibited palmoplantar keratoderma in addition to hearing impairment. In two families segregated with additional c.235delC or p.V37I mutations of GJB2, family members with the compound heterozygous mutations exhibited more severe phenotype than those with single dominant GJB2 mutation. Our study suggested that the high de novo mutation rate gives rise to a significant portion of dominant GJB2 mutations. The severity of the hearing and epidermal phenotypes associated with dominant GJB2 mutations may be modified by additional recessive mutations of GJB2.
Highlights
Numerous gap junction proteins, termed as connexins (Cx), are expressed in inner ear and epidermis
Spectrum and phenotypes of dominant GJB2 mutations By mutation screening of GJB2 in 2168 Chinese Han probands with sensorineural hearing loss (HL), we identified 7 (0.32%) probands carrying known dominant GJB2 mutations p.R75Q (n = 3), p.R75W (n = 2) and p.R184Q (n = 2)
We characterized the spectrum, de novo rate and genotype-phenotype correlation of dominant GJB2 mutations associated with hearing and epidermal disorders in Chinese Hans
Summary
Numerous gap junction proteins, termed as connexins (Cx), are expressed in inner ear and epidermis. Mutations in the GJB2 gene, encoding the gap-junction protein connexin 26 (Cx26), may lead to sensorineural hearing loss (HL) and hyperproliferative epidermal disorder. Recessive GJB2 mutations are predominantly associated with non-syndromic HL (DFNB1A, MIM220290) and are the most common cause of hereditary HL [2]. Dominant GJB2 mutations may cause both non-syndromic (DFNA3A, MIM601544) and syndromic HL [3,4]. Differing mostly in various types of epidermal disorders, the syndromic HL associated with dominant GJB2 mutations includes keratitis-ichthyosis-deafness (KID, MIM148210) syndrome, hystrix-like ichthyosis with deafness (HID, MIM602540), palmoplantar keratoderma (PPK, MIM148350) with deafness, Vohwinkel syndrome (MIM124500) and Bart-Pumphrey syndrome (MIM149200). Major epidermal phenotypes associated with dominant GJB2 mutations include ichthyosis, pseudoainhum, palmoplantar hyperkeratosis, knuckle pads and nail abnormalities [5]
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