Objective: To explore the molecular etiology of Waardenburg syndrome type II (WS2) in a family from Yunnan province, China.
Methods: A total of 406 genes related to hereditary hearing loss were sequenced using next-generation sequencing. DNA samples were isolated from the peripheral blood DNA of probands. Those pathogenic mutations detected by next-generation sequencing in probands and their parents were validated by Sanger sequencing. The conservatism of variation sites in genes was also analyzed. The protein expression was detected by flow cytometry.
Results: A heterozygous mutation c.178delG (p.D60fs*49) in the SOX10 gene was identified in the proband, which is a frameshift mutation and may cause protein loss of function and considered to be a pathogenic mutation. This was determined to be a de novo mutation because her family were demonstrated to be wild-type and symptom free. SOX10, FGFR3, SOX2, and PAX3 protein levels were reduced as determined by flow cytometry.
Conclusion: A novel frameshift mutation in SOX10 gene was identified in this study, which may be the cause of WS2 in proband. In addition, FGFR3, SOX2, and PAX3 might also participate in promoting the progression of WS2.
Keywords: SOX10 gene; Waardenburg syndrome; hearing loss.
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