Targeted next-generation sequencing extends the mutational spectrums for OPA1 mutations in Chinese families with optic atrophy

Abstract

Purpose: We aim to reveal the disease-causing mutations in 15 Chinese families with optic atrophy (OA).

Methods: In total, 15 families with OA were recruited in the present study. Medical histories were carefully reviewed and comprehensive ophthalmic examinations were received by all recruited patients. Targeted next-generation sequencing (NGS) was selectively performed on all probands for mutation detection. Intrafamilial cosegregation and in-silico analyses were subsequently applied to predict the potential pathogenic effects of identified mutations.

Results: All included patients presented bilateral vision loss. Their fundus photographs showed temporal or total pallor of the optic discs. Fourteen mutations in the optic atrophy 1 (OPA1) gene were revealed as disease-causing mutations for the 15 families, including eight novel (c.968A>G, c.193C>G, c.1071dupT, c.987_988del, c.2012+2T>G, c.1036-1G>C, c.2126A>G, and c.1036_1038del) and six recurrent (c.1499G>A, c.1800C>A, c.1034G>A, c.2873_2876del, c.112C>T, and c.804_805del) mutations.

Conclusions: In conclusion, our study expands the mutational spectrum for the OPA1 gene and implies targeted NGS as an effective approach for the genetic diagnosis of OA, which might help to improve the clinical diagnosis for patients with OA.