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Metabolic transcriptomics dictate responses of cone photoreceptors to retinitis pigmentosa

Sang Joon Lee, Douglas Emery, Eric Vukmanic, Yekai Wang, Xiaoqin Lu, Wei Wang, Enzo Fortuny, Robert F. James, Henry J. Kaplan, Yongqing Liu, Jianhai Du, Douglas C. Dean

2023Cell Reports16 citationsDOIOpen Access PDF

Abstract

Most mutations in retinitis pigmentosa (RP) arise in rod photoreceptors, but cone photoreceptors, responsible for high-resolution daylight and color vision, are subsequently affected, causing the most debilitating features of the disease. We used mass spectroscopy to follow 13 C metabolites delivered to the outer retina and single-cell RNA sequencing to assess photoreceptor transcriptomes. The S cone metabolic transcriptome suggests engagement of the TCA cycle and ongoing response to ROS characteristic of oxidative phosphorylation, which we link to their histone modification transcriptome. Tumor necrosis factor (TNF) and its downstream effector RIP3, which drive ROS generation via mitochondrial dysfunction, are induced and activated as S cones undergo early apoptosis in RP. The long/medium-wavelength (L/M) cone transcriptome shows enhanced glycolytic capacity, which maintains their function as RP progresses. Then, as extracellular glucose eventually diminishes, L/M cones are sustained in long-term dormancy by lactate metabolism.

Topics & Concepts

TranscriptomeRetinitis pigmentosaBiologyCell biologyOxidative phosphorylationRetinaGeneticsBiochemistryGene expressionGeneNeuroscienceRetinal Development and Disordersbioluminescence and chemiluminescence researchAdvanced biosensing and bioanalysis techniques
Metabolic transcriptomics dictate responses of cone photoreceptors to retinitis pigmentosa | Litcius