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The primary cilium is a highly conserved organelle housing specialized molecules responsible for receiving and processing extracellular signals. A recently discovered property shared across many cilia is the ability to release small vesicles called ectosomes, which are used for exchanging protein and genetic material among cells. In this study, we report a novel role for ciliary ectosomes in building the elaborate photoreceptor outer segment filled with hundreds of tightly packed "disc" membranes. We demonstrate that the photoreceptor cilium has an innate ability to release massive amounts of ectosomes. However, this process is suppressed by the disc-specific protein peripherin, which enables retained ectosomes to be morphed into discs. This new function of peripherin is performed independently from its well-established role in maintaining the high curvature of disc edges, and each function is fulfilled by a separate part of peripherin's molecule. Our findings explain how the outer segment structure evolved from the primary cilium to provide photoreceptor cells with vast membrane surfaces for efficient light capture. © 2017 Salinas et al.


Raquel Y Salinas, Jillian N Pearring, Jin-Dong Ding, William J Spencer, Ying Hao, Vadim Y Arshavsky. Photoreceptor discs form through peripherin-dependent suppression of ciliary ectosome release. The Journal of cell biology. 2017 May 01;216(5):1489-1499

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PMID: 28381413

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