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Specialization of the photoreceptor transcriptome by <i>Srrm3</i> -dependent microexons is required for outer segment maintenance and vision

Ludovica Ciampi, Federica Mantica, Laura López-Blanch, Jon Permanyer, Cristina Rodríguez-Marin, Jingjing Zang, Damiano Cianferoni, Senda Jiménez‐Delgado, Sophie Bonnal, Samuel Miravet‐Verde, Verena Ruprecht, Stephan C. F. Neuhauss, Sandro Banfi, Sabrina Carrella, Luís Serrano, Sarah A. Head, Manuel Irimia

2022Proceedings of the National Academy of Sciences46 citationsDOIOpen Access PDF

Abstract

Retinal photoreceptors have a distinct transcriptomic profile compared to other neuronal subtypes, likely reflecting their unique cellular morphology and function in the detection of light stimuli by way of the ciliary outer segment. We discovered a layer of this molecular specialization by revealing that the vertebrate retina expresses the largest number of tissue-enriched microexons of all tissue types. A subset of these microexons is included exclusively in photoreceptor transcripts, particularly in genes involved in cilia biogenesis and vesicle-mediated transport. This microexon program is regulated by Srrm3 , a paralog of the neural microexon regulator Srrm4 . Despite the fact that both proteins positively regulate retina microexons in vitro, only Srrm3 is highly expressed in mature photoreceptors. Its deletion in zebrafish results in widespread down-regulation of microexon inclusion from early developmental stages, followed by other transcriptomic alterations, severe photoreceptor defects, and blindness. These results shed light on the transcriptomic specialization and functionality of photoreceptors, uncovering unique cell type-specific roles for Srrm3 and microexons with implications for retinal diseases.

Topics & Concepts

TranscriptomeBiologyComputer scienceEvolutionary biologyComputer visionArtificial intelligenceGeneticsGeneGene expressionRetinal Development and DisordersPhotoreceptor and optogenetics researchPhotochromic and Fluorescence Chemistry