Identification of genes required for apical protein trafficking in Drosophila photoreceptor cells

Abstract: Drosophila photoreceptor cells (PRCs) are highly polarized epithelial cells. Their apical membrane is further subdivided into the stalk membrane and the light-sensing rhabdomere. The photo-pigment Rhodopsin1 (Rh1) localizes to the rhabdomere, whereas the apical determinant Crumbs (Crb) is enriched at the stalk membrane. The proteoglycan Eyes shut (Eys) is secreted through the apical membrane into an inter-rhabdomeral space. Rh1, Crb, and Eys are essential for PRC development, normal vision, and PRC survival. H… Show more

“…Notch signalling and Eys function are affected in a similar way, showing a temperature-dependent phenotype indicative of protein misfolding, while Crumbs' trafficking is affected but not its function. Eys and Crumbs biosynthetic traffic share common factors in the fly [ 66 ]. Human EYS also harbours multiple O-glycosylation target sites, with 4–5 of them clustered in a similar way to the fly Eys, suggesting that the O-glycosylation regulatory role in this protein might be conserved [ 64 ].…”

Dissecting the role of EYS in retinal degeneration: clinical and molecular aspects and its implications for future therapy

“…Notch signalling and Eys function are affected in a similar way, showing a temperature-dependent phenotype indicative of protein misfolding, while Crumbs' trafficking is affected but not its function. Eys and Crumbs biosynthetic traffic share common factors in the fly [ 66 ]. Human EYS also harbours multiple O-glycosylation target sites, with 4–5 of them clustered in a similar way to the fly Eys, suggesting that the O-glycosylation regulatory role in this protein might be conserved [ 64 ].…”

Dissecting the role of EYS in retinal degeneration: clinical and molecular aspects and its implications for future therapy