Development and disease of the photoreceptor cilium


Autoria(s): Ramamurthy, V.; Cayouette, M.
Data(s)

19/12/2010

31/12/1969

19/12/2010

2009

Resumo

Primary cilia are microtubule-rich hair-like extensions protruding from the surface of most post-mitotic cells. They act as sensory organelles that help interpret various environmental cues. Mutations in genes encoding proteins involved in ciliogenesis or protein transport to the primary cilia lead to a wide variety of diseases commonly referred to as ciliopathies,which include primary ciliary dyskinesia, situs invertus, hydrocephalus, kidney diseases, respiratory diseases, and retinal degenerations. In the retina, the photoreceptor cells have a highly specialized primary cilium called the outer segment (OS), which is essential for photosensation. Development of the photoreceptor OS shares key regulatory mechanisms with ciliogenesis in other cell types. Accumulating evidence indicates that mutations that affect OS development and/or protein transport to the OS generally lead to photoreceptor degeneration, which can be accompanied by a range of other clinical manifestations due to the dysfunction of primary cilia in different cell types. Here, we review the general mechanisms regulating ciliogenesis, and present different examples of mutations affecting OS ciliogenesis and protein transport that lead to photoreceptor degeneration. Overall, we conclude that the genetic and molecular evidence accumulated in recent years suggest a clear link between the development and function of the primary cilium and various clinical conditions. Future studies aimed at uncovering the cellular and molecular mechanisms implicated in ciliogenesis in a wide variety of animal models should greatly increase our understanding of the pathophysiology of many human diseases, including retinal degenerations.

V. R. is supported by a studentship from the Foundation Fighting Blindness – Canada (FFB-C). Work in M.C.’s lab is funded by the Canadian Institutes of Health Research (CIHR) and the FFB-C. M.C. is a CIHR New Investigator and a W.K. Stell Scholar of the FFBC.

Identificador

Ramamurthy, V., Cayouette, M. "Development and disease of the photoreceptor cilium". Clinical Genetics, 76(2): 137-145, 2009.

http://dx.doi.org/10.1111/j.1399-0004.2009.01240.x

http://hdl.handle.net/1866/4482

Idioma(s)

en

Tipo

Article