Clinical manifestations of dual-gene variants involving ABCA4 in retinal dystrophies
Lasse Wolfram, David A. Merle, Laura Kühlewein, Milda Reith, Melanie Kempf, Krunoslav Stingl, Tobias Haack, Pascale Mazzola, Karin Poths, Nicole Weisschuh, Bernd Wissinger, Susanne Kohl, Katarina Stingl

TL;DR
This study explores how combinations of ABCA4 and other gene variants affect retinal diseases, showing that multiple genes can influence the severity and type of vision loss.
Contribution
The study identifies how dual-gene variants involving ABCA4 interact to produce complex retinal dystrophy phenotypes.
Findings
Dual-gene variants involving ABCA4 and CACNA1F, IMPG1, HK1, or MYO7A lead to distinct retinal dystrophy phenotypes.
ABCA4 variants can have a subtle role when combined with other gene mutations, such as in Usher syndrome or retinitis pigmentosa.
Accurate genotype-phenotype assessment is crucial for understanding complex genetic interactions in inherited retinal diseases.
Abstract
This study investigates the clinical manifestations of inherited retinal diseases (IRD) associated with dual-gene variant constellations involving biallelic ABCA4 variants. We assess four cases for their unique phenotypic outcomes due to biallelic ABCA4 variants and additional genotypes in CACNA1F, IMPG1, HK1 and MYO7A, respectively. This study investigates the phenotypic impact of dual-gene variants, including biallelic ABCA4 variants and additional retinal gene variants in CACNA1F, IMPG1, HK1 and MYO7A. In MST465-II:1, the ABCA4-CACNA1F constellation led to progressive macular atrophy and night blindness, with nystagmus linked to CACNA1F. In MST448-II:1, ABCA4 variants primarily contributed to a macular dystrophy, while the IMPG1 variant had no obvious impact, suggesting it may be a benign polymorphism. In SRP1400-II:1, a de novo HK1 variant caused retinitis pigmentosa (RP)-like…
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Taxonomy
TopicsRetinal Development and Disorders · RNA regulation and disease · Cellular transport and secretion
