Litcius/Paper detail

Primary cilia biogenesis and associated retinal ciliopathies

Holly Y. Chen, Ryan A. Kelley, Tiansen Li, Anand Swaroop

2020Seminars in Cell and Developmental Biology114 citationsDOIOpen Access PDF

Abstract

The primary cilium is a ubiquitous microtubule-based organelle that senses external environment and modulates diverse signaling pathways in different cell types and tissues. The cilium originates from the mother centriole through a complex set of cellular events requiring hundreds of distinct components. Aberrant ciliogenesis or ciliary transport leads to a broad spectrum of clinical entities with overlapping yet highly variable phenotypes, collectively called ciliopathies, which include sensory defects and syndromic disorders with multi-organ pathologies. For efficient light detection, photoreceptors in the retina elaborate a modified cilium known as the outer segment, which is packed with membranous discs enriched for components of the phototransduction machinery. Retinopathy phenotype involves dysfunction and/or degeneration of the light sensing photoreceptors and is highly penetrant in ciliopathies. This review will discuss primary cilia biogenesis and ciliopathies, with a focus on the retina, and the role of CP110-CEP290-CC2D2A network. We will also explore how recent technologies can advance our understanding of cilia biology and discuss new paradigms for developing potential therapies of retinal ciliopathies.

Topics & Concepts

CiliopathiesCiliumCiliogenesisCiliopathyBiologyRetinaCell biologyBardet–Biedl syndromeIntraflagellar transportNeuroscienceRetinal pigment epitheliumPhenotypeGeneticsFlagellumGeneGenetic and Kidney Cyst DiseasesProtist diversity and phylogenyRenal and related cancers