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Autosomal-dominant macular dystrophy linked to a chromosome 17 tandem duplication

Hereditary macular dystrophies (HMDs) are a genetically diverse group of disorders that cause central vision loss due to photoreceptor and retinal pigment epithelium (RPE) damage. We investigated a family with a presumed novel autosomal-dominant HMD characterized by faint, hypopigmented RPE changes...

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Published in:	JCI insight 2024-12, Vol.9 (23)
Main Authors:	Adele, Rabiat, Hussein, Rowaida, Tavares, Erika, Ahmed, Kashif, Di Scipio, Matteo, Charish, Jason, Liang, Minggao, Monis, Simon, Tumber, Anupreet, Chen, Xiaoyan, Paton, Tara A, Roslin, Nicole M, Eileen, Christabel, Ivakine, Evgueni, Sunny, Nishanth E, Wilson, Michael D, Campos, Eric, Rajala, Raju Vs, Maynes, Jason T, Monnier, Philippe P, Paterson, Andrew D, Héon, Elise, Vincent, Ajoy
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Language:	English
Subjects:	Adult Animals Arachidonate 15-Lipoxygenase - genetics Arachidonate 15-Lipoxygenase - metabolism Chromosome Duplication - genetics Female Humans Macular Degeneration - genetics Macular Degeneration - pathology Male Mice Middle Aged Pedigree Retina - metabolism Retina - pathology Retinal Pigment Epithelium - metabolism Retinal Pigment Epithelium - pathology
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creator	Adele, Rabiat Hussein, Rowaida Tavares, Erika Ahmed, Kashif Di Scipio, Matteo Charish, Jason Liang, Minggao Monis, Simon Tumber, Anupreet Chen, Xiaoyan Paton, Tara A Roslin, Nicole M Eileen, Christabel Ivakine, Evgueni Sunny, Nishanth E Wilson, Michael D Campos, Eric Rajala, Raju Vs Maynes, Jason T Monnier, Philippe P Paterson, Andrew D Héon, Elise Vincent, Ajoy
description	Hereditary macular dystrophies (HMDs) are a genetically diverse group of disorders that cause central vision loss due to photoreceptor and retinal pigment epithelium (RPE) damage. We investigated a family with a presumed novel autosomal-dominant HMD characterized by faint, hypopigmented RPE changes involving the central retina. Genome and RNA sequencing identified the disease-causing variant to be a 560 kb tandem duplication on chromosome 17 [NC_000017.10 (hg19): g.4012590_4573014dup], which led to the formation of a novel ZZEF1-ALOX15 fusion gene, which upregulates ALOX15. ALOX15 encodes a lipoxygenase involved in polyunsaturated fatty acid metabolism. Functional studies showed retinal disorganization and photoreceptor and RPE damage following electroporation of the chimera transcript in mouse retina. Photoreceptor damage also occurred following electroporation with a native ALOX15 transcript but not with a near-null ALOX15 transcript. Affected patients' lymphoblasts demonstrated lower levels of ALOX15 substrates and an accumulation of neutral lipids. We implicated the fusion gene as the cause of this family's HMD, due to mislocalization and overexpression of ALOX15, driven by the ZZEF1 promoter. To our knowledge, this is the first reported instance of a fusion gene leading to HMD or inherited retinal dystrophy, highlighting the need to prioritize duplication analysis in unsolved retinal dystrophies.
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We investigated a family with a presumed novel autosomal-dominant HMD characterized by faint, hypopigmented RPE changes involving the central retina. Genome and RNA sequencing identified the disease-causing variant to be a 560 kb tandem duplication on chromosome 17 [NC_000017.10 (hg19): g.4012590_4573014dup], which led to the formation of a novel ZZEF1-ALOX15 fusion gene, which upregulates ALOX15. ALOX15 encodes a lipoxygenase involved in polyunsaturated fatty acid metabolism. Functional studies showed retinal disorganization and photoreceptor and RPE damage following electroporation of the chimera transcript in mouse retina. Photoreceptor damage also occurred following electroporation with a native ALOX15 transcript but not with a near-null ALOX15 transcript. Affected patients' lymphoblasts demonstrated lower levels of ALOX15 substrates and an accumulation of neutral lipids. We implicated the fusion gene as the cause of this family's HMD, due to mislocalization and overexpression of ALOX15, driven by the ZZEF1 promoter. 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subjects	Adult Animals Arachidonate 15-Lipoxygenase - genetics Arachidonate 15-Lipoxygenase - metabolism Chromosome Duplication - genetics Female Humans Macular Degeneration - genetics Macular Degeneration - pathology Male Mice Middle Aged Pedigree Retina - metabolism Retina - pathology Retinal Pigment Epithelium - metabolism Retinal Pigment Epithelium - pathology
title	Autosomal-dominant macular dystrophy linked to a chromosome 17 tandem duplication
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