Gjb3 Gene Mutations in Non-Syndromic Hearing Loss of Bloch, Kurd, and Turkmen Ethnicities in Iran.

BACKGROUND: Hearing loss (HL) is one of the most common heterogeneous congenital disabilities worldwide. Gap junction protein ß-3 (GJB3) gene encodes Connexin31 protein (Cx31). The hereditary type of hearing impairment in this gene are known to cause both autosomal recessive and autosomal dominant form. In addition, GJB3 mutations have been involved in sensorineural deafness, erythrokeratodermia variabilis (EKV), and neuropathy diseases. We aimed to investigate GJB3 mutations in people suffering from HL among three different ethnicities of Iranian population (Baloch, Kurd, and Turkmen). METHODS: In this descriptive study, 50 GJB2-negative non-syndromic hearing loss (NSHL) Iranian individuals from 3 ethnic groups of Baloch (n=17), Kurd (n =15) and Turkmen (n=18) were enrolled. DNA extractions, PCR, and mutation detection was carried out for the two large deletions of the GJB6, del (GJB6 -D13S1830,) and del (GJB6 -D13S1854) followed by direct DNA sequencing method for the GJB3. RESULTS: DNA sequencing of GJB3 was shown a missense heterozygous mutation rs199689484 (NM_024009.3) GJB3: c.340G>A (p.Ala114Thr) in a Baloch patient, and a polymorphism rs35983826 (NM_024009.3) GJB3: c.798C>T (p.Asn266=) in a Turkman patient, in coding region of the GJB3. We did not detect del (GJB6 -D13S1830) and del (GJB6 -D13S1854) among these three ethnicities in Iran. CONCLUSION: Deafness is a heterogeneous disorder. Specific genes and mutations contribute to hearing loss that varies from locus to locus as well as from population to population.

Two novel SLC26A4 mutations in Iranian families with autosomal recessive hearing loss.

OBJECTIVE: Due to the fact that SLC26A4 has been suggested as the second cause of hearing loss (HL) in Iran as well as many other countries, obtaining more comprehensive information about SLC26A4 mutations can facilitate more efficient genetic services to the patients with hereditary hearing loss. This investigation aims to detect genetic cause of two Iranian families with hearing loss. METHODS: In the present study, genetic linkage analysis via 4 short tandem repeat markers linked to SLC26A4 was performed for two consanguineous families originating from Hormozgan and Chaharmahal va Bakhtiari provinces of Iran, co-segregating autosomal recessive hearing loss and showed no GJB2 mutations in our preliminary investigation. For identification of mutations, DNA sequencing of SLC26A4 including all the 21 exons, exon-intron boundaries and the promoter was carried out. RESULTS: The results showed linkage to this gene in both families. After sequencing, two novel SLC26A4 mutations (c.65-66insT in exon 2 and c.2106delG in exon 19) were revealed in the two studied families. CONCLUSION: Results of this study stress the necessity of considering the analysis of SLC26A4 in molecular diagnosis of deafness especially when phenotypes such as goiter or enlarged vestibular aqueduct are present.

Genotyping results of Iranian PCG families suggests one or more PCG locus other than GCL3A, GCL3B, and GCL3C exist.

PURPOSE: To assess whether loci other than GLC3A, GLC3B, and GLC3C are linked to primary congenital glaucoma (PCG). METHODS: The gene CYP1B1 at GLC3A was screened in 19 Iranian PCG probands who had been recruited mostly from among individuals of Turkish ethnicity and individuals from central and eastern Iran. The gene MYOC was screened in patients from this cohort who lacked CYP1B1 mutations and in ten patients previously shown not to carry CYP1B1 mutations. Family members of 19 probands without mutations in either of these genes were recruited for assessment of linkage to GLC3B and GLC3C by genotyping microsatellite markers. In total, 127 individuals, including 35 affected with PCG, were genotyped. RESULTS: Eleven (57.9%) of the newly recruited PCG patients did not carry disease-associated mutations in CYP1B1. Disease-associated MYOC mutations were not observed in any of the patients screened. Inheritance of PCG in all the families was consistent with an autosomal recessive pattern. Linkage to GLC3B and GLC3C was ruled out in nine of the families on the basis of autozygosity mapping and haplotype analysis. CONCLUSIONS: Observation of the absence of linkage to GLC3B and GLC3C in at least nine families without CYP1B1 mutations suggests that at least one PCG-causing locus other than GLC3A, GLC3B, and GLC3C may exist. The disease-causing gene or genes in the novel locus or loci may account for PCG in a notable fraction of Iranian patients.