Literature DB >> 22027540

Planar cell polarity in the mammalian eye lens.

Yuki Sugiyama1, Frank J Lovicu, John W McAvoy.   

Abstract

The major role of the eye lens is to transmit and focus images onto the retina. For this function, the lens needs to develop and maintain the correct shape, notably, the precise curvature and high-level order and organization of its elements. The lens is mainly comprised of highly elongated fiber cells with hexagonal cross-sectional profiles that facilitate regular packing. Collectively, they form concentrically arranged layers around the anterior-posterior polar axis, and their convex curvature contributes to the spheroidal shape of the lens. Although the lens has been a popular system for developmental studies, little is known about the mechanism(s) that underlies the development of its exquisite three-dimensional cellular architecture. In this review, we will describe our recent work, which shows how planar cell polarity (PCP) operates in lens and contributes to its morphogenesis. We believe that the lens will be a useful model system to study PCP in general and gain insights into mechanisms that generate high-level cellular order during development.

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Year:  2011        PMID: 22027540      PMCID: PMC3243032          DOI: 10.4161/org.7.3.18421

Source DB:  PubMed          Journal:  Organogenesis        ISSN: 1547-6278            Impact factor:   2.500


  53 in total

Review 1.  An essential role for FGF receptor signaling in lens development.

Authors:  Michael L Robinson
Journal:  Semin Cell Dev Biol       Date:  2006-10-27       Impact factor: 7.727

Review 2.  A role for Wnt/planar cell polarity signaling during lens fiber cell differentiation?

Authors:  Y Chen; R J W Stump; F J Lovicu; J W McAvoy
Journal:  Semin Cell Dev Biol       Date:  2006-11-19       Impact factor: 7.727

Review 3.  Tissue/planar cell polarity in vertebrates: new insights and new questions.

Authors:  Yanshu Wang; Jeremy Nathans
Journal:  Development       Date:  2007-02       Impact factor: 6.868

Review 4.  Frizzled/PCP signalling: a conserved mechanism regulating cell polarity and directed motility.

Authors:  Jessica R K Seifert; Marek Mlodzik
Journal:  Nat Rev Genet       Date:  2007-02       Impact factor: 53.242

5.  Mapping canonical Wnt signaling in the developing and adult retina.

Authors:  Hong Liu; Sherry Thurig; Othman Mohamed; Daniel Dufort; Valerie A Wallace
Journal:  Invest Ophthalmol Vis Sci       Date:  2006-11       Impact factor: 4.799

6.  Ciliogenesis defects in embryos lacking inturned or fuzzy function are associated with failure of planar cell polarity and Hedgehog signaling.

Authors:  Tae Joo Park; Saori L Haigo; John B Wallingford
Journal:  Nat Genet       Date:  2006-02-19       Impact factor: 38.330

7.  Order from disorder: Self-organization in mammalian hair patterning.

Authors:  Yanshu Wang; Tudor Badea; Jeremy Nathans
Journal:  Proc Natl Acad Sci U S A       Date:  2006-12-15       Impact factor: 11.205

Review 8.  Polycystic kidney disease: cell division without a c(l)ue?

Authors:  M Simons; G Walz
Journal:  Kidney Int       Date:  2006-06-28       Impact factor: 10.612

9.  Abnormal lens morphogenesis and ectopic lens formation in the absence of beta-catenin function.

Authors:  Jana Kreslova; Ondrej Machon; Jana Ruzickova; Jitka Lachova; Eric F Wawrousek; Rolf Kemler; Stefan Krauss; Joram Piatigorsky; Zbynek Kozmik
Journal:  Genesis       Date:  2007-04       Impact factor: 2.487

10.  Optic cup and facial patterning defects in ocular ectoderm beta-catenin gain-of-function mice.

Authors:  Leigh-Anne D Miller; April N Smith; M Mark Taketo; Richard A Lang
Journal:  BMC Dev Biol       Date:  2006-03-15       Impact factor: 1.978
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  21 in total

1.  Dual function of Yap in the regulation of lens progenitor cells and cellular polarity.

Authors:  Ji Yun Song; Raehee Park; Jin Young Kim; Lucinda Hughes; Li Lu; Seonhee Kim; Randy L Johnson; Seo-Hee Cho
Journal:  Dev Biol       Date:  2013-12-31       Impact factor: 3.582

Review 2.  Intrinsic and extrinsic regulatory mechanisms are required to form and maintain a lens of the correct size and shape.

Authors:  J W McAvoy; L J Dawes; Y Sugiyama; F J Lovicu
Journal:  Exp Eye Res       Date:  2016-04-21       Impact factor: 3.467

Review 3.  Diverse Evolutionary Origins and Mechanisms of Lens Regeneration.

Authors:  Jonathan J Henry; Paul W Hamilton
Journal:  Mol Biol Evol       Date:  2018-07-01       Impact factor: 16.240

4.  Microtubules: Evolving roles and critical cellular interactions.

Authors:  Caitlin M Logan; A Sue Menko
Journal:  Exp Biol Med (Maywood)       Date:  2019-08-06

Review 5.  Signaling and Gene Regulatory Networks in Mammalian Lens Development.

Authors:  Ales Cvekl; Xin Zhang
Journal:  Trends Genet       Date:  2017-08-31       Impact factor: 11.639

6.  Wnt-frizzled signaling is part of an FGF-induced cascade that promotes lens fiber differentiation.

Authors:  Lucy J Dawes; Yuki Sugiyama; Ana S Tanedo; Frank J Lovicu; John W McAvoy
Journal:  Invest Ophthalmol Vis Sci       Date:  2013-03-01       Impact factor: 4.799

7.  Interactions between lens epithelial and fiber cells reveal an intrinsic self-assembly mechanism.

Authors:  L J Dawes; Y Sugiyama; F J Lovicu; C G Harris; E J Shelley; J W McAvoy
Journal:  Dev Biol       Date:  2013-11-08       Impact factor: 3.582

Review 8.  Wnt-signaling and planar cell polarity genes regulate axon guidance along the anteroposterior axis in C. elegans.

Authors:  Brian D Ackley
Journal:  Dev Neurobiol       Date:  2013-12-31       Impact factor: 3.964

Review 9.  Cell signaling pathways in vertebrate lens regeneration.

Authors:  Jonathan J Henry; Alvin G Thomas; Paul W Hamilton; Lisa Moore; Kimberly J Perry
Journal:  Curr Top Microbiol Immunol       Date:  2013       Impact factor: 4.291

10.  Lens regeneration from the cornea requires suppression of Wnt/β-catenin signaling.

Authors:  Paul W Hamilton; Yu Sun; Jonathan J Henry
Journal:  Exp Eye Res       Date:  2016-01-08       Impact factor: 3.467
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