PT - JOURNAL ARTICLE AU - Wang, Yingwei AU - Xiao, Xueshan AU - Li, Xueqing AU - Yi, Zhen AU - Jiang, Yi AU - Zhang, Fengsheng AU - Zhou, Lin AU - Li, Shiqiang AU - Jia, Xiaoyun AU - Sun, Wenmin AU - Wang, Panfeng AU - Zhang, Qingjiong TI - Genetic and clinical landscape of <em>ARR3</em>-associated MYP26: the most common cause of Mendelian early-onset high myopia with a unique inheritance AID - 10.1136/bjo-2022-321511 DP - 2023 Oct 01 TA - British Journal of Ophthalmology PG - 1545--1553 VI - 107 IP - 10 4099 - http://bjo.bmj.com/content/107/10/1545.short 4100 - http://bjo.bmj.com/content/107/10/1545.full SO - Br J Ophthalmol2023 Oct 01; 107 AB - Aims To elucidate genetic background of early-onset high myopia (eoHM) and characteristics of ARR3-associated MYP26.Methods Variants in 14 genes reported to contribute to eoHM, including ARR3, were selected from exome sequencing data set and classified into different categories following American College of Medical Genetics and Genomics guidelines based on in silico prediction, associated phenotypes, confirmation and cosegregation analysis. The available clinical data of individuals were summarised.Results Pathogenic and likely pathogenic variants in three of 14 genes were identified in 52 of 928 families with eoHM, including 29 in ARR3, 22 in OPN1LW and 1 in LRPAP1. For ARR3, 24 pathogenic variants (16 truncation and 8 missense) were identified in 66 women and 12 men, in whom 64 women and 4 men had eoHM by X-linked female-limited inheritance. Refraction ranged from −5.00 to −28.75 diopter (−12.58±4.83). Mild-to-moderately reduced cone responses were recorded in 76.9% (10/13) of patients with electroretinogram recordings. Most patients (75.9%, 41/54) had mild myopic fundus changes (C0 to C1). Genotype–phenotype analysis suggested that the myopic retinopathy degree was correlated with age and the variant’s nature. Peripheral retinal degeneration was observed in 38.5% (5/13) patients using wide-field examinations.Conclusion This study reveals ARR3 as the most frequently implicated gene for Mendelian eoHM. Truncations and highly scored missense variants in ARR3 are pathogenic. Myopia due to ARR3 mutations is transmitted in X-linked female-limited inheritance, manifests with mild cone impairment and slowly progresses to pathologic myopia. Identification of the most common cause for Mendelian eoHM provides a valuable starting point into the molecular mechanism of myopia.Data are available upon reasonable request.