Trio exome sequencing of an optic nerve hypoplasia cohort reveals evidence for polygenic architecture.

IF 1 4区医学 Q4 GENETICS & HEREDITY

Ophthalmic Genetics Pub Date : 2025-08-31 DOI:10.1080/13816810.2025.2540400

Jennifer G Aparicio, Kevin Stachelek, Pamela Garcia-Filion, Brianne Brown, Carly Stewart, David W Craig, Wenhui Laura Li, David Cobrinik, Mark Borchert

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Abstract

Background: Optic nerve hypoplasia (ONH), the leading congenital cause of permanent blindness, is characterized by a retinal ganglion cell (RGC) deficit at birth and frequently associated neurologic and endocrine abnormalities. Multifactorial developmental events are hypothesized to underlie ONH; however, environmental influences are unclear, and genetic causes are under-investigated.

Methods: To identify monogenic, disease-causing variants among ONH patients, exomes from 34 ONH subjects and their parents were sequenced and rare variants identified. Inheritance-modelled variants were evaluated using population frequency, pathogenicity predictions, and mutational constraint metrics. Variants with the strongest genetic effect lacked evidence that they are monogenic and causal. All rare variants were filtered using mutational constraint metrics and pathogenicity predictions. The resultant variant-harboring genes were examined for recurrence within the cohort, gene ontology over-representation, RGC expression, and coincidence with neuro developmental disorder (NDD), autism, and previously proposed ONH genes.

Results: Mutationally constrained genes with potentially pathogenic mutations were enriched in gene ontologies related to neuro developmental processes, were expressed in RGCs at significantly higher levels than random exome variant genes, and were enriched in autism and NDD-associated genes. Including the genes with strong genetic effect variants, these analyses call attention to 161 genes with potentially pathogenic variants that may contribute polygenic risk for ONH.

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视神经发育不全队列的三外显子组测序揭示了多基因结构的证据。

视神经发育不全（ONH）是导致永久性失明的主要先天性原因，其特征是出生时视网膜神经节细胞（RGC）缺陷，并经常伴有神经和内分泌异常。多因素发育事件被假设为ONH的基础；然而，环境影响尚不清楚，遗传原因也未得到充分调查。方法：为鉴定ONH患者的单基因致病变异，对34例ONH患者及其父母的外显子组进行测序，鉴定出罕见变异。使用群体频率、致病性预测和突变约束指标来评估遗传模型变异。具有最强遗传效应的变异缺乏单基因和因果关系的证据。使用突变约束指标和致病性预测过滤所有罕见变异。由此产生的变异基因在队列中被检查是否复发、基因本体过度代表、RGC表达、与神经发育障碍（NDD）、自闭症和先前提出的ONH基因是否重合。结果：具有潜在致病性突变的突变约束基因在与神经发育过程相关的基因本体中富集，在rgc中的表达水平显著高于随机外显子组变异基因，并且在自闭症和ndd相关基因中富集。包括具有强遗传效应变异的基因在内，这些分析引起了人们对161个具有潜在致病性变异的基因的关注，这些基因可能导致ONH的多基因风险。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Ophthalmic Genetics 医学-眼科学

CiteScore

2.40

自引率

8.30%

发文量

126

审稿时长

>12 weeks

期刊介绍： Ophthalmic Genetics accepts original papers, review articles and short communications on the clinical and molecular genetic aspects of ocular diseases.