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In-depth transcriptomic analysis of human retina reveals molecular mechanisms underlying diabetic retinopathy

Kolja Becker, Holger Klein, Eric J. Simon, Coralie Viollet, Christian Haslinger, Germán Leparc, Christian Schultheis, Victor Chong, Markus H. Kuehn, Francesc Fernández-Albert, Remko A. Bakker

2021Scientific Reports84 citationsDOIOpen Access PDF

Abstract

Diabetic Retinopathy (DR) is among the major global causes for vision loss. With the rise in diabetes prevalence, an increase in DR incidence is expected. Current understanding of both the molecular etiology and pathways involved in the initiation and progression of DR is limited. Via RNA-Sequencing, we analyzed mRNA and miRNA expression profiles of 80 human post-mortem retinal samples from 43 patients diagnosed with various stages of DR. We found differentially expressed transcripts to be predominantly associated with late stage DR and pathways such as hippo and gap junction signaling. A multivariate regression model identified transcripts with progressive changes throughout disease stages, which in turn displayed significant overlap with sphingolipid and cGMP-PKG signaling. Combined analysis of miRNA and mRNA expression further uncovered disease-relevant miRNA/mRNA associations as potential mechanisms of post-transcriptional regulation. Finally, integrating human retinal single cell RNA-Sequencing data revealed a continuous loss of retinal ganglion cells, and Müller cell mediated changes in histidine and β-alanine signaling. While previously considered primarily a vascular disease, attention in DR has shifted to additional mechanisms and cell-types. Our findings offer an unprecedented and unbiased insight into molecular pathways and cell-specific changes in the development of DR, and provide potential avenues for future therapeutic intervention.

Topics & Concepts

BiologyTranscriptomemicroRNADiabetic retinopathySignal transductionRetinalBioinformaticsGeneticsGene expressionCell biologyDiabetes mellitusGeneEndocrinologyBiochemistryRetinal Diseases and TreatmentsRetinal Development and DisordersNeuroinflammation and Neurodegeneration Mechanisms