BACKGROUND: Cilia are specialized organelles that play a fundamental role in several mammalian processes including left-right axis determination, sperm motility, and photoreceptor maintenance. Mutations in cilia-localized proteins have been linked to human diseases including cystic kidney disease and retinitis pigmentosa. Retinitis pigmentosa can be caused by loss-of-function mutations in the polarity protein Crumbs1 (CRB1), but the exact role of CRB1 in retinal function is unclear. RESULTS: Here we show that CRB3, a CRB1-related protein found in epithelia, is localized to cilia and required for proper cilia formation. We also find that the Crumbs-associated Par3/Par6/aPKC polarity cassette localizes to cilia and regulates ciliogenesis. In addition, there appears to be an important role for the polarity-regulating 14-3-3 proteins in this process. Finally, we can demonstrate association of these polarity proteins with microtubules and the microtubular motor KIF3/Kinesin-II. CONCLUSIONS: Our findings point to a heretofore unappreciated role for polarity proteins in cilia formation and provide a potentially unique insight into the pathogenesis of human kidney and retinal disease.
BACKGROUND: Cilia are specialized organelles that play a fundamental role in several mammalian processes including left-right axis determination, sperm motility, and photoreceptor maintenance. Mutations in cilia-localized proteins have been linked to human diseases including cystic kidney disease and retinitis pigmentosa. Retinitis pigmentosa can be caused by loss-of-function mutations in the polarity protein Crumbs1 (CRB1), but the exact role of CRB1 in retinal function is unclear. RESULTS: Here we show that CRB3, a CRB1-related protein found in epithelia, is localized to cilia and required for proper cilia formation. We also find that the Crumbs-associated Par3/Par6/aPKC polarity cassette localizes to cilia and regulates ciliogenesis. In addition, there appears to be an important role for the polarity-regulating 14-3-3 proteins in this process. Finally, we can demonstrate association of these polarity proteins with microtubules and the microtubular motor KIF3/Kinesin-II. CONCLUSIONS: Our findings point to a heretofore unappreciated role for polarity proteins in cilia formation and provide a potentially unique insight into the pathogenesis of human kidney and retinal disease.
Authors: Patrick Laprise; Slobodan Beronja; Nancy F Silva-Gagliardi; Milena Pellikka; Abbie M Jensen; C Jane McGlade; Ulrich Tepass Journal: Dev Cell Date: 2006-09 Impact factor: 12.270
Authors: Jun-ya Kaimori; Yasuyuki Nagasawa; Luis F Menezes; Miguel A Garcia-Gonzalez; Jie Deng; Enyu Imai; Luiz F Onuchic; Lisa M Guay-Woodford; Gregory G Germino Journal: Hum Mol Genet Date: 2007-04-15 Impact factor: 6.150