Your search keyword '"Early-onset high myopia"' showing total 2 results

1. Identification of a Novel Frameshift Variant of ARR3 Related to X-Linked Female-Limited Early-Onset High Myopia and Study on the Effect of X Chromosome Inactivation on the Myopia Severity

Author

Xuan Xiao, Jingmin Yang, Ying Li, Hongxia Yang, Yijian Zhu, Lianbing Li, Qinlinglan Zhou, Daru Lu, Ting Chen, and Yafei Tian

Subjects

X-arrestin, arrestin3, ARR3, preimplantation and prenatal genetic testing, General Medicine, X chromosome inactivation, female-limited, early-onset high myopia

Abstract

X-linked myopia 26 (Myopia 26, MIM #301010), which is caused by the variants of ARR3 (MIM *301770), is characterized by female-limited early-onset high myopia (eo-HM). Clinical characteristics include a tigroid appearance in the fundus and a temporal crescent of the optic nerve head. At present, the limited literature on eo-HM caused by ARR3 mutations shows that its inheritance mode is complex, which brings certain difficulties to pre-pregnancy genetic counseling, pre-implantation genetic diagnosis, and prenatal diagnosis. Here, we investigated the genetic underpinning of a Chinese family with eo-HM. Whole exome sequencing of the proband revealed a novel frameshift mutation in ARR3 (NM_004312, exon10, c.666delC, p. Asn222LysfsTer22). Although the mode of inheritance of the eo-HM family fits the X-linked pattern of ARR3, the phenotypes of three patients deviate from the typical early-onset high myopia. Through X-chromosome inactivation experiments, the patient’s different phenotypes can be precisely explained. In addition, this study not only enhanced the correlation between ARR3 and early-onset high myopia but also provided explanations for different phenotypes, which may inspire follow-up studies. Our results enrich the knowledge of the variant spectrum in ARR3 and provide critical information for preimplantation and prenatal genetic testing, diagnosis, and counseling.

Published

2023

2. Next-Generation Sequencing Screening of 43 Families with Non-Syndromic Early-Onset High Myopia: A Clinical and Genetic Study

Author

Eva González-Iglesias, Ana López-Vázquez, Susana Noval, María Nieves-Moreno, María Granados-Fernández, Natalia Arruti, Irene Rosa-Pérez, Marta Pacio-Míguez, Victoria E. F. Montaño, Patricia Rodríguez-Solana, Angela del Pozo, Fernando Santos-Simarro, and Elena Vallespín

Subjects

DNA Mutational Analysis, Organic Chemistry, High-Throughput Nucleotide Sequencing, General Medicine, Catalysis, Pedigree, Computer Science Applications, early-onset high myopia, next-generation sequencing, ophthalmogenetics, Inorganic Chemistry, Mutation, Retinal Dystrophies, Myopia, Humans, Physical and Theoretical Chemistry, Molecular Biology, Spectroscopy

Abstract

Early-onset high myopia (EoHM) is a disease that causes a spherical refraction error of ≥−6 diopters before 10 years of age, with potential multiple ocular complications. In this article, we report a clinical and genetic study of 43 families with EoHM recruited in our center. A complete ophthalmological evaluation was performed, and a sample of peripheral blood was obtained from proband and family members. DNA was analyzed using a customized next-generation sequencing panel that included 419 genes related to ophthalmological disorders with a suspected genetic cause, and genes related to EoHM pathogenesis. We detected pathogenic and likely pathogenic variants in 23.9% of the families and detected variants of unknown significance in 76.1%. Of these, 5.7% were found in genes related to non-syndromic EoHM, 48.6% in genes associated with inherited retinal dystrophies that can include a syndromic phenotype, and 45.7% in genes that are not directly related to EoHM or retinal dystrophy. We found no candidate genes in 23% of the patients, which suggests that further studies are needed. We propose a systematic genetic analysis for patients with EoHM because it helps with follow-up, prognosis and genetic counseling.

Published

2022