Identification of Novel Functional Null Allele of SLC26A4 Associated with Enlarged Vestibular Aqueduct and Its Possible Implication.

[pendred syndrome]

Mutations in the SLC 26 A 4 gene , which encodes pendrin , cause congenital hearing loss as a manifestation of Pendred syndrome (PS ) with an iodide organification defect or nonsyndromic enlarged vestibular aqueduct (NSEVA , DFNB 4 ). There have been reports of differences between PS and NSEVA , including their auditory phenotypes and molecular genetic bases . For appropriate genetic diagnosis and counseling , it is important to functionally characterize SLC 26 A 4 variants . In this study , we identified and evaluated a novel null mutation of SLC 26 A 4 and report our method of assessing the pathogenic potential of mutations in SLC 26 A 4 , one of the most frequent causative genes of deafness in humans . A 3 -year -old female with progressive sensorineural hearing loss and her parents were recruited . They underwent clinical , audiological , radiological and genetic evaluations , which revealed that the female patient had an enlarged vestibular aqueduct and an incomplete partition type II anomaly in the cochlea bilaterally . Sanger sequencing of the SLC 26 A 4 gene was also performed . For a confirmatory genetic diagnosis , we first characterized the anion /base exchange ability of mutant pendrin products in HEK 293 cells and , if necessary , evaluated whether the mutant pendrin traffics to the plasma membrane in COS -7 cells . We also expressed a null function mutant , p .H 723 R , and a previously documented polymorphism , p .P 542 R , as controls . The pure tone average was 66 dB HL in the right ear and 75 dB HL in the left ear . Sequencing of SLC 26 A 4 revealed a known pathogenic mutation (p .H 723 R ) and a novel missense variant (p .V 510 D ) as a compound heterozygote . When we expressed the p .V 510 D mutant pendrin in mammalian cells , the rate constants for Cl (-)/HCO 3 (-) exchange were 10 .96 ± 4 .79 % compared with those of wild-type pendrin . This figure was comparable to that of p .H 723 R , indicating p .V 510 D to be another pathogenic mutation with a null function . The p .V 510 D pendrin product was shown to be entrapped in the endoplasmic reticulum (ER ) at 24 -30 h after transfection , and not trafficked to the plasma membrane in COS -7 cells , suggesting retention in the ER and abnormal trafficking as the pathogenic mechanism . This was similar to p .H 723 R , which is a null function founder mutant in this population but is a candidate variant for future drug therapy to rescue the abnormal cell trafficking . Impaired cellular trafficking due to ER retention and abolished exchange activity of the newly detected p .V 510 D indicates the pathogenic potential of this variant . These missense variants may be good candidate variants for drug therapy if the intrinsic exchange activity is not damaged by the change . © 2014 S . Karger AG , Basel .