Super-resolution microscopy reveals photoreceptor-specific subciliary location and function of ciliopathy-associated protein CEP290
Autor: | Theodore G. Wensel, Valencia L. Potter, Abigail R. Moye, Michael A. Robichaux |
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Rok vydání: | 2020 |
Předmět: |
Retinal degeneration
Cell Cycle Proteins Biology Mouse models Ciliopathies chemistry.chemical_compound Mice Microtubule Antigens Neoplasm Ciliogenesis medicine Animals Humans Cilia Retinopathy Ciliary membrane Microscopy Cilium Retinal General Medicine Cell Biology medicine.disease Cell biology Ciliopathy Cytoskeletal Proteins Disease Models Animal Ophthalmology chemistry Research Article Genetic diseases |
Zdroj: | JCI Insight |
ISSN: | 2379-3708 |
Popis: | Mutations in the cilium-associated protein CEP290 cause retinal degeneration as part of multiorgan ciliopathies or as retina-specific diseases. The precise location and the functional roles of CEP290 within cilia and, specifically, the connecting cilia (CC) of photoreceptors, remain unclear. We used super-resolution fluorescence microscopy and electron microscopy to localize CEP290 in the CC and in the primary cilia of cultured cells with subdiffraction resolution and to determine effects of CEP290 deficiency in 3 mutant models. Radially, CEP290 localizes in close proximity to the microtubule doublets in the region between the doublets and the ciliary membrane. Longitudinally, it is distributed throughout the length of the CC whereas it is confined to the very base of primary cilia in human retinal pigment epithelium-1 cells. We found Y-shaped links, ciliary substructures between microtubules and membrane, throughout the length of the CC. Severe CEP290 deficiencies in mouse models did not prevent assembly of cilia or cause obvious mislocalization of ciliary components in early stages of degeneration. There were fewer cilia and no normal outer segments in the mutants, but the Y-shaped links were clearly present. These results point to photoreceptor-specific functions of CEP290 essential for CC maturation and stability following the earliest stages of ciliogenesis. |
Databáze: | OpenAIRE |
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