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  • Comprehensive identification of mRNA isoforms reveals the diversity of neural cell-surface molecules with roles in retinal development and disease.

Comprehensive identification of mRNA isoforms reveals the diversity of neural cell-surface molecules with roles in retinal development and disease.

Nature communications (2020-07-06)
Thomas A Ray, Kelly Cochran, Chris Kozlowski, Jingjing Wang, Graham Alexander, Martha A Cady, William J Spencer, Philip A Ruzycki, Brian S Clark, Annelies Laeremans, Ming-Xiao He, Xiaoming Wang, Emily Park, Ying Hao, Alessandro Iannaccone, Gary Hu, Olivier Fedrigo, Nikolai P Skiba, Vadim Y Arshavsky, Jeremy N Kay
RÉSUMÉ

Genes encoding cell-surface proteins control nervous system development and are implicated in neurological disorders. These genes produce alternative mRNA isoforms which remain poorly characterized, impeding understanding of how disease-associated mutations cause pathology. Here we introduce a strategy to define complete portfolios of full-length isoforms encoded by individual genes. Applying this approach to neural cell-surface molecules, we identify thousands of unannotated isoforms expressed in retina and brain. By mass spectrometry we confirm expression of newly-discovered proteins on the cell surface in vivo. Remarkably, we discover that the major isoform of a retinal degeneration gene, CRB1, was previously overlooked. This CRB1 isoform is the only one expressed by photoreceptors, the affected cells in CRB1 disease. Using mouse mutants, we identify a function for this isoform at photoreceptor-glial junctions and demonstrate that loss of this isoform accelerates photoreceptor death. Therefore, our isoform identification strategy enables discovery of new gene functions relevant to disease.