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Abstract
Aging is a significant factor in the development of age-related diseases but how aging disrupts cellular homeostasis to cause age-related retinal disease is unknown. Here, we further our studies on transmembrane protein 135 (Tmem135), a gene involved in retinal aging, by examining the transcriptomic profiles of wild-type, heterozygous and homozygous Tmem135 mutant posterior eyecup samples through RNA sequencing (RNA-Seq). We found significant gene expression changes in both heterozygous and homozygous Tmem135 mutant mouse eyecups that correlate with visual function deficits. Further analysis revealed that expression of many genes involved in lipid metabolism are changed due to the Tmem135 mutation. Consistent with these changes, we found increased lipid accumulation in mutant Tmem135 eyecup samples. Since mutant Tmem135 mice have similar ocular pathologies as human age-related macular degeneration (AMD) eyes, we compared our homozygous Tmem135 mutant eyecup RNA-Seq dataset with transcriptomic datasets of human AMD donor eyes. We found similar changes in genes involved in lipid metabolism between the homozygous Tmem135 mutant eyecups and AMD donor eyes. Our study suggests that the Tmem135 mutation affects lipid metabolism as similarly observed in human AMD eyes, thus Tmem135 mutant mice can serve as a good model for the role of dysregulated lipid metabolism in AMD.
Highlights
Aging is a significant factor in the development of age-related diseases but how aging disrupts cellular homeostasis to cause age-related retinal disease is unknown
We identified one such mouse strain harboring a mutation in transmembrane protein 135 (Tmem135FUN025/FUN025) that displays signs of accelerated aging in the retina as well as pathologies observed in age-related macular degeneration (AMD) including autofluorescent aggregates in the subretinal space, increased inflammation, and thickened retinal pigmented epithelium (RPE) at a young age[3]
Our study suggests that lipid metabolism is a molecular pathway affected by the Tmem[135] mutation as observed in human AMD eyes, Tmem[135] mutant mice can serve as a good model for the role of dysregulated lipid metabolism in AMD
Summary
Aging is a significant factor in the development of age-related diseases but how aging disrupts cellular homeostasis to cause age-related retinal disease is unknown. The polygenic nature of age-related neurodegenerative diseases such as age-related macular degeneration (AMD) and Alzheimer’s disease makes identification of the molecular pathways involved more c hallenging[1,2].mouse mutants showing agerelated symptoms are valuable for isolating genetic factors that contribute to aging and age-related diseases We identified one such mouse strain harboring a mutation in transmembrane protein 135 (Tmem135FUN025/FUN025) that displays signs of accelerated aging in the retina as well as pathologies observed in AMD including autofluorescent aggregates in the subretinal space, increased inflammation, and thickened retinal pigmented epithelium (RPE) at a young age[3]. Our study suggests that lipid metabolism is a molecular pathway affected by the Tmem[135] mutation as observed in human AMD eyes, Tmem[135] mutant mice can serve as a good model for the role of dysregulated lipid metabolism in AMD
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