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Single-cell transcriptome of the mouse retinal pigment epithelium in response to a low-dose of doxorubicin

Hyungwoo Lee, Hoyeon Lee, Jae‐Byoung Chae, Chulwoo Park, Chaekyu Kim, Ja‐Hyoung Ryu, Jiwon Jang, Namshin Kim, Hyewon Chung

2022Communications Biology18 citationsDOIOpen Access PDF

Abstract

Cellular senescence of the retinal pigment epithelium (RPE) is thought to play an important role in vision-threatening retinal degenerative diseases, such as age-related macular degeneration (AMD). However, the single-cell RNA profiles of control RPE tissue and RPE tissue exhibiting cellular senescence are not well known. We have analyzed the single-cell transcriptomes of control mice and mice with low-dose doxorubicin (Dox)-induced RPE senescence (Dox-RPE). Our results have identified 4 main subpopulations in the control RPE that exhibit heterogeneous biological activities and play roles in ATP synthesis, cell mobility/differentiation, mRNA processing, and catalytic activity. In Dox-RPE mice, cellular senescence mainly occurs in the specific cluster, which has been characterized by catalytic activity in the control RPE. Furthermore, in the Dox-RPE mice, 6 genes that have not previously been associated with senescence also show altered expression in 4 clusters. Our results might serve as a useful reference for the study of control and senescent RPE.

Topics & Concepts

Retinal pigment epitheliumSenescenceCell biologyTranscriptomeBiologyMacular degenerationRetinalCellRetinaCellular senescenceGene expressionGeneNeuroscienceGeneticsMedicineBiochemistryOphthalmologyPhenotypeRetinal Development and DisordersRetinal Diseases and TreatmentsSingle-cell and spatial transcriptomics